■^ /A^./ MANUAL OF INFORMATION AND SUGGESTIONS FOR OBJECT LESSONS, IN A COURSE OF ELEMENTARY INSTRUCTION. •ft ADAPTED TO THE DSE OF THE SCHOOL AND FAMILY CHAETS, AND OTHER AIDS IN TEACHING. By MARCIUS WILLSON, AUTHOB OF "wILLSOn'S HISTORICAL 6EKI58," " BCHOOL AND FAMILY EEAnrRS,' &C., &C. FOURTH EDITION. NEW YORK: HARPER & BROTHERS, PUBLISHERS, FEANKLIN BQUAKE. 1864. Entered, according to Act of Congress, in the year one thousand eight hundred and sixty-two, by Hakper & Brothers, In the Clerk's Office of the District Court of the Southern District of New Yorli. JUL IS 191* 8^" See tlie Appendix for an " Approximate Programme" of a course of Elementary Instruction during the first ten years of school life ; a collection of Maxims and Mottoes for School Use ; Table of Contents ; and a complete Index. INTRODUCTORY. THE PRINCIPLES ON WHICH THE SYSTEM OF OBJECT TEACHING IS BASED. 1. The System not New in Principle. The system of instruction by "object" teaching, as it has been called, but which we should prefer to call the Devel- op^nent System, is nothing bcw in principle or purpose; for it is fully carried out in Nature's teachings in the early years of childhood ; and it is the system upon which near- ly all valuable knowledge has been accumulated in the pro- gressive civilization of the race. It is to a degree, however, new in its application to the methods of early school in- struction, in which we think we shall show we have most departed from Nature and from enlightened experience. 2. Nature's System of Teaching. It is known that the child, from one to four years of age, acquires knowledge far more rapidly than at any subse- quent period of life. In these three years it has attained great proficiency in a language of peculiar intricacy, speak- ing it with considerable fluency, and mastering many of its most difiicult- idioms ; it has learned to recognize, and give the names, and know many of the qualities and uses of a thousand objects; and this it has done by keeping the senses of touch, taste, hearing, sight, and smell — the per- ceptive faculties — in almost constant and pleasurable activ- ity. These active workers have seldom wearied of their self-imposed labors, and never been injured by over-exer- tion ; for the natural exercise to which they have been sub- jected has been to them health and strength, and the in- 4 MANUAL OF INFORMATION terest the mind has taken in their acquisitions has made every toil a pleasure. And yet, at this period of life, all the powers and faculties are comparatively feeble, so that we are forced to the conclusion that whatever the mind has accomplished is attributable chiefly to the system of instruction which has been pursued. Nor is it the mere acquisition of knowledge that has been thus early accomplished. The pei'ceptive faculties have had that kind of training which has peculiarly con- tributed to give them accuracy and vigor: the attention has been cultivated by presenting to it objects of interest and of suitable variety : memory has been pleasurably, and hence profitably exercised: reason and judgment have had presented to them the materials for their early cultivation ; and the germs of the moral nature have been developed in the early emotions of infantile joy and sorrow, followed by feelings of sympathy, and the first notions of right and duty. We believe there are some very important principles in this system of Nature's teaching, that should be consider- ed and adopted in arranging a system of school instruction. We purpose to point out a few of these principles, hoping, by showing how far we have departed from them, to indi- cate a system more in accordance with that of Nature. 3. Early Development of the Perceptive Faculties. What are, then, the means by which the child acquires all its materials or knowledge ? It may seem a truism to answer that the means or instruments are the senses, which we may class together as forming the perceptive FACULTIES ; and yet the truth seems overlooked, if we are to judge from the little attention given to the principles upon which they act, and the proper means of their educa- tion. The perceptive faculties are developed in early child- hood by appropriate exercise upon the objects which are presented to them : and we think the great desideratum is to discover the 'principles upon which they have thus been exercised in the school of Nature. Let us first take the FOR OBJECT LESSONS. O senses of sight and hearing — the most important of onr senses in an educational point of view — and inquire in ivhat order knowledge is obtained through them, that we may learn, if possible, where to begin in the presentation of any subject to children. 4. The "Elementary" Theory— generally adopted. "Begin Avith the elements" of a subject, says one: "Re- duce every thing to its elements," has become a stereotyped phrase with educators. We are asked, "What can you have more simple than the elements of a subject ; and shall we not begin Avith them ?" This is, indeed, the funda- mental principle on AA^hich our systems of primary education have been based ; and the theory looks like a very plausi- ble one. In, fully carrying out this system, Ave are told, Avhen Ave come to teach the alphabet^ that the letters arc formed by combinations of certain elementary lines ^ straight and curved, and that the true method is to teach the ele- ments first, by Avhich the compound may be thoroughly un- derstood. The same theory directs that we should begin Avith similar elements — Avith the most elementary lines — in Avriting and in draAving. In reading, Ave are told that the spoken Avords are formed by combinations of certain ele- mentary sounds, and therefore the pupil must begin Avith these. It is true that all these so-called elements are wholly ximneaning things to the child — that they have no ideas con- nected Avith them ; but what of that ? In teaching spelling Ave come as near to the elementary system as possible, by giving long columns of mere words to be s^ielled, not one in twenty of which has any meaning to the child. In arith- metic we begin Avith certain marks or signs, called digits, because these represent the elements of arbitrary numbers. In grammar Ave begin by taking a sentence, and teaching a child the subject, predicate, object, attribute, etc., because these are said to be the elements of the language. In geog- raphy Ave begin by teaching the infantile mind the form of the earth, perhaps its place in the solar system, its zones, latitudes and longitudes, and great divisions of land and 6 MANUAL OF INFORMATION water, because these things are supposed to be the eUinent- ary parts which make vip the science of geography, and as if these were the first things which mankind learned about the earth, instead of being the last. These are sufficient illustrations of the lirinciples on which our systems of edu- cation have been based. Let us now look at Nature's sys- tem, under which the child had j^rogressed so finely during its early years, and see if the two harmonize. 5. Nature's System— How opposed to it. The child early learns to recognize a great variety of sur- rounding objects, and to designate them by their approi^ri- ate names. Thus, an object is presented to the sense of sight, causing seoisation : if attention be sufficiently direct- ed to the sensation, the latter is followed by perception^ when an idea., image.) or representation of the object is pre- sented to the mind. Language now seeks an expression — a word or name — by which to represent the idea. Here the order of sequence, as in all cases of Nature's teaching, is, first the idea., and then the icord to express or repre- sent it ; and it will be found that Nature never inverts the order; never takes a step in instruction that requires a si(fn to be learned before the tJiing signified is presented. This is as true as that sensations and perceptions precede ideas, and as certain as the truism that the mind can never give expression or representation to what it does not pos- sess ; and when the attempt is made to present to the mind words and signs before the ideas and things signified., Na- ture is outraged, and the fundamental principles of educa- tion are violated. It is very probable, therefore, that Na- ture's method is the true one, for it is based upon the onli/ order in which the mind acquires knowledge. Let us use this principle to test some of our methods of instruction. I will suppose that a child four years of age is placed in my charge, and that I am to commence its school instruc- tion. Its perceptive faculties have already received con- siderable culture from the tutelage of its first teacher. Na- ture : it has acquired considerable knowledge of surround- FOR OBJECT LESSONS. T ing objects, and all in the order of sensations, perceptions, ideas, tvorcls. It can use sjwken words, but has not learn- ed to recognize the printed representations of them. I wish to teach it to read, and first take up the alphabet for that purpose, because I have been told that I must begin with the elements of the printed words. I commence with A, B, C ; but I can associate, in the mind of the child, no ideas with them; and the rule which Nature has given me is, ideas before signs. The child has no ideas of which these marks are the signs. Another theoretical educator comes along, and tells me I have not reduced the subject to its simplest elements ; that there is something even more elementary than the let- ters of the alphabet, for these letters are compounded — made up — of elementary straight and curved lines. I then begin with these sup^oosed elements, and attempt to teach the child all the forms of* the lines that enter into the struc- ture of the letters. But, aLls ! the process seems more and more tedious the nearer I get to the xdtvnate elements, and when again I revert to the rule of the great teacher, Na- ture, I find I am still violating its princijDles, even more, if possible, than before. At this time another beautiful theory is presented to me : I am told to leave the alphabet for the present, and to be- gin to teach reading with icords. This surely, I think, must be the natural order, for the child uses words before it is taught the letters which compose them. But, in order to learn to read and sj^eak the printed Avords, I am told that the child should first learn the elements of the spoken words, that is, the elementary sounds of the letters ; for these, it is very evident, the child uses in speaking a word — and it could not speak a word without using them. It does not occur Jo me that this beautiful elementary theory would require a knowledge of the nerves and muscles of the arm befoi-e the arm should be allowed to be used in the practice of muscular motion ! I proceed with the pre- scribed method, and, presenting to the child the separate letter^ of the word co^?, I teach it their elementary sounds: 8 MANUAL OF INFORMATION then I tell the child to combine these three elements, and am gratified to find that the compound is the spoken word cap ! I have taught the child to pronounce the word ele- mentarily ! But when I look more closely at this process, I find that I presented to the child the word cap before the idea ; and also that these elementary sounds were not pre- ceded by any ideas of which they were the representatives! Even this, therefore, can not be N'atitre's method, nor in accordance with the natural development and use of the mental faculties. I am satisfied, therefore, that I have not yet discovered the natural method of teaching reading, and must begin anew. I now present to the child a real object — a cap. Sup- pose it had never seen one before. The object i>roduces, through the organ of sight, a sensation : if sufficient atten- tion be ^wcn, p>erce2:>tion follows, connecting the sensation with the object, and an image or idea of the object is then formed in the mind. Now, for the first time, a icord^ a name, is wanted, to give outward expression in language to the idea. If some particular articulate sound is now given the child to meet this want, it ever after represents the object by that sound or name. The idea, the want, has come before the representative sign. But how does Nature teach us to represent the idea or image of the object to the eye? First by Vk picture of the object, as we see in the picture-writings of all nations emerging from a state of barbarism. After a time the pic- ture is dropped, and more arbitrary but more convenient marks or signs are substituted, as we find in the arbitrary letters and Avords of our printed language. The printed word, however, like the picture, represents, by association, the object, or the idea which perception gives of it ; and as in nature it never i:)recedes the idea, so it should not in our teachings. Suppose, then, that the child has already learned to rec- ognize numerous printed icords, as the word-pictures of ob- jects, and to read these words at sight as the signs of pre- viously-acquired ideas. These words now become intelli- FOR OBJECT LESSONS, 9 gible objects hoih of sight and- of hearing, and may be treat- ed as any other objects. They are formed of certain char- acters called letters/ and now these letters, for the first time, have a significancy, as j^arts that make up a well- known object ; and their separate forms now begin to be recognized, and may be taught, not as making up an arbi- trary and unmeaning alphabet, but as making up ivords that represent ideas. For a like reason, after a knowledge of the words whi(^ they form, the elementary sounds of the letters may be learned, for noio, for the first time, they are seen to form a whole or compound, which rejjresents a previously-acquired idea. If, therefore, we are correct in following out the princi- ples adopted in Nature's teaching, neither the letters of the alphabet nor their elementary sounds are of any use in the primary work of teaching to recognize or call words — that is, in teaching reading — so far as the use of words is con- cerned for the mere expression of ideas. But after this first and primary object has been attained, and reading be- gins to be made one of the fine arts, and to take on the or- namental, it may i-eceive much additional beauty, and va- riety, and force by elocutionary training of the ear and the voice in recognizing and uttering the elementary soimds. These exercises may, indeed, be introduced immediately after the Avords are fully learned, but should not precede them. From the principles already deduced by observing Na- ture's method of teaching, it is evident that we should be- gin primary instruction in arithmetic, or numbers, with ob- jects, and not with their arbitrary representations — with peas, beans, or other objects, or with the fingers of the hand, if you choose; but not with the arbitrary digital signs. Go as far as possible with concrete numbers — invariably as- sociating numbers with the objects, just as Nature teaches. Children, unaided, learn much of geometry, and may be taught much more of it practically ; but not by taking it up in the order of its so-called elements. The elementary principles of geometry are said to stand in the order of A 2 10 ■ MANUAL OF INFOEMATION" points, lines, figures, surfaces, and solids ; but who does not know that a child gains ideas of the solid &V3.t, and proceeds thence through surfaces, figures, and lines, to points ? The merest child has obtained from Nature a very considerable knowledge of solids long before it has any other idea of a j^oint than of a 'material one. Here, as in all other cases, it proceeds from the concrete to the abstract, and from the whole to the parts which compose it ; just as it learns words first, and proceeds thence to their letters and elementary sounds. 6. The great Error in our Systems of Primary Instruction. We believe the great error in our systems of primary instruction is the prevalent idea that. we should view eveiy subject as a completed science^ that we should then reduce the science to its so-called elements, and begin our teach- ings with these. But this is a total inversion of the order in Avhich every science has been built up in the growth of the race, and opposed, also, to the order of mental devel- ojiment, and, consequently, to the principles upon which knowledge is acquii-ed. by the individual. What yfo now call the elements of a subject are the expressions of its gen- eral truths — the final results — the few general facts or prin- ciples which science has deduced from a large collection of facts after the structure has been - completed ; and as nei- ther nations nor individuals arrive at these elements first, so they should not first be presenteci to children. What are the elementary sounds of our language but the results of investigation by scholars after the language had attained its present degree of development ? And yet, even schol- ars do not agree as to the number and character of these sounds, nor are they the same in all languages. Let us bear in mind that the nidbnentary facts of a science are one thing, and its elementary ininciples another : \\\q facts are the first things learned, and by simple perception ; ihoi prin- ciples are the last things learned, and they are acquired by a much more advanced mental process— that of general iza- FOR OBJECT LESSONS. 11 tion. Nature^ dealing only with facts, teaches the particu- lars, and then we make the generalization. Hence we see why our perceptions are right, and why our rules and prin- ciples are often wrong. We i-emarked at the outset that the system of "Object" teaching is not new in principle, and that it is not only car- ried out in Nature's teachings, but that it is the system upon which nearly all valuable knowledge has been accu- mulated in the progressive civilization of the race.' 7. All Science built up on the "Object" System. All science has been built up upon this system ; all origin- al investigators and discoverers even now adopt its meth- ods ; it is only when we come to the elementary instruction of the school-room that we dejiart from its principles. Let us bring up a few cases in illustration. If we look at the science of botany we shall find that it has grown from small beginnings by a close examination of the objects themselves. Amid the infinite diversity which the vegetable world presents, certain points of resemblance Avere at a very early 2:»eriod noticed by the most casual ob- servers, sufficient to form the basis of some sort of a classi- fication, even though it may have been as rude as that given by the poet Cowley when he divided the vegetable world into three great classes — herbs, flowers, and trees. But when Linnaeus, and after him Jussieu, laid the foundation of the science of botany as it now exists, it was not by speculative theories formed in their closets, but by close observation of Nature herself — such a course as we have attempted to sketch the outlines of in the lessons on sev- eral of the charts in this series. Look at the " Forms of Leaves," as presented on Chart No. XIX. All these were closely examined in the natural objects themselves by the early botanists, and names given to them. Thus, difterent species of plants were found to vary in the general forms. of their leaves, some having linear leaves, some ovate, some cordate, or heart-shaped, etc. ; some species were found to have their margins entire and unbroken, others had them 12 MANUAL OF INFORMATION variously toothed or serrate ; in some species the tips of the leaves were sharp-pointed, or mucronate ; in others, blunt, or truncate; and in others, notched, or emarginate; but in all the individuals of each species the family resem- blance was so uniform as not to be mistaken. Yet not a step could be taken in building up the science of botany imtil all such particulars, and others similar to them as to the forms of the stems, flowers, roots, etc., were noticed. And if children would have the most accurate knowledge of the forms and colors, and other charactei-istics of indi- vidual plants, they must be led to notice the real plants themselves, or their representations. Mere description is, for the young, a very poor substitute, although it may an- swer, where nothing better can be had, for the mature schol- ar, who, having carefully observed one thing of a kind, is prepared to judge of others of the same kind by it ; just as a child that has closely examined one labiate flower is pre- pared to judge of all other labiate flowers by that one; and when he sees a certain leaf, and is told that particular form is called elliptical, he knows the shape of any other leaf that is described as being elliptical, and of any thing else in nature that is so described. It is very apparent, there- fore, that the true method of instruction is to present the object first, or the representation, if the object can not be obtained, and not the description. First the idea is to be acquired, and after that the words'^\\\\.ch represent it almost spontaneously follow. This is as true, both of the method of discovery, and of all approved subsequent study, in all other sciences as in botany. Not only did the discoverers in anatomy examine every bone, and nerve, and muscle, and vein, and artery, and notice their varied uses, and their conditions of health and disease, but we think it necessary that students in anat- omy at this day should pursue the same course of instruc- tion. Does not the geologist examine the rocks them- selves ; the astronomer turn his telescope to the heavens, that he may see with his own eyes ; the chemist go over in his laboratory the experiments of his predecessors ; and the FOR OBJECT LESSONS, 13 scientific farmer study the conditions of vegetable growtli in the analysis of soils and plants, and in experiments based on what he thus learns ? And if " seeing is believing," and leads older students in the most direct road to knowledge, does not the same principle hold good with children ; and ought we not, as far as possible, to pursue the same sys- tem in their education ? Let them learn by the evidence of their own senses as far as they can, for then they will be apt to learn aright. In the knowledge thus acquired they are always interested. To see is to know, but that which is merely told is often unheeded, misapprehended, or dis- believed. We see, therefore, that Nature teaches, and that science progresses, from the observation of the rudimentary facts, upward to the rules and principles Mdiich are the gen- eralization of them. And why should we, in our school in- struction, invert the order? 8. Why Science is adapted to Childhood. It is easy to see that, when presented in the true induc- tive order, all the natural sciences, which are built uj) of facts from the great book of Nature, are peculiarly adapt- ed to the capacities of childhood^giving constant activity, as they do, to the perceptive faculties, and storing the mind with materials for the further exercise of memory, compar- ison, association, imagination, reason, and judgment. Many subjects which are put far advanced, even in the curriculum of college studies, by reason of the inverse order in which they are presented in books, are thus seen to be connected with the common matter of every-day life, and their rudi- mentary facts to be constantly passing under the observa- tion of children, A little pebble is a very common matter, which children often handle with little interest ; but con- nect it with the geological history of our earth — show how, in some deep and quiet sea of a bygone age, it was slowly deposited, particle by particle, and finally became hardened into stone — show the strange animals and plants that were its contemporaries — how it was subsequently broken from its rocky bed i and after being tossed and buflTeted by the 14 MANUAL OF INFORMATION waves for ages longer, until, Avorn into its present form, it Avas left where you chanced to find it — and it at once be- comes an object of curious regard in the eyes of the in- telligent child ; for in its little self it presents the records of a history Avonderful and grand in the extreme. Thus every pebble from the brook, every shell from the sea-shore, every plant from the fields or wayside, and every star that twinkles in the evening sky, becomes a rudimentary fact of scientific knowledge-^ a fact which even children can comprehend. What we need is to present such facts (and there is a boundless store of them ready at our hands) in their appropriate order, in a system of primary instruc- •tion. Let our reading-books prepare the way for this sys- tem, both for teachers and pupils, by giving to all some lit- tle insight into the mysteries contained in the great volume of Nature, which, unhappily is yet a sealed book to many of our educators themselves ; and then let the system of " Object" teaching, now being inaugurated, work out the details. 9. Why " Grammar" is not adapted to Childhood.* Perhaps in no branch of education do we violate nature more than in the manner in which we presume to teach children " the art of speaking and writing the English lan- guage Avith projsriety ;" oi*, as it is called, English Gram- mar. Language groAvs up Avith the child as a hahit ^ he uses the same words and forms of exj^ression that are used by those with whom he is brought most in contact ; he im- itates them, Avhether they speak correctly or incorrectly, and one form of expression is just as natural to him as an- other, and just as correct, after he has formed the habit of using it. His ear is the medium of all the instruction in language which he receives in a course of natural training ; and/ws language grows up, just as language has grown up in the progress of the race. If the language to Avhich he has been accustomed has been correct, he needs no farther * By " Gramraar," as will be seen, we do not mean the study and practice of lanpuage, but the study of the philoxoplii/ of language. FOR OBJECT LESSONS. 15 instruction to teach him to speak correctly ; if it has been Avrong, lie needs to be told what forms he should use, and, in addition, as all the .forms of language are arbitrary, and as he has learned to use them by habit, he needs some kind of training that shall form other habits. But, in the ordi- nary mode of teaching, the child is set to learning those principles which unfold the philosophical construction of the language — such as what the subject or nominative is, w^iat the predicate or verb, and object — qualities, attri- butes, connectives, disjunctives, etc. ; and then the rides of syntax, in accordance with which the diiferent parts of this arbitrary system are hinged together. But all this is a very roundabout method for leading to the substitution of one arbitrary form for another. Now the expression " I is" is just as good, primarily, as " I am ;" but if we would have the child change the former for the latter form, is it necessary first to construct an elaborate science, then from the science deduce the rule that " a verb must agree with its nominative in number and person," and then have the child learn the rule in accordance with which the expres- sion shalj be corrected? But even when the child has learned the rule, can he correct the expression any better by its aid ? Does he see why "I" and " am" agree any bet- ter than " I" and " is ?" why the former expression is cor- rect, and the latter wrong ? Nature has built up the lan- guage, not in accordance with arbiti*ary rides, but in ac- cordance with usages which have grown into habits. Lan- guage knows no other law. It would seem, therefore, that if a child speaks incorrectly we should better secure the desired change by direct cor- rection than by rules ; for the rules, in addition to the long road it takes to reach them, are just as arbitrary as the simple correction, and much more difficult of comprehen- sion by children. And why should children be expected to learn to speak by rule a language that was never formed by rule ? The rules are the final deductions of the science of language ; and though they are said to embrace its ele- mentary pii'inciples, they are not what either individuals or nations first lonvn in tlie ncnuisition of a language. 16 MANUAL OF INFORMATION What we have said here on the subject of instruction in language has reference to primary education only^to the simj^le matter of the art of speaking and writing correctly, which, however, the ordinary study of grammar seldom at- tains to — and not to the course which may be pursued by scholars who wish to make themselves acquainted with the philosophy of language. As some confirmation of our views on this subject — if they need any other support than is to be found in the facts already presented — we would refer to Herbert Spencer, who gives very satisfactory reasons, iipon general pi-inci- ples, for denouncing Avhat he calls " that intensely stupid custom, the teaching of grammar to children^ M. Marcel says : " It may without hesitation be affirmed that gram- mar is not the stepping-stone, but the finishing instrument." Mr.Wyse argues: "Grammar and syntax are a collection of laws and rules. Rules are gathered from practice ; they are the results of instruction, to which we come by long ob- servation and comparison of facts. It is, in fine, the science, the philosophy of language. In following the process of nature, neither individuals nor nations arrive at the science first. A language is spoken, and poetry written, many years before either a grammar or prosody is even thought of. Men did not wait till Aristotle had constructed his logic, to reason. In short, as grammar was made after language, so ought it to be taught after language." 10. How Language is to be taught. But how, it will be asked, shall we teach language? We reply, just as Nature teaches it. Cultivate the per- ceptive faculties (to which " object" teaching is specially adapted) to their greatest extent, so that they may supply the mind with the greatest possible number of valuable and clearly-conceived ideas — the materials of knowledge, as well as the soul of all language. The faculty or power of speech is then to be exercised in accordance with those forms of language which custom prescribes ; and, like all other faculties, exercise alone can give it proj)e-r cultiva- FOR OBJECT LESSONS. 17 tion.* The only difficulty that intervenes is where wrong habits of speech have already been formed by violations of the natural law of usage. The wrong habits need to be corrected ; but this is not a legitimate part of education, any more than the giving of medicine for violations of Na- ture's laws is a part of the. economy of Nature. We do not think the natural and direct remedy is to be found in studying the philosophy or grammar of the language, but in the supplanting of the bad habits of speech by correct ones, and in the same manner that any other habits arc formed. The following is the remedy which has been found most successful in our own experience. 11. Correction of bad Habits of Speech. "VYe once had charge of a large school of boys, nearly all of whom had formed such habits of speech that, in their ordinary conversation and in recitations, there was an al- most constant vi6lation of grammar and good usage ; and although their faulty expressions were often corrected, and they knew them when pointed out, yet inveterate habit ruled in spite of all our efforts. We then supplied every pupil with' a pocket blank-book and pencil, and required him to write down every wrong (ungrammatical) expres- sion which he detected himself in using, or which he heard from his associates ; and a few minutes daily were devoted to reading and commenting upon these expressions. In a short time the most obvious faults disappeared from the school-room and play-grounds. We closely watched the operations of the system. We soon observed, when a question was asked or answer given improperly in the school-room, that, although the pupils at their desks seem- ed to be absorbed in their studies, they would detect the faulty expression sooner than any thing else, and pencils would be busy in minuting it down. In fine, Ave observed that the ears of the pupils were being rapidly trained to detect these faults, just as the ears of the musician become * See the exercises in speaking and writing ("Composition") which accompany the use of the cliarts. 18 I^IANUAL OF INFORMATION trained to detect discords in music; and Ave found that when this was fully accomplished, the evil was corrected. We Avere satisfied that one month's time of this kind of training was worth more to our youthful pupils in acquir- ing the art of speaking correctly than two years devoted to studying the rules and principles of grammar. We adopted the same general plan with those advanced students who were studying the 2>hiloso2)hi/ of the language from the grammatical text-book, for we observed that the rules of correct speech had very little influence in form- ing in them correct habits of speaking, just as we know some teachers who pride themselves upon teaching English grammar, but Avho are continually murdering the " King's English" in their ordinary conversation. We required our students — young men — to write down not only the ■an grammatical expressions which they detected them- selves, their classmates, and their teachers in using, and which they heard in sermons, lectures, etc., and found in standard books, but also such forms of expression as Avere rhetorically or philosophically defective — a large and im- portant class, not covered by the ordinary rules of gram- mar. These formed the subjects of ows most interesting and most important lessons in language. We found that such exercises, by training the ear and the eye to detect Avhat had before often passed unnoticed, Avere the only ef- fective means, where Avrong habits had been j^reviously formed, of making jt>raciica? grammarians. 12. The "Natural Order," the first great Law of Development. Our observations have thus far had reference chiefly to the principles of mental development, and the consequent natural order in Avhich subjects should be presented to the minds of children; and Ave have illustrated our vicAVS by a fcAv specifications. We may conclude, therefore, that this Natukal Order of the presentation of subjects is the first great law of mental development, and that we may expect to be successful in our systems of education only so far as FOR OBJECT LESSONS. 19 •we adhere to the principles which the Great Teacher has developed in the laws of mind itself. We also infe? that, as all the materials of knowledge are derived through the perceptive faculties, primary education should be directed chiefly to theh' culture, in accordance with the laws of their action : and if the rules, principles, and generalizations of science can not be comprehended by the mind imtil the perceptive faculties have supplied the rudimentary facts on which they are based, then we should not begin our teach- ing of a science with these generalizations. But all 7ndes are generalizations. We should, then, discard rules until they are developed naturally from the accumulated percep- tions. We also infer that as Nature never gives children vjords until she has given them ideas which require expres- sion, so we should be careful in our teaching not to invert the order — not to teach the signs or sounds before we im- part ideas of the thing signified. And if Nature gives per- ceptions of an object as a xohole before it notices the parts which compose it, we should adopt the same order of i^re- sentation ; and if ideas of things concrete (as " a foolish man," "three apples") precede those of things abstract (as "folly," "three," etc.), we should learn a principle of edu- cation therefrom. It is on such principles of mental philos- ophy that the " object" system, or true development system of teaching is based. 13. "Exercise," the second great Law of Development. But there is still another fundamental principle of educa- tion, to which we have yet scarcely alluded, but which is quite as important as the order of mental development and the order of presentation of subjects. It is this, that Exer- cise is the great law of man's threefold nature — mental, moral, and physical — and that without it there can be no development. Plants, attached to the soil, incapable of voluntary motion, and hence needing none, require for their perfect development only such suitable nourishment as na- ture provides ; but animals require, in addition, the exer- cise of all their powers and faculties ; and without it they 20 MANUAL OF INFORMATION never come to maturity, and when it is witlidrawn even the physical nature languishes, all the faculties become en- feebled, and the animal soon dies. But while exercise is every where acknow*ledged to be absolutely essential to man's physical development, its importance in a specific training of the senses, as well as of the higher mental pow- ers, has not been fully appreciated ; and still less has it re- ceived its due consideration in 'moral culture.* And in still another wide field — in the exercise of the C07istructive energies of children for the purpose of giving regulated culture to the natural craving for invention and desijrn — education has made no advances. A few suggestions on this subject Avill be found elsewhere in this volume. f 14. What the true Development System aims at. The true development system, of which " object" teach- ing is only a part, is designed, in addition to its proper presentation of the materials of knowledge, to mark out such a course of training for the young, that all the facul- ties shall receive exercise of such an amount, kind, and quality as shall best conduce to the harmonious and com- plete development of the whole individual. The lessons thx'oughout this volume will best show our views of the manner in which this may be accomplished, so far as they cover the ground of primary education. There are, how- ever, additional subjects happily adapted to this kind of el- ementary training — such as may be found in the boundless variety of the insect world and in the mineral kingdom — which are scarcely alluded to here, but which we hope to present hereafter in additions to the present volume, and in connection with additional charts, and the completed se- ries of the "School and Family Readers." It is not to be suj^posed that all the objects aimed at in this development or " object" system have yet been fully attained ; for not only is the system yet in its infancy, but no serious attempt * See remarks and dii'cctions on this subject in Calkins's "Manual of Object Lessons." , f See remarks under the head of " Gf^ometrical Drawing," page 54. FOK OBJECT LESSONS. 21 has heretofore been made to reduce it to " working order," and to adapt it to the practical duties of the school-room. Defects in any complete course of primary instruction that can now be presented will doubtless be found ; but if the principles of the system are correct, the experience of teachers will soon suggest the proper corrections. 15. No Danger of carrying the System too far. Apprehensions have been expressed in different quarters that this " object" system, or development system, may be carried too far. The fear, we imagine, has been on the part of those who do not understand its true principles. There can be little danger of its being carried too far, if it be what we have described it, and what teachers should make of it — a presentation of facts to the mind, in their natural order, and not of rules and theories. Who will maintain that children are likely to see and hear too much, and that the voluntary exercise of their perceptive faculties is likely to be attended with any injury ? When we send children into the fields for recreation, we do not bandage their eyes nor close their ears, lest they may see too much of the myriad forms, shades, and colors of Nature, and their ears be too much ravished with its music ; but we think that all the delights which they can thus enjoy will make them both wiser and better. Seeing and hearing much do, indeed, cause children to ask questions almost innumerable, because it gives them a craving for knoAvledge ; and we wish Ave could say that parents and teachers have now more correct views of education than to check this inquis- itiveness. Knowledge acquired under the stimulus of childish curiosity is very different from lessons poured into an unwilling ear. Those who will look through the sam- ple lessons and exercises in this volume will see that they do not consist in telling about *' common things," but in so presenting facts as to awaken the perceptive faculties to voluntary and pleasurable activity, for the purpose of de- veloping thought. In accordance Avith the true develop- ment system, instruction about common things — that is, 22 MANUAL OF INFORMATION, ETC. telling about them — should come in only incidentally, and after the awakening of a cuiiosity that thus seeks gratifica- tion. Seek, therefore, by every proper means, to awaken this curiosity in children, by the presentation of the natural objects or by the best pictorial representations of them, by oral descriptions, by anecdote and incident, by poetic allu- sions, and by such every-day reading lessons as shall em- brace a wider range of utility than the merely ornamental part of the art of reading — the mere calling of words in an elocutionary manner. We would remark here that the following exercises, ac- companying a description of the charts, are not intended to be followed out, necessarily, in the exact order in w hich • they are here presented, which is in the order in which the charts are numbered ; for several of the charts will often be needed for daily exercises upon different subjects. The teacher must often arrange his own programme o? grades and ste2:>s in object teaching, which Avill be regulated by the amoimt of time which he can devote to each subject; but we would advise him to take as his guide, for early training, the Programme laid down by Mr. Calkins in his " Manual of Object Lessons ;" and for a more extended course we would refer to the " Approximate Programme" found in the Appendix to this volume. We would refer to the article on Drawing, as illustrated by Chart No. X., for some important principles in that de- partment; to the remarks on Geogkaphy, in connection with Chart No. XI., for an exposition of the true develop- ment system ; while the article on Colors, as illustrated by the chromatic ^ scale oh Chart No. XIV., we believe to be the most practical exhibition of that subject that has ever been presented. AN EXPLANATION OF THE SCHOOL AND FAMILY CHAETS, WITH SUGGESTIONS OF PRINCIPLES AND METHODS OP DEVELOPMENT, AND INFORMATION FOR THE TEACHER. DESIGNED FOR AN EXTENDED COURSE OF ELEMENTARY INSTRUCTION, AND ADAPTED TO THE SYSTEM OF OBJECT TEACHING. While the charts, m connection Avith the present man- ual, are designed to carry out in a natural order the true development or " object" system of instruction, beginning with the very earliest scholastic training of children, they also embrace, as a part of that early training, the teaching of the ALPHABET, of BEADING, of SPELLING, of PKINTING and DRAWING, of WRITING, and of ORAL COMPOSITION. The first principles of numbers and of geography are also illustrated here, in accordance with the object system ; and if we have succeeded in our purposes, we have presented in the earlier Dumbers of the charts, with the accompanying directions, a complete programme of such a course oi elementary instruc- tion as is required for the younger pupils in our schools. In what manner these subjects, as well as those more ad- vanced, are made parts of the object system, will be fully developed as we proceed with an explanation of the charts and their varied uses. Moreover, the ineormation here embodied, as explanatory of the Natural History Charts — and especially in the departments of zoology and botany — is designed as the carrying out of the plan of the " School and !^amily Readers," by furnishing such additional valua- ble information in the Natural History departments as was much needed, and such as the Readers, from their necessa- rily elocutional character, could not fully embrace. It will now be seen, also, that the series of " School and Family 24 MANUAL OF INFORMATION Readers," the "Primary Object Lessons," the "Manual" by Mr. Calkins, with the present work (which harmonizes with it), and the " School and Family Charts," are intimate- ly connected in their design, principles, and plan, as parts of 07ie system ; and we believe that these several parts will now be found combined into one harmonious whole. CHAET No. I. ELEMENTARY. Here are sixty words, each illustrated, and they contain all the letters of the alphabet. We suppose the child, Avhen this chart is first presented to it, not to know its letters nor any thing about reading. The child has, however, from Nature's teachings, already learned to distinguish a great TYiany objects^ and to call them by their apj^ropriate names. Indeed, most of the objects represented on this Chart it is probably already familiar with, either from actually seeing the objects themselves or their pictures. The child has, therefore, already learned to recognize the objects, to rec- ognize their pictured representations, and to designate them by their appropriate names. It has proceeded in the nat- ural order of, 1st, the idea, and 2d, the word to express it. Let the teacher pursue the same order — ideas before words — and the child will soon learn to read as naturally as it talks. Words taught as the Representatives of Things. As the child talks — that is, calls the names of things, and utters sentences — before it knows its letters or learns how to spell, so it will be found that the most natural order is to read words by sight before it learns how to sjDell them, or even to name their letters. Thus, the child sees an an- imal, and before it can tell all its parts, or, indeed, name any of them, it learns to distinguish it as a whole, and to call it '"'•dogr In the same manner it will easily learn a word as a whole, and name it, before it can readily distin- guish and name its several parts. FOR OBJECT LESSONS. • 25 Therefore let the teacher, in commencing his course of instruction at this point, and having, if possible, a class of beginners before him, point to the i:)icture of a cap on the Chart, and ask what it is. Some pupil will probably say, " It is a cap." Teacher holds up a cap, and asks what that is. Pupils now observe the difference between the two, and say that one is a real cap, and the other the 2nctvre of a cap. Tell them that pictures rej^rcsent things or objects, and that many words also represent objects. Ask them what xoord represents a dog. Ask them if they would like to see the %nord which represents a cap. Point it out to them ; tell them to see how it looks ; ask them if they would know it if they should see it again. Ask them if they can find it on Chart No. II. The class findybz/r such words on Chart No. II. Let them find the same on Chart No. III., and tell tchich line it is in. Call attention to the num- ber indicating the line. In a series of lessons let them go through a similar coi;rsc with all the other words on Chart No. I,, and find the same words either on Chart No. II. or No. III. In Chart No. III. let them tell v}1dch line each word is found in. In this way they learn, additionally, to count, and to recognize numbers up to 17.* * On this Cliart seven of the illustrations — those connected with the words cage, arm, swan, nest,jng, lite, and ox — represent inore objects than the words. This may be thought an objection by some; and if it shall be found so, we purpose to change them. We suggest, however, the fol- lowing advantages from retaining a sufficient number of such complex il- lustrations to break the uniformity of the others. When the child comes to the illustration connected with the word ca(je, ask it what the picture represents. The child will perhaps say, "A girl, a cage, and a bird." Tell the child that one word can repre- sent only one thing (or one collection of things, as leaf, leaves) ; and that tJie word here given represents the cage. This explanation arrests the attention, fixes in the mind of the child the particular thing represent- ed, and leads it to examine the pictures more closely ; so that when it comes to the third picture below, it notices there several objects, and wishes to know ivhich of them the word rejiresents. As each word on the Chart is learned primarily by associating it with its picture, perhaps the object in view will be as readily attained in the B 26 MANUAL OF INFORMATION Calling Words at Sight. Teacher places a strip of paper over the cuts in cue col- umn at a time, and, jDointing out the words, at first in reg- ular order, and afterward promiscuously, requires the pu- pils to name them. This is continued until all the words can be readily called at sight. The Alphabet, Counting, and Printing. Teacher points to the word ccq}, and asks how many parts there are in that word. If the pupils can count a lit- tle, they say three. He tells them those three things are called letters. He points out other words, and requires them to tell him how many letters each contains. AVhile they are thixs learning to count, go back to the word cap, ask them to notice the shape of each letter in it, and tell them their names. After requiring them to examine at- tentively the first letter, C, and to notice and describe its form, he asks them, one by one, to point out and count the Cs in the first column (G), in the second (none), in the third (none), in the fourth (2). After the lesson, let them draw (print) the letter C on their slates, and let some of them draw the same on the blackboard.* It is very important that, in these first at- casc of the complex as the simple illustrations, while, additionally, closer observation and discrimination will be called forth in the former in- stance. If it should be found that the attention of the children is too much di- verted from the particular object and its name by the surrounding pic- tures, take a large newspaper, cut a hole in it of the size of the objects to which you wish to confine their attention, and cover up the rest of the Chart. * It may be objected that chawing should begin with straigld lines in various positions, to be followed by curved lines in various positions, and that only after such elementary lessons should the pupil be allowed to combine them into the forms of letters. We think it would be just as reasonable to require the infant to move its hand through a series of ex- crcises in straight lines, and then through another series in curved lines, before it should be allowed to combine them in the graceful motions which Nature teaches. If the drawing in straight lines, or motion in FOR OBJECT LESSONS. 27 tempts at drawing or writing, the pupils should have a long 2?encil, and that they should hold it just as they should hold a pen in toriting. The habit of holding the pencil or pen properly can be easily formed at this period ; whereas the habit of holding it in an improper manner can be corrected only with the greatest difficulty. Let the class go through with A and P in a similar manner. When they come to the second word, Cat, they find they are already familiar with two of the letters, and they learn T as they learned the others. They thus continue until not only all the words on the Chart, but all the letters of the alphabet are familiar to them. They should count the num- ber of letters of each kind on the Chart.* Also the number of pictures, or words, in each column ; then on the whole chart. In making drawings of the letters on their slates, and on the blackboard, they will for a time make very awkward figures ; and not until they have acquired a considerable de- gree of control over the muscles of their fingers will they be able to form much of an imitation of the originals. Their very failures, however, will not be without advant- straight lines, could be shown to be any easier or more natural than curvilinear motions, there might be some show of reason for restricting the pupil to the tedium of strictly angular movements ; but wc see no reason why both classes of motions may not be carried on simultaneous- ly in drawing, the same as in nature. Why, for example, confine the child for days and weeks to the monotonous exercise of forming the straight perpendicular line of the letter P, before it is allowed to try its skill upon the circular part of the letter ? Will it not be likely to suc- ceed quite as soon in forming the entire letter, when it is allowed the pleasure of alternating the exercises ? What is needed is care in form- ing each pai't ; and this, we think, will soonest be acquired when the pu- pil can see the relation of each part to the whole. Moreover, the child sees no reason in making a long series of straight lines, and wearies of them ; but let him see how straight and curved lines are needed to form letters, and he will be interested in making them as accurate as possible. * The letter a is found on this Chart 20 times ; b, 8 ; c, 8 ; d, 8 ; e, 27 ; F, 5 ; G, 10 ; H, 9 ; i, 12 ; j, 1 ; K, 5 ; L, 10 ; M, 6 ; N, 9 ; o, 26 ; P, 6 ; Q, 1 ; E, 12 ; S, 14 ; T, 8 ; U, 8 : v, 2 ; AV, 7 ; X, 3 ; V, 3 ; z, 1 = 229 letters. 28 MANUAL OF INFORMATION age to them. "When they have acquired some degree of steadiness, draw parahel horizontal Unes on the blackboard, and let them draw the letters between them, as a guide. Then let the pupils draw similar lines. While this series of drawing exercises is progressing from day to day, the exercises on Chart No. II. should be taken up ; for the more familiar pupils become with the words, the easier will they learn the letters which compose them. They thus learn the letters after they know their uses, which is much better than the old, arbitrary, and te- dious method formerly jiracticed. The pupils will thus have learned, from this Chart, to CALL WORDS AT SIGHT, as they tell the names of familiar ob- jects ; to NAME THE LETTERS OF THE ALPHABET ; tO COUNT; and to make a beginning in Drawing or writing. In the mean time they may have received some exercises on Chart No. 11. , to which we now proceed. CHAETNo.II. EEADING: FIRST LESSONS. This Chart embraces the First Series of Lessons in Read- ing, which is here arranged in six progressive Divisions. I^irst Division of the Chart. Reading. — l . Teacher points to the word ccq:), and asks the jjupils to name it. They say " Gap?'' He points to the word cat, and they name that also. He tells them the word between these two is and, and then asks them to read the line (or phrase), w^hich they now readily do. They then, by the aid of the pictures, easily read all the lines or phrases in the first division. 2. Cover the pictures by a strip of paper, and require them to read without their aid. 3. Also cover the words, and let them form the phrases by the aid of the pictures. Oral Composition. — 4. Turn back to Chart No. L, and require the pujiils to form the words there, two by two, FOR OBJECT LESSONS. 29 into similar plirases, connecting them by and^ and repeat- ing them aloud — omitting, of com-se, the adjectives red, blue, pink, etc. Tlius, " face and cage," " quail and snail," " arm and chair," etc. Spelling. — 5. They may now name the letters in the words on Chart No. I., and pronounce the words, still hav- ing the Chart before them. 6. When they can thus spell out the words with consid- erable facility, cover the loords, and, letting them see the pictured representations only, require them to name the letters from memory, and tell what words they form. V. It would now be well for the pupils to be supjilied with Type Letter-cards, each card containing, on each side, the same letter of the alphabet. If they have these, place before them a large number of these cards, and, allowing them to look at the Chart, let them select and arrange these cards on the table, desk, or frame, prepared for the purpose, so as to form the Avords on Chart No. I.* 8. Next, cover the tcords on the Chart, and let the pupils form them with the cards, by the aid of the pictures only. 9. Let them spell out the words, and form the phrases, in the first division of Chart No. II., in a similar manner; first looking at the pictures and words, and, secondly, having the words covered. Printing and Drawing. — lo. Let the pupils print the words in tliis division on their slates, and on the black- board, being careful to use a long 2:)encil, and to hold it as they should hold a pen. This should be done, not as a task, but as a recreation ; and if the pupils should occasionally leave this exercise for rude attempts at picturing animals, * A " Composing-frame" has been prepared for the purpose of holding the Type Letter-cards, which latter are to be arranged by the pupil so as to form words and sentences. A box of the accompanying Letter- cards contains not only the capitals and small letters, but also the marks of punctuation, accents, inflections, etc., and all made of their proper relative height and width, to correspond with ti/pe of the same size of font. The pupils will find the use of these Letter-cards and Frame an agreeable pastime, and the most practically useful and interesting of all spelling exercises. 30 MANUAL OF INFORMATION or any other appropriate objects, tbey should be allowed to do so without censure. Let them draw on their slates as much as they choose. Give them Chart No. X. to copy from, in accordance with the directions, -p. 52-3. Counting. — ll. Let the pupils, during the preceding ex- ercises, count the letters in each word; then in each line; and, finally, in the whole division. /Second Division of the Chart. Reading, — l. The pupils will easily read these phrases, as the words and pictures are already familiar to them. 2. Cover the pictures, and let them read the Avords. V,. Cover the words, and let them form the i)hrases by the aid of the pictures. Oral Composition. — 4. Turn back to Chart No. I., and let the i)upils, in a series of exercises, give to each noun there some descriptive term ; thus forming phrases similar to those in the Second Division o^ Chart No. II. Also let them give to each noun as many descriptive terras as they can ; as, a red cap, a hlue cap, a lohite cap, a hlaclc cap, an old caj^, a ne%n cap, a dirty cap, a soldier's cap, a night-c'xp^ etc. Spelling. — 5. Let the pupils name the letters, and j^ro- nounce the words in this division, being careful to avoid a monotonous or drawling tone. G. Let them do the same when the words are covered. 7. Let them, while looking at the Chart, use the cards in forming the same phrases. 8. Let them do the same from memory, with the words covered. Printing and Drawing,— 9. Let tlie pupils print the words, and form the jihrases in this division on their slates, and on the blackboard. Let them hold the pencil properly. Use Chart No. X., according to directions, p. 52-3. Counting. — Let the pupils count the letters in each word, each line, and in the whole division, as before. Third and Fourth Divisions. Divisions Three and Four should be sjone throus:h with FOR OBJECT LESSONS. 31 in a manner similai- to the Second Division. The few new- words will now be easily learned. Fifth Division. Here are the first complete sentences that we have pre- sented, and they are given without illustrations. Reading. — These exercises may be similar to the pi'e- ceding. Let the pupils also name the words when pointed out to them promiscuously. This will show whether they recollect the word from its ybr;w, or from its position in the sentence. Oral Composition. — Let the pupils form similar declara- tive sentences with the verb to he (is and are), using, as the subjects, the nouns given on Chart No. I. Thus : " The cat is tame." " The bat is quiet ;" or, " is sitting," etc. " Those lambs are tame." " That cat is cunning," etc. This will exercise their ingenuity, and, while it will form a pleasant recreation, it will give them some ideas of writing compo- sitions. Spelling. — This should now be done chiefly by the aid of the Type Letter-cards (if the school has them) ; first form- ing the sentences in this Fifth Division, and afterward oth- ers similar to them. Spelling them aloud may also be prac- ticed. Printing and Drawing. — Let the pupils i)rint the sen- tences in this division on their slates, and on the blackboard — using a long pencil, and holding it as a pen. Let them print as many of the new sentences, similar to them, as they can. Directions for Draioing, see ^. 52-3. Counting. — The same as in the former divisions. Sixth Division. Reading. — As only two new words, " pet" and " new," are found in this division, the pupils Avill have little diffi- culty in reading all the sentences. Let them also name the words when pointed out to them promiscuously. Oral Composition. — l. Let the pupils, by referring to 82 MANUAL OF INFOEMATION" Chart No. I., form as many sentences as they can shnilar to those in this Sixth Division, giving to each noun used two descriptive terms or adjectives. As, An old blue cap. A new wire cage. A large ripe pear. A pretty pink chair. A large iron box. A poor little fly, etc. 2. Also let them sej)arate the descriptive terms. Thus : A large and shaggy dog. A large and gentle ox. A fresh and pretty rose. A tall and lean hound. A sly and cun- ning fox. A fierce and roaring lion, etc. 3. Let them use the verb to he with these latter exer- cises. Thus : The dog is large and shaggy. The rose is fresh and pretty, etc. These may be found rather difficult exercises for jiupils at this stage of their progress, as it may not be easy for them to find tioo descriptive terms which they can use Avith each noun ; but if they accomplish only a little with these exercises, that little will be valuable to them, and probably all that their capacities require. When they have carried these exercises from Chart No. I. sufficiently far, let them form similar sentences with nouns of tlieir own selection. Spelling. — The cards should be used to form, first| the sentences in the Sixth Division, and afterward others sim- ilar to them. The v,-ords may also be spelled aloud. Printing and Drawing. — The same as in the Fifth Di- vision. Counting. — The same as in the former divisions. Also let them now count two divisions consecutively; then three, four, five, and finally all the letters on the Chart. CIIAET No. III. EE ADING : SECOND LESSONS. Reading. — This Chart contains all the words on the first Chart, and is designed to be used chiefly in connection with the first, as before explained, for the purpose of test- ing the knowledge which pupils have of the tcords when seen ajiart from the illustrations. The pupils should also use this Chart for separate read- FOR OBJECT LESSONS, 83 ing exercises until they become perfectly familiar with all the words. The teacher should be careful that the pujDils do not let their voices fall at the commas. The voice re- ceives the rising inflection at the commas, and the falling at the period. Here are presented the first capital letters, which will now be gradually learned from this and the fol- lowing Charts, without calling special attention to them. The exercises here are numbered from 1 to 17 inclusive. Let the pupils learn the meaning of these figiires. They have already learned to count, and should now begin to make an application of the figures. Oral Composition, — l. Let each pupil take line No. 1, and connect an adjective, or some other descriptive word or words, with each noun, repeating the same aloud. Thus, " A blue cap, an old cat, a long-eared bat, two tame lambs, and a gray rat." Let them go through with the entire Chart in this man- ner. 2. Let each pupil take the words in the first line, and form them into clauses like the following, repeating them aloiid, and connect the whole in one general sentence. Thus : " A cap for the boy, a cat to catch mice, a bat in the air, some lambs in the field, and a rat in his hole." " The arm of a man, a chair for the parlor, a rij^e pear on the tree, and the claw of an eagle," etc. Let them go through with the entire Chart in this man- ner. Tliis will exercise the ingenuity of the pupils, and call forth a proper spirit of emulation. Spelling, — The type-cards should now be used to form, first, the sentences on the chart, and then, as indicated above, others formed by the pupils. This will require them to use some of the capital letters, and also to spell some new loords. If they are at first unable to sj^ell these words, they may go for assistance to the teacher, who should print them on the blackboard, or let some older pu- pil do it. The pupils will then be able to form these words with their cards, Avhile the very difiiculties which they have encountered will lead them to observe words more closely, B 2 34 MANUAL OF INFOliMATION and to see the importance of beiug able to spell them. They may also spell the -words aloud. Printing and Drawing. — While some are setting up the sentences Avith tlie type-cards, others should print them on their slates or on the blackboard. Do not forget to i-e- quire them to hold the pencil properly. In these exercises be careful to use the figures where they can be properly used to numher the exei'ciscs. Counting, Adding, and the Use of Figures.— The pu- pil is now supposed to be able to count, perhaps as far as a hundred. He has also learned something of the use of figures to designate numbers. To extend this knowledge farther, let the pupil set up with the Type Letter-cards, or })rint on the blackboard, the first lesson of Chart No. II., " Caj) and Cat." Let him count the letters in the line, and place the number, 9, at the end of it. Let him also i:»ut the number of letters in each word i;nder the word, and at the right the whole number, 9. Teach him that three letters and three letters more make six letters, and that six let- ters and three letters make nine letters. Let him continue these exercises throughout both Chart" No. II. and Chart No. HI. He will thus, with the little as- sistance which he will now be likely to obtain at home, soon learn to count and to add Avith considerable facility ; for when children are once jiut in the way of counting things, they are apt to teach themselves fast enough. All these exercises in numbers may be carried on in connection with or supplementary to the counting and adding of beans, pebbles, or other real objects, as indicated in the instruc- tions given in Calkins' Primary Object Lessons, beginning Avith page 138. In such exercises the pupil should not be kept hacTc for the sake of going through any regular system. The teach- er must exercise his own judgment in this matter, and adapt his instructions to the capacities of his pupils. FOR OBJECT LESSONS. 60 CHAETNo. lY. EEADING-: THIED LESSONS. [In connection with the exercises on tills Chart, the pupils may take np the «arly Reading Lessons in the Primer, or First Header. They may also begin with the ex- ercises on Chart Nd VII., Elementary Sounds, see page 43.] In tliG third series of Reading Lessons we enter upon more extended and complete sentences, which present the first exercises iu eloeutio7i proper. For the 2:)rinciijles of the inflections here presented, and the importance of early attention to them, we refer to the " Directions to the Teach- er," " Prefaces," etc., together with Reading Lessons, in the Primer and First and Second Readers of the "School and Family Series." Reading. — Here are fifteen subjects, presented by fifteen illustrations, with a short reading lesson on each. 1. Let a pupil try to read the first lesson. If he fails in any of the words, let another try. If none can do it, the teacher should tell them the new words, and then have them read the line, and at the same time point out each Avord in it. They may also point out and name the words backward. (The teacher may find it desirable to cover up all the lines or lessons below the one which the pupils are I'eading.) 2. Let them go through all the fifteen lessons in a sim- ilar manner. 3. As soon as they know all the words in a line, the teach- er should read the line elocutionally, giving the jDroper in- flections, emphasis, etc., and should require the pupils to imitate him. Notice that the words printed in italics are to be pronounced with more emphasis than the others. Let the teacher illustrate the rising and falling inflections by a variety of examples, and have the pupils imitate him.* * The toaclier should make himself perfectly familiar with Rules I. and II., page 8, and Eules III. and IV., page 22, of the Second Read- er, together with the abundant illustrations that arc given. He may gradually explain these rules to the pupils in simple language, so that they may begin to apply the inflections to their own compositions, espe- cially in the two kinds of questions. 86 MANUAL OF INFOKMATION 4. Let each pupil rend all the lessons consecutively, be- ing careful to give the inflections and emphasis properly, an4 avoiding the least appearance of monotony or a drawl- ing tone. Oral Composition and Writing. — i. Call upon a pupil to tell something about the Picture No. 1 (the subject) different from the lesson given. Thus, "Three boys are running after the dog and the pig." Teacher, or some older pupil, may print the same on the blackboard. Another pupil may also tell something about it ; and if his imagination should help him a little, his " composition" Avill probably be the better for it. lie examines the j^icture closely, and makes u]) a com- position something like the following : "The pig's mouth is open. Tlie dog holds the pig by the ear, and makes the l^ig squeal." Teacher, or some older pupil, 2;)rints this on the blackboard. Call the attention of the pupils to the pauses used. Tell them when the j^eriod is used, when the comma, etc. ; the apostrophe also, if it should be used. 2. Next take the second picture, and let the pupils form compositions from that as the subject. Encourage them to put some questions into their compositions, like those in the reading lesson. Thus: "Ann is feeding the hens. There are two hens and a rooster. Why does not the rooster eat^ ? What is Ann feeding the hens with^ ? Is it corn' ? She carries the corn in her apron," etc. Encour- age the pupils to notice and tell as many things about Ann, the engravings, etc., as they can. As, for example : "Ann has no bonnet on. She has long curly hair, and a short dress," etc. These may be j^rinted on the board, or set up with the Type Letter-cards, with the j^roper pauses, inflections, interrogations, etc., which should be explained to the pupils. 3. In a similar manner, all the illustrations should be taken up as subjects for compositions. 4. The teacher may also call the attention of jDupils to real objects, in the school-room or elsewhere, and require them to notice them carefully, and make up verbal compo- sitions about them, stating as many things or facts about roil OBJECT LESSONS. 37 thein as tbey can. As soon as tlie pupils have learned to form the script letters, Chart No, IX., they may write out some of these compositions. See directions for script writ- ing, page 50. Spelling. — 1 . A use of the Type Letter-cards, as before directed, in setting up, not only the lessons given on the Chart, but also such compositions as the pupils may form, will furnish a very valuable course of spelling exercises. If they fail in setting up the new words correctly, aid them. 2. The teacher may also have them spell alovid both the ' words on the Cliart, anT^.the new words used. Printing and Drawing. — Let the pupils print (or tcrite, if they have yet learned the script letters. Chart No. IX.) the lessons of this Chart on their slates, and on the black- board, putting in the numhers (figures) for the lessons, and paying particular attention to the capital letters. They should be told v^lien to use the capitals. The pupils may, very likely, undertake to make drawings of some of the il- lustrations given here. They should be allowed to do so, but without much special encouragement yet. It is sup- posed tliat they are now acquiring some facility in making hitters ^ and when they can make these j^i'etty well, they Avill be all the better prepared for picture or ohject drawing. In all their marking, or picture-making, it is important that they should use a long pencil, and hold it as they should hold a pen. Numbers. — In setting up a line with the Type Letter- cards, or in printing it, they may j^ut the figures denoting the number of letters in a line at the end of the line ; also the number in each word under the word. They may next add the figures aloud, and see if they can make their sum equal the number which they obtained in counting the let- ters. The teacher should vary these exercises as the ca- pacities of his pupils require. 88 MANUAL OF INFORMATION CHART No. V. BEADING : FOUETH LESSONS. [The Reading Lessons in the Primer, or First Keader, should be continued in con- nection witli the exei'cises on this Cliart. Also the exercises on Elementary Sounds, Chart No. VII. See page 43.] The reading lessons in this Fourth Series are somewliat more full than tho^e of the preceding Chart, but they in- troduce no new principles. Reading. — Call the attention of the pupils to the subject of Heading Lesson No. 1 . Let them notice, particularly, the illustrations, and then read the lesson. (While the pupils are engaged with any one lesson, it may Le advisable to cover up the lessons below it, so that Uieir attention may be given exclusively to the one lesson.) Oral Composition and Writing.— Let them now form verbal compositions on the subject of No. 1, in the manner directed for the preceding Chart. If they have learned the script letters. Chart No. IX., let them write out some of those compositions. Spelling. — Use the Type Letter-cards to set up this les- son, and also other lessons or compositions on the subject of No. 1. Also spell aloud the Avords. Printing and Drav/ing. — Let the pupils print or write Lesson No. 1, and also others which they may form on the same sul)ject. For Drawing, see directions, page 52-3. Numbers. — The pupils having set up Lesson No. 1 Avitli the type-cards, or printed it, let them count the letters in each line, placing the number at the end. Then let them place under each word the figure denoting the number of letters in it. Next, let them add aloud the figures in this latter row, and see if they can obtain the same number as in counting the letters. This is addition, and 2yrovin(/ it. The teacher should show them how to write down numbers larger than 9. All the foregoing exercises on the subject of Lesson No. 1 may be carried on nearly simultaneously with a large class ; or so many of them as may be necessary to keep the class fully occupied. They may occupy several days. After FOR OBJECT LESSONS. 89 No. 1 has thus been disposed of, carry on, in a similar man- ner, a series of exercises for each of the remaining five sub- jects on this Chart. Pay attention to the inflections, etc., as before directed. Punctuation and Capitals. — It is now time to begin to pay some attention to these ; for as the pupil sees them used, he will naturally wish to know 'why they are used, and when they should be used. Point out the period^ and comma, and interrogation jyoint, on the Chart ; show how they are usually made in books, and explain their uses. Tell them that the comma marks the smallest grammat- ical division in written or printed language, and that Avhere it is found there should usually be a short pause in reading. (We would have omitted the word " grammatical" in the above definition, if we could have made the definition cor- rect without it.) The period, which is placed at the close of a sentence, shows that a full pause, or full stop, should be made there. Point out the interrogation point; tell them that "to in- terrogate," means "to ask a question," etc. ; and that the interrogation point is placed at the end of a sentence which asks a question. The pupils began the use of words without any capital letters. Explain noAV the general rules only for using cap- itals ; such as, the first letter of a word after a j^eriod ; names of persons and places ; the jironoun 7, and the in- terjection 0. CHAET No. VI. EEADING-: FIFTH LESSONS. [The Reading Lessons in the Primer, or First Reader, should be continued in con- nection with the exercises on this Chart. The teacher sliould pay special attention to tlie directions given in the Readers for avoiding a drawlinr/ and monotonous manner of reading, especially with beginners. Continue the exercises on the Eleraentaiy Sounds.] The Reading Lessons in this Fifth and last Series present a still greater variety than those of the fourth Chart. Reading. — Call the attention of the pupils to the subject 40 MANUAL OF INFORMATION of the first Reading Lesson, No. 1. Let them notice, par- ticularly, the ilhistration, and then read, the lesson ; being careful to read in a natural and spirited manner, giving the inflections, etc. All the capital letters are given here ; and those which pupils are not already familiar with, they should now learn. Oral Composition and Writing. — Let the pupils now form verbal compositions on tlie subject of No. 1, in the manner directed for Chart No. IV. If tliey have learned the script letters. Chart No. IX., let them write out some of these compositions. Spelling. — Use the Type Letter-cards to set up this les- son, some of the compositions on the subject, and the cap- ital letters. Also spell aloud the words. Printing and Drawing. — Let the pupils print or write the Lesson No. 1, including the capital letters, and other lessons or compositions which they may form on the same subject. Do not let them fall into the habit of holding their pencil improperly. For Drawing, see directions, p. 52-3. Numbers. — Let the pupils continue the exercises of counting the letters in each line of the lesson, and adding the numbers denoting the letters in the several words in the lesson, as directed for Charts No. IV. and No.V. In a similar manner go through with all the lessons on this Chart; after which, introduce the subject of Numbers again, Avith the following exercises : 1. Count the icords in each lesson, and set down their numbers. Then add these numbers, and tell the number of loorcls in all the lessons. 2. Count the letters in each lesson, and set down their numbers. Then add all these numbers, and tell the num- bei" of letters in all the lessons. These exercises will require some instruction from the teacher in setting down larger numbers than the pupils have previously been accustomed to, and in carrying one for every ten. The first regular exercises in addition are thus introduced, and Avithout any necessity for a separate Chart of Numbers. Moreover, the exercises in figures are FOR OBJECT LESSONS, 41 thus made practiced^ as the figures are here the representa- tives of the numbers of "well-known objects. We would recommend, in the exercises in numbers at this early stage of the pupil's progress, that figures should not be used ab- stractly, but be made to represent, in all cases, certain ob- jects with which the jiupil is already familiar. The teacher may now introduce other exercises in num- bers, adapted to the capacities of his pupils. He may, for example, select such groups of words as " cat, cage;" " cat, quail ;" " cat, yellow ;" " cat, reading," etc. Let the j^upils count the letters of the words in each group, and tell the diflerence in the number between cat and cage^ cat and quail^ etc.; then the difl:erence between the number of viords in one line, and those in another line ; then the dif- ference between the number oi letters in one line, and those in another line ; thence proceed to the Avords and letters in entire lessons ; thence to the words and letters on entire charts, etc. Such exercises will interest jDupils much more than such as require them to deal with abstract numbers only. The idea of the difference between the number of letters in one word, and the number in another word, is first acquired by the pupil ; and then^ when the want is felt, an ex2)ression for this idea is sought. This is the true object method. Punctuation, Capitals, etc. — A more full account of tlie pauses, capitals, etc., may now be given, and their uses illustrated, as far as can be done, from the present Chart. Here are presented the comma, semi- colon, colon, period, interrogation and exclamation points, tlie rising and falling inflections, emphatic tcords, and the hijphen. The following may aid the teacher in ex])laining to the pupils the uses of these marks. For full information on this subject, however, M'e would advise him to read "A Treatise on English Punctuation, by John Wilson." The comma (,) marks the smallest grammatical division in written or printed language, and usually represents a short pause in reading or speaking. The semicolon (;) is used to separate such parts of a sentence as are somewhat less closely connected than those separated by a comma. It is also frequently placed between two or more distinct parts of a sen- tence, when these parts, or any of them, are divisible by commas into smaller jiortions. The colon (:) is used in a sentence between parts less connected than those which are divided by a semicolon, but not so independent as sep- 42 MANUAL OP INFORMATION arate, distinct sentences. Thus : " It is not a cloak, nor a coat : it is a «hawl." The following are good illustrations of the use both of the co- (on and of the semicolon. Avoid ail'ectation ; for it is a contemptible weakness. Avoid affectation : it is a contemptible weakness. The omission of the conjunction for requires us to change the pause from a semicolon to a colon. The period (.), or full point, indicates the end of a complete and in- dependent sentence. It is also to be used after every abbreviated word, as Wm. for William, IMass. for Massachusetts. The interrogation point (?) is placed at the termination of every ques- tion. The exclamation point (!), indicating passion or emotion, is placed after expressions denoting any sudden or strong emotion. The liyphen (-) is used to join the constituent i)arts of certain com- pound and derivative words ; and also to divide words into syllables for the purpose of exhibiting their pronunciation. There are many com- pound words which were originally written with a hyphen, but which are now presented to the eye as one word, as bookselkr, nobleman, etc. CHART No. VII. ELEMENTARY SOUNDS. fit is of considerable importance that the child should be exercised in the elementary sounds of our language; but these exercises should be introduced after the child has learned to call words with considerable facility; and they sliould be continued in con- nection with, and as an adjunct of, his reading lessons, until both his ear and his voice have received the proper degree of training. See page 9, and also pages S5,3S.] Chart No. VII. is designed to represent the principal ele- mentary sounds of our language, and to furnish exercises by which the ear may be trained to distinguish them in spoken language, and the organs of voice to utter them, ■Nvhen combined in words, with the propriety of good usage. Correct enunciation is tlie basis of all good reading ; but this is equally removed from an aifected nicety of articula- tion on the one hand, and a careless and slovenly manner on the other. Both extremes are to be avoided. In the following exercises in articulation, care should be taken to give the elementary sounds, when uttered sepa- rately, just that degree of force and prominence which they have when combined with others in the representa- tive words, when these words are uttered clearly and dis- tinctly in discourse. Elocutionists, in pronouncing the words separately, frequently ^j?-o?o??, ope, whole, son, move, loomen, one. "The letter u has seven different sounds, as fu busy, bury, cut, rule, usage, persuade, pull, unite.'''' II. CONSONAKTS.J The Aspirates, or Whispered Consonants. 1. Let the teacher exercise the pupils in sounding the Asjnrates in the same manner as the first exercise was * Worcester says, ' ' When u is preceded by r in the same syllable, it has the sound of oo in fool.'''' Hence the words rule, rude, brute, true, he pronounces rool, i-ood, broot, troo. Although this pronunciation prevails in some quarters, we do not think it has yet become established by the usage of the majority of good speakers. It is well enough to recognize it, however, as some speakers are very tenacious of it. t Worcester makes a distinction between the u in hurry and the ?« in such words as fur, hurt, further, calling the former the short sound, and the latter the short and obtuse sound of u. We think the difference, if there is any, too slight to require the distinction. X A consonant is a sound made by an emission of breath, while at the same time there is either a complete or partial contact of the vocal or- gans, which obstruct the breath in some degree. None of the conso- FOR OBJECT LESSONS. 47 given nncler the head of the " Long Sounds of the Vow- els." Thus, articulate " cap, p, pink," giving to /> its con- sonant sound only. P. To produce the separate sound of 77, close the lips, and suddenly force them apart with the breath. Or gradually separate the sound of the syllable tip, and finally drop the sound denoted by a. Or attempt to pronounce the word jow/i-, but go no farther than the sound oip. T. To produce the sound denoted by ?, separate the sound of t from eat or tea. Or begin to pronounce tin, and stop with the sound of t. K. Separate the sound of k from ken or oak. Thus, ken, k-en, k — en, k— . Ch. Separate the ch sound from latch. Or begin the pronunciation of chair ., and stop with the ch sound. In this manner the separate aspirate sounds may be easily learned and uttered. 2. Let the teacher now form for his pupils a series of ex- cises on the Aspirates similar to those given for the long sounds of the vowels. Sub-vocals. Let the teacher proceed with the Sub-vocals in the same manner as with the Aspirates. Ccmposition. — Require those pupils who are old enough, to write compositions on the subjects in the foregoing ex- ercises on Chart No. VII. — telling Avhat constitute voicels, some of the different sounds given to each, what are conso- nants can be fully pronounced without the help of a vowel ; but when we pronounce them as independently of a vowel as it is possible to do, we iind that the sound of one portion of them will be that of a whisper, while the sound of the others will be given at the natural jiitch of the voice, and will also contain more of a vocal articulation. Thus . notice the difference in sounding p and b. Closing the lips, and suddenly forcing them apart with the breath, gives the sound of p, and no sound is heard until the actual opening of the lips. But in sound- ing b an undertone or sort of murmur is made by the vocal ligaments before the opening of the lips. This difference has led to a division of the consonants into "Aspirates," or whispered consonants, and "Con- sonants" proper, or " Sub-vocals." Dr. Rush's classification of the elementary sounds is into twelve Tonic (vowel) Sounds, fourteen Sub-tonic (sub-vocal) Sounds, and nine Atonic (aspirate) Sounds. 48 , MANUAL OF INFORMATION Plants, how divided, cliaracter and use of the exercises on this Chart, etc. CHAET No. YIII. PHONIC SPELLING. The system of written phonics, or phonetics, consists in giving only one distinct sign or rej^resentation to each ele- mentary sound in the language. There are said to be about forty-six elementaiy sounds in the English language, and these would consequently require an alphabet of forty- six letters. In such an alj^habet any one letter would al- ways represent the same sound. With our present system of orthography it is impossible to tell, from the written or printed representation of a Avord, how the word should be pronounced, because frequently the same letter has, in different words, very different sounds, and the same soiuid is often represented by a great variety of combinations of letters. Thus the sound oilong a is represented by no less than sixteen different signs. Thus, by a in mating, a-e in mate, ai in ji^cwVi, aigh in straight, ao in gaol, ait in gauging, au-e in gauge, ay in pray, aye in ptrayed, ea in great, ei in veil, eig in reign, eigh in iceigh, eighe in loeighed, cy in they, and eye in con- veyed."^ In a similar manner, long e may be shown to have sev- enteen different signs, long i sixteen, etc. ; so that our lan- guage has not less than three hundred signs to represent about forty-six elementary sounds. On the other hand, to represent sixteen voAvel sounds (as some give them), our language furnishes but five letters (a, e, i, o, u). As a far- ther instance of the anomalies in our language, the com- bination ongh in the following couplet has seven different sounds : " Though the tortah covgh and hiccough plough me throvgh, O'er life's dark lough my com'se I will pursue." It has still another sound in the word bought. How should * See Graham's Hand-book of Phonogra]ihy, jidge 1 1 . FOR OBJECT LESSONS. ,49 we know, therefore, how to pronounce the name of one of England's greatest statesmen, " Brougham ?" Thus it might be Bro-ara, Bruf-fam, Brof-fam, Brup-pam, Brow-am, Broo- am, Brock-am, or Braw-am. Phonic Spelling, or spelling by sound, as represented on Chart No. VIII., consists in uttering separately the sounds (and not the letters), and then combining them in the pro- nunciation of the word. Its chief utility consists in making the ear thoroughly familiar with the elementary sounds of the language, and in producing a distinct and elegant artic- ulation. Chart No. VIII. is, therefore, merely an extended application of the principles illustrated in Chart No. VII. Exercises. — 1. Let the teacher, pointing to the word6a«, pronounce it, and then require the pupils to spell it by sound, and also pronounce it. Continue in this manner through all the vowel sounds represented on the Chart. 2. Under the head of "Combinations of Consonant Sounds," pro- nounce, first, each element separately, and then the whole word. Thus, in the word black, there are four elements represented, ch forming but one. 3. Next, pronounce the consonants in groups, as indicated by their grouping. The teacher may extend such exercises to any length, by writing additional words on the blackboard, for the use of the pupils. Phonetic Analysis. — This is the opposite of phonic spelling, or synthesis, and consists in dividing words into their vocal elements. It directs the attention, especially, to those letters and combinations that have the same sounds and also to slight differences of sound, and is, therefore, a iiseful exercise in cultivating the ear to nice discrimina- tion. Here the student, in making the analysis, can not be guided at all by the common orthography, but by the soicnd only. The teacher may pronounce such words as aid, ail, air, ought, eyed, owed, food, edge, George, John, ri^ht, know, faint, all, claws, meed, caught, sight, condemn, tongue, rowed, etc., and require the pupils to give their spoken elements. Thus, ought has only two sounds ; though only two, etc. The teacher may write such on the board, or give them out by dictation.* * An objection to the system of written phonetics seems to be, that it furnishes uo means of distinguishing between words of different orthog- c 50 MANUAL OF INFORMATION Where pupils have been taught the phonetic alphabet, they may write the words in the phonetic letters. Composition. — Let pupils write compositions on this subject of Phonetics ; telling what it is ; the advantages in favor of having a phonetic alphabet ; the objections that may be urged against it, etc. CHAKT No. IX. WEITING. Only a few specific directions need be given for the use of this Chart. IVritinff has been referred to in connection with the exercises on Charts Nos. IV., V., and VI.; and it is supposed that during these exercises the pupils Avill learn the iise of the script letters. They should begin their use in the following manner : Having learned to recognize the words on Chart No. I., and to print their letters, they should next, in the same manner, learn to recognize them in their script forms, and to make their script letters. Thus, let them begin with the word caj) on the Writing Chart. They need not begin with the elementary straight and curved lines of the let- ters, but may make the entire letters, in which they will necessarily use all these elements. The sixteen words given on the upper part of the Chart contain all the let- ters of the alphabet. The use of the capitals will be grad- ually learned in the same manner as the use of the printed Roman capitals. Pupils may practice writing the sixteen script words on their slates, or on the blackboard, having the Chart before them. They may next wi'ite them, beginning each with a capital letter. Sentences may also be given them to write, having the Chart before them as a guide. One pupil may also set up sentences on the composing-frame with the Type raphy and different meaning, that are pronounced alike. Thus, Wright, rite, right, tvrite, are written alike in phonetics. However, it may be re- plied, we must distinguish between them by the context, just as we are compelled to do when they are spoken. FOR OBJECT LESSONS. 51 Letter-cards, and others may write them on the blackboard, on their slates, or on paper. The teacher should be very particular to have the pupils make the letters as neatly and as accurately as possible, from the very heginning^ and not allow them to form care- less habits of writing.* If they write with either a lead pencil or a slate pencil, they should have it long and sharp- pointed, and should be required to hold it as they would hold a pen. At the proper time pupils may be supplied with loriting-hooTcs. Writing-masters usually direct their pupils to sit with the "left side to the desk." This is a constrained and unnat- ural position, and soon becomes wearisome ; the pupil then seeks relief by inclining his body forward, thereby con- tracting the lungs, and producing weakness of the chest, the forerunner of consumption. Sevei'al physiologists have very justly taken exceptions to such a jjosition, as in viola- tion of well-known physiological rules. The most natural and easy position seems to be at a level and rather high table — the right side to the table, and the paper square with the table. This is the natural position usually taken by lawyers, copyists, etc., who have much writing to do. If an inclined desk be used, we would ad- vise a position with the right side partially to the desk, so that the elbow of the right arm may rest on the desk. In any case, the back should be supported, and the body should be kept erect. CHART No. X. DRAWING. PART I. FIRST LESSONS IN DRAWING. Some teachers begin their lessons in drawing with the formation of straight lines, vertical, horizontal, oblique, and * We have represented the letter lu in two forms : one in the word Old, and the other as seen in the alphabet. We prefer the latter. We have given on the Chart the ' ' Spencerian" form of the letters. If the teacher should prefer any other forms, there is no objection to his using them, if he can make them very neatly. 52 MANUAL OF INFOEMATION angular, and these they follow with exercises in forming curved lines. Chart No. XI. will furnish an abundant vari- ety of such lessons, if teachers think best to follow this sys- tem. Others very justly object to this mode of teaching draw- ing as unnatural and devoid of interest to the pupil, and prefer to begin simultaneously with both kinds of lines, as they are found combined in the outlines of the forms of real objects, as we have represented them in the upper part of Chart 'No. X. It is not often that we are required in draw- ing to make a continuous straight or curved line with one stroke of the pencil, and hence there is little reason for practicing upon such lines. If the picture of a cap like that on Chart No. I. be given 0. child for a drawing lesson, the child, if it has had no pre- vious instruction in drawing, will be very apt to begin with making heavy black marks for the outline, and these marks will be very certain to be wrong. They are then so heavy that they can not be corrected, and the child has to begin a new drawing. This will, perhaps, be equally faul^, and another drawing Avill be begun ; and so on until half a doz- en or more attempts have been made, and the child be- comes discouraged. The child should be taught to begin with making the faintest outline iwssible of some important part of the pic- ture : it shoulu then examine this outline carefully, and, without rubbing out any thing, correct it by a new light tracing. Let it continue thus \\x\t\\ the outlines of the Avhole picture are satisfactory. The correct tracings may then be made a little firmer, like the outlines of the cap as given on this Chart. It will then be easy to fill up with lines of shading, as they are seen in the picture of the same cap on Chart No. I. These pencil lines of shading, howev- er, should be made ')nuch lir/hter than they are in the en- graved and printed picture. Children are inclined to go to the extreme of making a jiicture as black as possible. They should be encouraged to make all their drawings light., even when they are fully shaded ; and they should FOR OBJECT LESSON'S. 53 be shown that the most striking parts of a picture are usu- ally those which are left almost or wholly white. After the pupil has drawn an outline of the cap, as in Chart No. X., and shaded it, as in Chart No. I., he should be required to make a drawing, in the same order, of a real cap. After this introduction of the subject, we would advise that pupils should be required to make drawings from Chart No. XIX. of the forms of leaves, stems, roots, and flowers represented there, being careful to sketch the outlines very lightly at first ; and that after each drawing — if it be of a leaf, for example — a similar real leaf should be placed be- fore them as a coj^y, that they may thus be continually draw- ing from Nature. They may next return to Chart No. X., and copy, in or- der, the outlines of objects there represented. After mak- ing one of these outlines, as directed with reference to that of the cap, and then shading it as shown elsewhere in the completed picture, the object itself, or some other familiar object, and a similar one if possible, should be placed be- fore them to copy. In all cases the picture should be used merely to teach the children hoio to draw similar natural objects.^ The complete picture of the pear, jug, and face will be found on Chart No. I. ; that of the fish in the Fifth Read- er, page 227 ; but that on Chart No. I. may be drawn as well. The completed picture of the cat may be found on Chart No. VI. ; that of the boy reading on Chart No, V. ; domestic folds on Chart No. XVII. ; and the horse, etc., on Chart No. XV. In drawing a picture of the human face, * Drawing, as usually taught in our schools, is little more than copt/- ing pictmes — a very profitless exorcise, except as it does cultivate a taste for pictures or paintings generally ; but it fails in cultivating a taste /or Nature ; and its utility is the very doubtful one of copying a copy, instead of copying the originals. Drawing and painting lessons should have di- rect and constant reference to drawing and painting from Nature ; and if the system we have here so briefly sketched be tenaciously adhei'ed to, the desired results will not be difficult of attainment. 54 MANUAL OF INFORMATION" tlie eye should be first drawn, as, if that should be wrong, all the rest would be spoiled. The teacher will find on the Charts, and throughout the School and Family Readers, a great variety of pictures, from which he may select copies for his pupils ; and he should be careful to select, in the early lessons, such as they are most familiar with, and of which they can find repre- sentatives in real objects in Natixre to copy from. Let them copy from the upper part of Chart No. XX. the parts of flowers as there represented, and then find similar parts to copy from in the natural flowers. Let them copy, from Chart No. XXI. the forms of the roots of Avell-known plants, and let them bring in drawings of similar roots from Nature. Be careful to have them begin each picture by sketching the oidlines very lightly / and do not let them shade any of them too heavily. Accustom them to cojyy much from Nature. Let them make drawings of books, tables, chairs, and desks, and of old fences, the stumps of trees, rocks, etc. They should not attempt hidldings until they have learned something of Perspective. PART II. GEOMETRICAL DRATTING. Children delight to exercise their constructive powers in making things : the girls, in cutting out liatterns and mak- ing dresses ; the boys, in using the hammer and nails, the gimlet, the hatchet, the saw, the plane, the rule and com- passes, in planning and constructing toys and machines, and in making diagrams of geometrical figui'es, What their elders and superiors do, children not only desire to know how to do, but they wash to do it also : labor — work — is with them an instinct of their very being, fraught with health and happiness ; and if, throughout childhood and youth, they could have suitable training, by way of recrea- tion and amusement, in the principles and practice of con- struction", they would not make the hiefficient men and Avomen that we now class among the drones of society. The strong propensity, especially in boys, for using "tools," and " making'''' things, should not, therefore, be checked, but FOR OBJECT LESSONS. 55 judiciously guided and trained as a part of the business of their education. It will thus lead, naturally, and without impediment to any thing else useful, to those attainments in knowledge, and that skill in art, that combine to make the scientific and practical farmer, the master mechanic, or the engineer. Our educators should look more to this hitlierto almost wholly neglected part of education.* Carrying out the above princijjles in part, under the head of Geometrical Drawing, on the Chart, we have intro- duced some interesting and useful problems in lines and forms, for practice in the school-room. While these exer- cises are calculated to train the eye and the hand to accu- racy and neatness in drawing, they will also cult»vate the inventive faculties, and give children the gratification of knowing how easily some appai-ently difiicult things arre done ; such things, also, as Avill be apt to come up for use in many ways in their future studies, and in practical life. It should not be deemed sufticient for children to tell how these figures are drawn. They should drmo them ; and for this purpose they should be provided with a ruler, also with a pair of dividers or brass compasses, to one leg of which a short lead pencil, shaved flat on one side, may be firmly tied, for drawing the circles. We would also further remind the teacher that the pu- pil should not be expected, at this early stage, to proceed to the demonstrations of these problems. After the pupil has solved the first problem, he should be left for a while to his own ingenuity in solving each subsequent one. After he has learned to bisect a given straight line, he has the key to the next three problems ; and if, unaided, he can accomplish their solution, the knowledge thus acquired will be wholly his own, and will be prized accordingly, and the great value of systematic contrivances will begin to be * A[anual Labor ScJiooIs have not been eminently successful in an ed- ucational point of view, because the labor required has not been planned with reference to educating the faculties, but only with reference to ma- terial profits in dollars and cents. Hence the labor has often been, in an educational aspect, an injury rather than a benefit. 56 MANUAL OF INFORMATION appreciated. Let this process of self-instruction be carried out extensively, but not so far as to check the ardor and dampen the curiosity of the jDupil. Moreover, as the pupil progresses from one step to another, let the teacher bring in all the illustrations possible, showing the relationship betAveen these problems and constructive art, and especial- ly in the construction of tools and machines with which the pupil is familiar. Fig. 1. — To bisect a given straight line ; that is, to di- vide it into two equal ^xcrts. Let AB be the given straight line. From the centre A, with a radius* greater than the half of AB, describe two arcs* of a circle, as at C and D ; and from B, with the same radius, describe the two arcs of another similar circle, in^ tersecting the first at C and D. The straight lines con- necting the points of intersection will bisect AB in O. (The line COD will also be perpendicular to the line AB.) Fig. 2i — I^oni a given jioint in a straight li^ie, to draio a perpe)idicular\ to this line. Let EF be the given line, and O the given point in it. In the straight line EF take any point, E, and make OE equal to OF. From E, with a radius greater than EO, de- scribe an arc above O ; and from F, with the same radius, describe another arc intersecting the first at G. Draw GO, and this line will be perpendicular to EF. [Explain what is meant by a perpemlieiilai; and also show that a per- pendiculai' line may be in a horizontal, or in any other position. What lines in the school-room are perpendicular to certain other lines? The explanation of a perpendicular will show that each of the angles EOG and GOF, in Fig. 2, is a right angle. Give pupils a straight line, and ask them to form a right angle at a given point in it^ then two right angles on each side of the line. Describe the form of the wooden level and plummet which masons and carpenters often use for determining Avhether a wall or a beam is level or not. Ask them how they would make this level. Could an iron square, such as carpenters use, be made without knowing how to draw one line perpendicular to another ? How would they make a ivooden square, to answer the purposes of the iron square ?] * Describe what is meant by a radius, and what by an arc. See page 80, and Chart No. XI. t Describe what is meant by perpendicular. See page 80, and Chart No. XI. FOR OBJECT LESSONS. 57 After having drawn Fig. 2, see if the pupil, iinaiclecl, can draw an equilateral triangle.* It is done by describing the arcs which intersect at C, Avith a radius equal to EF, or FE, and then connecting the three points E, C, and F. See, also, if the pupil can describe, on a given line, an isosceles triangle, each of whose equal sides shall be double of the base. Next describe a similar triangle on the other side of the line. Fig. 3. — From a given point without a straight line, to dnno a perpendicular to this line. Let HI be a straight line of unlimited length, and O the given point without it. From O, with a radius greater than the nearest distance to the straight line, describe an arc cutting the line in two points, H and I. Then from the points H and I, as centres, and with radiif greater than the half of IH, describe two arcs cutting each other in the point J. DraAV OK in the exact direction of the point J, and OK will be perpendicular to HI. [HK and IK Avill also, evi- dently, be perpendicular to OK at the point K.] Fig. 4. — To draw a square on a given straight line. Let BA be the given straight line. First, from the point A, draw AG perpendicular to BA, and take AE equal to AB by measuring. Then, from the point E in the line EA, draw EH perpendicular to AE, and make EH equal to AB. Draw HB in a similar manner, and the square will be completed. In order to draw AG perpendicular to BA, extend BA in the direction of D ; take any distance, such as AC, and make AC and AD equal. Then from the centres C and D, with equal radii greater than CA, draw the two arcs in- tersecting at G. Draw a line from G to A, and this line wnll be perpendicular to BA. The point G might have been taken below E. In a similar manner EH is drawn from the point E perpendicular to AE. Fig. 5. — To find the centre of a given circle or arc. Let JKLM be the given circle, or JKL the given arc. * A triangle having three equal sides, t Explain that radii is the plural of radius. 02 58 MANUAL OF INFORMATION Talce any three points in the arc, or any three in the circle, as J, K, L ; join JK and KL ; bisect each by the perpendic- u\av hnes UT and RS, and their point of intersection, O, will be the centre of the given circle or the given arc. JK and KL are bisected by perpendiculars, similar to Fig. 1. Now give the pupils this problem : 7b describe the cir- cttmference of a circle through any three given points. Fig. 6. — To divide a given angle., or ct given arc, into tv:o equal parts. (That is, to bisect them.) Let ACB be the given angle. From the centre C, with any radius, describe an arc AB. Draw the straight line (the chord*) AB. Bisect AB by the perpendicular CE, and the angle ACB will be divided into two equal parts. If AB be the given arc, draw the straight line (or chord) AB, bisect it by the perpendicular EC, and this will bisect the arc. Fig. 7. — To inscribe a circle in a given triangle. Let GHF be the given triangle. Bisect H and F, any two angles of the triangle, by the lines IIN and FM. Their point of intersection at O will be the centime of the required circle. Then from the centre O, with a radius equal to the nearest distance of any one of the sides of the triangle, de- scribe a circle, and its circumference will also touch the other sides of the triangle. Fig. 8. — To describe a circle about a given triangle. Let ABC be the given triangle. Bisect AB and AC, any two of the sides of the triangle, by the perpendiculars GF and HI. Their point of intersection at O will be the centre of the required circle. From this centre, with a ra- dius equal to the distance of any one of the angles of the triangle, describe a circle, and its circumference will also pass through the other angles. Fig. 9. — Five problems. 1. To inscribe a square in a given circle. If you do not know the centre of the circle, find it, as de- scribed under Fig. 5. Through the centre, O, draw the di- ameter KL. Through O draw MN perpendicular to KL. * For the definition of a chord, see page 80, and Chart No. XI. FOR OBJECT LESSONS. 59 Connect the points M, L, N, and K, and the square will be formed. 2. To describe a square about a given circle. Draw, as just described, tAvo diameters of the circle, KL and MN, at right angles to each other. DraAv per- pendiculars at the extremities of these diameters, and the square will be formed. 3. To inscribe a circle in a given square. Take the outer square PRTS, connect the opposite an- gles, and from their point of intersection inscribe a circle with a radius equal to the nearest distance to any one side of the square; or bisect any two adjacent sides of the square by perpendiculars, and their intersection will give the centre of the circle, and the length of the radius for in- scribing the circle. 4. To describe a circle about a given square. Let KMLN be the given square. Connect the angles of the square by the two diameters MN and KL, and from their intersection at O describe a circle with a radius equal to either of the semi-diameters, OM or OL, etc. 5. To inscribe a regular octagon in a circle. In the circle inscribe the square KMLN ; bisect the arc cut off by each of its sides, which will give the points U, V, etc. Connect KU, UN, NV, VL, etc., and a regular octagon will be inscribed in the circle. A continued subdivision of the arcs thus obtained would give figures of 16 sides, 32 sides, 64 sides, etc. Fig. 10. — To inscribe a regular hexagon in a given circle. From the centre of the circle. A, draw the radius AB. Apply the radius AB six times to the circumference, and the hexagon will be formed, as shown in the figure. Now ask the pupils how they would form a regular poly- gon of 1 2 sides. Ask them how they would draw six equilateral triangles in a circle. If they were required to draw one equilateral triangle, having a side of it equal to a given straight line, how would they do it? (Describe a circle whose radius 60 MANUAL OP INFORMATION should be the given straight Hne ; then describe another circle, with the same radius, having its circumference pass through the centre of the first circle, and it will be readily seen how the triangle can be formed.) A knowledge of the construction of the hexagon will enable pupils, after a very little study, to construct the diagram of the Chromatic Scale of Colors, Chart No. XIV. Fig. Ill — To inscribe a regular jientacjon in a given circle. The centre of the circle being found, draw the radius HI, and from the point H draw HL at right angles to it. Bi- sect HL in J; connect JI ; then make JK equal JI. Now apply HK to the circumference of the circle, beginning at L, and it wUl be found to exactly measure the circumfer- ence ten times. Connect the alternate points obtained by this measurement, as shown in the figure, and a regular pentagon will be foi*med. How, then, could a regular decagon be formed ? A reg- ular polygon of 20 sides ? Now suggest to the pupils the following problem : To consti'uct an adjoining 2^6ntagon on each of the Jive sides of the 'pentagon^ Fig. 11, and each equal to Fig. 11. This may be easily done in the following manner : Take a side of the pentagon, say 5 7, and bisect it by a perpen- dicular, such as HK extended outwardly. Then, on this perpendicular as a diameter, describe a circle that shall cut the circle of Fig. 11 in the points 5 and 7. Then 5 7 will be one of the sides of the adjoining pentagon, and the other sides may be easily laid oft' around the circle. In a similar manner construct each of the adjoining five penta- gons. The knowledge of this construction is essential to the forming of the solid called the dodecahedron. See page 62. Let them also exercise their ingenuity upon the follow- ing problem : Describe three equal circles touching one an- other ; and also describe another circle which shall touch them all three. FOR OBJECT LESSONS. 61 Fig. 12. — To describe an ellipse. As an ellipse is a figure that in form approaches a circle on the one hand, and is contracted to almost a straic/ht line on the other, we have drawn three of them. 1. To draw the inner ellipse. Suppose it be required to draw this ellijose on a smooth board. Take any two points, A and D, and into each point drive a pin ; tie a string, AD, to these pins, one end to each pin, and leave the string sufficiently loose to reach to T ; then putting a pencil-point inside the string, and fully stretching out the string, move the pencil-point around against the string, and it will form on the board the inner ellipse. The points A and D are called the /bci of the ellipse. 2. If C be taken as one of the foci, while the other re- mains at A, the same length of string Avill give the form of the second ellipse. 3. If B be taken as one of the foci, while the other re- mains at A, the same length of string will give the form of the outer ellipse. If the two foci should be brought much nearer to each other, with the same length of string, the ellipse would ap- proach closely, in form, to a circle. The farther apart the foci are, the more will the ellipse be contracted in width. How would the pupil draw a large circle in the garden — so large that he could not use a pair of compasses, or di- viders ? He might i;se a narrow strip of board, Avith a peg at each end, driving one of the pegs firmly into the ground, and using the other peg to mark with. Or he might use a rope, with a peg at each end. How would he draw a large ellipse in the garden ? Additional Exercises. To construct the five regular polyhedrons. There are five solids, in each of which the faces are all equal polygons, and the solid angles of which are equal. By knowing how to draw an equilateral triangle, the 62 MANUAL OF INFORMATION square, and the pentagon, as already described, each of these soUds may easily be made of joasteboard. Having drawn the figures as we have given tliem, on pasteboard, and cut tliem out accurately through their boundary lines, cut the other lines half through the paste- board, turn up the parts and glue them together, and the forms of the solids will be obtained. 1. The Tetrahedron, or equilateral pyramid, is a solid bounded by four equal and equilateral triangles. 2. The Hexahedron, or cube, is a solid bounded by six equal squares. ==■_ . "^ m = 3. An Octahedron is a solid bounded by eight similar triangular faces. The triangles may be either isosceles or equilateral. The latter give what is called a regular octa- hedron. 4. A regular Dodecahedron is a solid bounded by twelve equal pentagons. FOR OBJECT LESSONS. 63 5. A regular Icosahedron is a solid bounded by twenty- equilateral triangles. Let the pupil construct, out of pasteboard, a pentagonal prism ; that is, a prism having a pentagon for each end, and equal parallelograms for the five sides. PAKT III. LINEAR PERSPECTIVE.* I. We eai'ly learn by observation that if two similar ob- jects of the same size be placed at unequal distances from us, and in similar positions, the more distant object will appear to the eye the smaller of the tAvo. Thus, if one post six feet high be placed fifty feet from the eye, and another post of the same height bo placed one hundred feet from the eye, the more distant post will appear to the eye — the eye alone being judge — to be much shorter than the near- er post ; and if we make a drawing of them in a picture, we must represent them, as nearly as possible, Jresented by the objects themselves.\ * Perspective is trented of by writers under the two heads, Linear Perspective and A&ial Perspective. The former regards only the posi- tions, magnitudes, and forms of the objects delineated ; the hitter treats of the variations in the degrees of light, color, and shade of objects, as affected by their greater or less distance from the spectator. The soft- ening of objects in the distance, and their boldness of outline and color- ing in the foi'eground, belong, therefore, to aerial perspective. In this article we treat of linear perspective only. t To speak with strict accuracy, however, no picture can produce on 64 MANUAL OF INFORMATION The plane surface, whether it be paper or any other sub- stance, on which we make a drawing, is called the Per- spective Plane ; and it is supposed to be generally placed upright, or in a vertical position, between the eye and the objects represented on it.* A plate of glass, through which Ave should look at the objects, would very appropriately represent the perspective plane. Perspective drawing is highly useful to enable us to give faithful representations of objects wherever photography can not be employed ; and it Avill always be useful to archi- tects and engineers, by enabling them to make correct drawings of intended buildings or machines. II. In order to give puj)ils some clear ideas of linear per- spective, endeavor to impress them with the truth that an object appears smaller the farther it is removed from the eye. Therefore, of two uj^right posts of the same height, the one that is farthest removed from the eye will appear the shortest. Now suppose a pupil stood in a position to see one side and one end of a large building. It could then see the jDOsition and length of three of the corner posts of the building, all of which are of the same height. Suppose the nearer corner post to be fifty feet from the eye, the cor- ner on the left to be eighty feet distant, and the corner on the right to be one hundred feet distant. How would they respectively appear to the eye ? Which would cqjpear to be the longest ? Which the next in length ? Which the shortest ? How, then, must they be represented in an ac- curate drawing ? Now call their attention to two drawings of the same the eye exactly the same effect which the object itself produces, because the former being near, and the latter distant, the adjustment of the eye to distant vision is not the same in both cases. * To speak more accurately, however, it is supposed to be so placed that the line from the eye to the centre of the objects shall be perpendic- ular to the perspective plane. If, therefore, the objects of which we make a drawing are directly above us, so that we look upward at them, the perspective plane will be in a horizontal position. But as most ob- jects of which drawings are made are on the level of the eye, the per- spective plane on which they are drawn must be in a vertical position. FOR OBJECT LESSONS. 65 building on the Chart, Fig. 1 and Fig. 2. In Fig. 2 all lines of equal length in Nature are represented of equal length in the drawing, without regard to the effects i^roduced by difierences of distance. Thus the three corner posts, which are of equal length in the real building, are made of the same length in the drawing. So the more distant rafter on the right is made of the same length as the nearer one, and the ridge of the building is made of the same length as the plate at the eaves. Now call tlieir attention to another drawing of the same building, at Fig. 1, in which lines that are equal in Nature are made imequal in the drawing, being graduated according to the ditferences of distance. Thus the nearer corner post, 1 2, is made longer than the more distant posts, 3 4 and 5 6. Ask them which building ap- pears the most natural. It will probably be found that Na- ture has already taught them to recognize the forms in %vhich she appears to them, and that they wdll give their approval to Fig. 1. Let them look at Fig. 1, and observe that all lines that are parallel in the real building tend toward the same point — that is, that they are not made parallel in the drawing, but converge in sonic one direction. Thus, if the several parallel horizontal lines on the end of the building were ex- tended to the left, they would all meet at the jDoint A ; and if those on the side, and the one on the ridge, and the one at the top of the chimney, etc., "were extended to the right, they would meet at the point B. A and B are called Vanishing Points, because certain lines vanish or term- inate at these points. Ask the pupils if they were standing on the floor of one end of a long gallery, and looking down the length of it, at Avhich end of the gallery would the floor appear the nar- rowest and the gallery the narrowest. If the horizontal and parallel lines on the sides of the floor were to be rep- resented in a drawing, therefore, they must have a vanish- ing point. If the pupils were standing on a rail-road track, how would the parallel rails appear at a distance? The track 66 MANUAL OF INFORMATION would seem to grow narrow in the distance, and should be so represented in a drawing ; and the lines representing the rails should be drawn toward some vanishing point. So in Fig. 8, the numerous j^arallel lines in the marbled floor are seen to converge in the distance — all of them be- ing directed toward the point C. A Vanishing Point, therefore, is that point in space to- ward which any two or more parallel lines seem to con- verge. It is important to remember that alljxaxdlel lines have the same vanisJung point. III. We see objects by the rays of light which come from them in straight lines to the eye.* If we look through a pane of glass at a building in the distance, and then mark on the glass the points through which the rays of light pass in coming from all the corners and angles of the building to the eye, and then connect these points properly by lines, we shall have an accurate outline drawing of the building, just as it appears to the eye at the particular point from which it is viewed. If Ave change the position of the point of view, or point of sigJit, the object will be changed in appearance; so that a drawing of an object from any one point of sight must differ from* a drawing made from any other point. [Place a book, or otlier object, on the table, and let pupils view it from different positions, and tell the chanfjes of appearance caused thereby. Let them view the school building, or some other building, from dif- ferent localities (points of sight), and tell what parts of the building would be shown in the drawings made from different jioints. Suppose they were making a drawing of a landscape which contained a lake. If the lake were above the level of the eye, would they represent the water in the drawing? When, only, could they represent a lake, river, etc., iu a drawing ?3 The Point of Sight, when used with reference to a drawing, or picture, is the point from which the eye is supposed to view the objects represented. If a line be drawn from the point of sight perpendicular to the pei-- spective plane, the point at Avhich this line intersects the * In straight lines, except as they are deflected by the different media through which they pass. FOR OBJECT LESSONS. 67 perspective plane is called the Centre of the Picture. It will also intersect this plane, if the latter be in a vertical jjosition, at the exact height of the eye. A line drawn hori- zontally through the centre of the picture is called the Horizontal Line ; and all lines that are horizontal in na- ture have their vanishing points in this line. IV. We are now ^jrepared, with this preliminary knowl- edge of what is meant by the Perspective Plane, a Van- ishing Point, the Point of Sight, the Centre of the Picture, and the Horizontal Line, to proceed to a prac- tical illustration of all of thera in one drawing. Fig. 3. Suppose the colored parallelogram abdc to rei^resent the ground plan, or base, of a building 25 feet wide and 50 feet long. Suppose the eye, that is looking at the building, to be placed at E, 50 feet from the nearest corner, and on a level with the base of the building. E is therefore the Point of Sight. Suppose a transparent plate of glass to be placed upright, in a vertical position, between the eye and the building, and in the direction of the line AB, and that it is designed to make a drawing of the building on this plate of glass. This plate of glass, then, represents the Perspective Plane. Draw a horizontal line, EB, ])arallel to the side of the building cd ; and another horizontal line, EA, parallel to the end of the building ca. Now it is evident that, in looking from E at acd, the three visible lower corners of the building, these corners will be seen, respectively, on the perspective plane, at the points 5, 4, and 7 ; for these are the points at Avhich the rays of light from the three corners pierce the perspective plane in coming to the eye. If now we draw a line from E perpendicular to the perspective plane, to the point C, this latter point will be the Centre of the Picture ; that is, it will be the point of most direct vision, where objects will be the most distinctly seen in a general view that takes in the whole picture. If we could look through the vertical plate of glass — the perspective plane — and see the top of the corner post which stands at c, we could mark on the glass the appar- 68 MANUAL OF INFORMATION ent height of this post. We will represent this height by the line 4 2. Now draw a line from 2 to B, and another from 2 to A ; the other two visible posts of the building must be found, in the drawing, the one in the line 2B, and the other in the line 2A, as we have represented them at 6 and 3. The three posts will also be represented of their apparent relative height ; the nearest by 2 4, the next in distance by 3 5, and the most distant by 6 7. Now let the pupils tell v.ihy the corner 2 4 must be made higher than either of the other corners 6 Y or 3 5. Remem- ber that E represents the place of the eye ^' and that the nearest corner of the building is supposed to stand at c, and the other tAvo visible corners at d and a. Which of the three is the most distant from the eye ? Why must the line 4 7, which represents one of the sills of the build- ing, and 2 C, which represents one of the plates, and 1 8, which represents the ridge-pole, all tend in the direction of B ? Because they are parallel in the real building ; and all parallel lines have the same vanishing i^oint. But here it may be asked, how do we find the vanishing point of any given line ; that is, how do we know in what direction to draw it '? The imvarying rule is this : Draw a line from the point of sight (the eye) parallel to the given line, and where this drawn line pierces the perspec- tive plane, there will be the vanishing point of the given line. Thus, in Fig. 3, having placed the perspective plane in a vertical position, and in the direction of the line AB, suppose we wish to find the vanishing point of the line ca. From the point of sight E we draw the line EA parallel to ca, and as the line thus drawn pierces the perspective plane at A, therefore A is the vanishing point of the line ca. It must also, necessarily, be the vanishing point of all lines that are parallel to ca. Therefore, not only 4 5 (which rep- resents ca^)., but also 2 3, must tend toward the point A. Upon the same principles B is the vanishing point of cJ, and also of all lines that are parallel to cd. Following out the same rule, N is found to be the vanishing point of the lines represented by 2 1 and 6 8. FOR OBJECT LESSONS. . 69 It will also be seen that the nearer the eye is to the building which is to be drawn, the closer together will be the vanishing points AB, and, consequently, the more ab- ruptly will such lines as 2 3 and 2 6 incline to their vanish- ing points. On the other hand, the farther the eye is re- moved, the farther apart will the vanishing jDoints be re- moved also, and the less suddenly will" the parallel lines converge toward them. Now accustom the pupils to look at various lines in real buildings, and, on the supposition that they are to make drawings of these lines on a transj)arent plane placed up- right between themselves and the objects, let them point out the vanishing 2yoints toward which the several lines would tend. They can do this by jilacing one end of a ruler or straight stick at the eye, and then holding it so that it shall be parallel to the given line. It will then be directed toward a point on the supposed perspective plane which will be the vanishinff point of the given line, if said line is to be represented by a drawing on the perspective plane. Let the pupils notice, also, the different effects pro- duced on the apparent direction of these lines both by near views and also by distant views of the ^ame building. Let them name or point out those lines in buildings which must have the same vanishing point, and tell in which direction they vanish — to the right or to the left. Now it will be apparent, in accordance with the rule, that the lines of the rafters 2 1 and 6 8 in Fig. 3 must have the satne vanishing point. Why do not 2 1 and 6 8 vanish dotonward'mstea.d oiupicard? Because the ridge-pole, 1 8, being farther from the eye than the plate 2 6, appears the shorter ; and this causes 1 8 and 8 6 to seem to converge i;pward. They in reality seem to converge — that is, to come to a point — at N, directly above A. If the roof of the building were steeper than it is, the point N would be higher ; if the roof were flatter — that is, had less pitch — the vanishing point N would be lower ; but, in any event, it would be directly above A. The line 1 3 must tend in the direction of a point just as far below A as N is above 70 MANUAL OF INFORMATION it; and this rule gives us the true position of the line 31. [The pupils should now, with the aid of a ruler, make drawings simi- lar to Fig. 3, first on their slates and on the blackboard, and afterward on paper with a sharp-pointed and hard pencil.. In making the draw- ing, first lay down the ground plan ahdc ; next take the point of sight E; then draw EB parallel to cd, and from E draw EA at right angles to EB and parallel to ca.* Draw next the lines representing the outermost rays of light that come from the object viewed to the eye, and on these two lines take E5 and E7, of equal length ; and the points 5 and 7 will give the proper direction of the horizontal line, on which, in Fig. 3, is supposed to be placed the perspective plane. Complete the drawing ac- cording to the principles and rules already given. Make other draw- ings similar to this, but changing the jioint of sight to the right or to the left, or placing it nearer or farther off, etc. The horizontal line and perspective plane may be supposed to be placed nearer the eye or more distant from it, thereby varying the she of the drawing.] IV. We may now return to Fig. 1, for the purpose of il- lustrating some new i^rinciples. In this case the horizontal line AB (and, consequently, the height of the eye) is above the base of the building. We may obtain the relative proportions of the visible width of the end 9 7 and of the side 9 8 in the same manner that Ave obtained the points 5, 4, and 7 in Fig. 3, by laying down the ground plan, and taking the position of the eye, etc, ; or Ave may draAV the horizontal line AB according to our judgment ; and, judging likcAvise by the eye, Ave may mark off on it the relative positions of the three visible corners of the building, 9, 7, and 8. Suppose the outlines of the building to be completed, as in Fig. 3. We noAv Avish to put in the tcindows, and have them of their relative jjerspective height and Avidth. We Avill suppose, in this case, that the bottom line of the Avin- dows is at the exact height of the eye. The horizontal line Avill therefore be the guide in this direction. For their lieight, Ave mark off on the corner line a space above 7, ac- cording to the true proportion which the height of the Avin- dows bears to the Avhole line 2 1, and draAV a line to B. This gives us the upper line of the windoAvs. To obtain their relative perspective vjidth ai\d positiofis, we draw from the upper corner, 1, a line, IP, parallel to FOR OBJECT LESSONS. 71 Y 8, and in it take any point, P, so that iP shall be greater than 7 8, and so that a line drawn from P througli the cor- ner 5 shall strike the horizontal line at O, any where be- tween 7 and 8. The line iP is now supposed to represent the length of the side of the building ; and it is laid off in divisions representing the real width of the windows and of the spaces betAveen them. Thus, suppose the distance from the corner 1 2 to the nearest window is four feet, and that each window is four feet wide, and that each interven- ing space is also four feet wide. Then iP will be laid off in nine equal divisions, four of them representing the Avin- dows, and five of them the other spaces. From all the points a, b, c, etc., draw lines towai'd O, and from the points Avhere these lines intersect 1 5 draw vertical lines, and these will give the relative Avidths of the Avindows, spaces, etc., as shoAvu in the draAving, [Now accustom pupils to make separate drawings of the side of the building only, and to ])ut in the windows, first according to the plan given in Fig. 1, and afterward with different plans which the teacher may give them. Let some of these plans require tivo rows of windows instead of one ; let some have the intervening spaces twice the width of the windows, etc.] The true perspective height and Avidth of the large door in the end of the building may be obtained according to the method given for draAving the Avindows in the side of the building, by draAving a line from the upj^er corner, 1, to the left, parallel to 7 9, and marking off the proper spaces on tins line, in the same that was done on IP. Or another method may be employed : DraAV the diagonals 1 4, 3 2. Their intersection at s Avill give the true perspectiA^e centre of the end of the building. If the door be in the centre of the end, and if a point be taken any Avhere on 1 4 for one side of the door, the corresponding point on the other side of the door must be in the other diagonal, 3 2, and also in a line drawn through the first assumed point to the vanish- ing point A. It should be noticed here that the point t — the gable point — must always be in the line Avhich is drawp vertically through the centre s. 72 MANUAL OF INFORMATION [Pupils may now be accustomed to make drawings of the ends of buildings of difterent plans ; first with one dooi-, and in the centre ; next with two doors, one on each side of the centre ; next with doors and windows, according to plans which the teacher may give. The teacher should describe these plans, and not make drawings of them for the pupils to imitate. After a sufficient number of these separate draw- ings of the sides and ends, let the pupils combine the whole into draw- ings of complete buildings.] V. In Fig. 4 is shown the ground plan of a square build- ing, with a square projection, or tower, on each corner. The eye of the spectator is supposed to be some distance above the base of the building. The design of the draw- ing is to show how the perspective vndths of the several parts visible from any jioint, such as E, may be obtained, for the i^urpose of using them in a drawing of the whole building. The point of the eye at E being assumed, the direction of the horizontal line, and the position of the van- ishing points, one at A, and the other at the right of D (at some distance out of the i^icture), are then obtained, in the same manner as in Fig. 3. The relative perspective widths of er, rp^ pn^ md, dk, etc., are obtained on the horizontal line, at the points 7 6 5 4 2, etc. It will be observed that only hi, of the line h — , can be seen from the point of sight E, etc. Some little care will be required in drawing the various lines at the bottom of the building, below the eye; such as 9 8, 85, st, etc. Here it will be important to keep in mind the rule, that aW p)arallel lines have the same van- ishing point. Thus, re, ??7>, dm, and /"A, vanish to the right, in the direction of D ; and rp, dk, ih, and fa, have their vanishing point at A, Therefore, while 8 9, which rejsre- sents re, must tend to the vanishing point to the right, 8s, which represents rp, must tend in the direction of A. Fol- lowing the simple rule, it will be easy to make accurate drawings of almost every possible plan of building. [The pupils should now make drawings of buildings having plans sim- ilar to Fig. 4. Let them take the ground plan of Fig. 4, and make a complete drawing of a building of that form, 20 feet high, and suppose the horizontal line to be five feet from the ground. To do this they should obtain the i)erspective widths of the diff'erent parts on a line, like AD, and then make the drawing on another paper.] roil OBJECT LESSONS. 73 VI. Fig. 5 repi-esents a view of three square blocks (not cubes) placed one upon another, and each xipper block less in area than the one below it, the whole surmounted by a pyramidal block, the top, or apex, of which rises to the ex- act height of the eye. Here the eye is suj)posed to have the same extent of view of each of the two visible sides, and therefore DF is made equal to DE. Practice in mak- ing a drawing of Fig. 5 will be worth more to the pupil than directions by us. In placing the second block upon the first, be careful to have the corners placed exactly upon the diagonals of the lower block. In this way each upper block and the pyramid are placed centrally w^on the block below it. [Let the pupils make drawings similar to Fig. ."S, having each succeed- ing block smaller in area than the one on which it rests, and placed cen- trally upon it. Draw a gradually diminishing series, like Fig. 5, extending up to the horizontal line ; then place upon this an inverted similar series, so as to show the under side of the projecting parts of the blocks. Let the teacher suppose the blocks placed in some diiferent positions ; for example, the faces on one side all in the same vertical plane ; and then again, some of the blocks projecting over on one side. There is no end to the variety of plans which the teacher may design. Let the teacher place square blocks of wood (books may answer) on the table, or on the floor, variously arranged upon each other, and require pupils to make drawings of them from different positions. They will need to pay particular attention to the horizontal line, centre of the pic- ture, and vanishing points. Let the pupils ])oint out, with a pointer, and fully explain, not only the diagram, Fig. 5, but also the drawings which they themselves have made.] Figures 6 and 7 are here supposed to form parts of one picture or drawing. The eye is supposed to be interme- diate between them, and, as in Fig. 5, at the height of the horizontal line, and in a line that is perpendicular to the perspective plane at C. In these two drawings, and also in Fig. 5, the eye is sup- posed to be as far from the centre of the picture, C, as the vanishing points A and B are on each side of it. In Fig. 6 and Fig. 7, the blocks are oblong and rectangular ; that is, the sides represented by DE in both figures are greater than those represented by DF ; and the line 3 2 of the D 74 MANUAL OF INFORMATION pyramid represents a side greater in extent than 3l. The side represented by DE is, indeed, nearly one third longer than that represented by DF, although to an unpracticed eye it may not appear any longer. If we had wished to represent the blocks as square in Fig. 6, we should have drawn a diagonal line from F to the vanishing point B; and the point where FB intersected DC would have been the true perspective position for the comer E. To represent the block as square, therefore, the corner E must be removed about half an inch nearer the corner D. Let it be borne in mind, therefore, that Figures 6 and V do not represent square blocks, but oblong rectan- gular blocks. A drawing of a pyramid standing on a square base, and on square blocks, would present hand- somer proportions than the drawings we have given.* It will be noticed that the horizontal lines on one side of the blocks, both in Figures 6 and V, are made horizontal in the drawing. Thus DF, JK, 8 6, etc., in both figures, are drawn horizontally, unlike the corresponding lines in Fig. 5. This is what is called parallel perspective, and is really a slight misrepresentation of the actual appearance of the lines represented; for in reality the lines represented by DF, GR, 8 6, etc., in Fig. 6, have the appearance of con- verging toward a vanishing point on the horizontal line at a considerable distance to the left of A. The correspond- ing lines in Fig. 7 would likcAvise seem to be directed to- ward a vanishing point to the right of B. But when two structures are situated as those represented by Figures 6 and 7 are, with reference to the spectator, those horizontal lines which are parallel to the perspective plane are usually * All horizontal lines which make angles of 45 degrees with the per- spective plane are called diagonals ; and the vanishing points of these diagonals are on the principal horizontal line, at the same distance, one to the right and the other to the left, from the centre of the picture that the point of sight is distant from the centre of the picture. Hence it is easy to find where must be the vanishing points of the diagonals of the horizontal base of a square ; and the intersections of these diagonals with other lines are aids in finding other important points in the draw- ing. FOR OBJECT LESSONS. 75 made horizontal in the drawing, as they are in this case, because they vary but shghtly in appearance from being in a horizontal position, because it is easiest to draw them horizontally, and because our impressions of their being actually in a horizontal position are strong enough to coun- terbalance the very slight error of their variance from a truthful representation. If the Chart be placed in a verti- cal position, and the eye be removed ten feet back from it, the diiference between the distance of GD from the eye and HF from the eye will be so small as to be scarcely appre- ciable ; and hence all such lines as GH and DF (Fig. 7) may be drawn horizontally and parallel to each other — in 2)arallel perspective. Let it be observed that the lines DE, JL, 8 7, 3 2, etc., in both drawings (Figures 6 and 7), have their vanishing point at C, the centre of the picture. Now these lines are in Nature perpendicular to the perspective plane ; and they exemplify the important rule that All horizontal lines that are perpendicular to the perspective p>lane have their vanis/i- ing p)oint at the Centre of the Picture. Therefore, if a per- son were standing at one end of a long room or gallery, and looking down the length of it, all the horizontal lines that run from him (perpendicular to the perspective plane on which W' e may suppose he is to make a drawing of the gallery) would seem to tend to a point on the perspective plane that is just at the height of his eye — that is, the Cen- tre of the Picture. This principle is well illustrated in Fig. 8. Fig. 7 shows by the dotted lines on the upper surface of the upper block, how to obtain the exact position of the apex, Y. The diagonals 7 6 and B 5 must give, at their in- tersection, O, the perspective centre of the upper surface of the upper block. It is evident, therefore, that Y must be directly vertical to O. [1. Let the pupils now make drawinf^s like Figures 6 and 7. 2. Let them make similar drawings, but repi-esenting the blocks as square on the base, and also as complete cubes. Some little study of the diac/onals already referred to in the note on the preceding page may be needed to accomplish this. 76 MANUAL OF INFORMATION 3. Let them make other similar drawings from plans of their own, or from such plans as may be given them by the teacher. 4. Let them also ex/dam all as they would problems in geometry. 5. Place the pupil at the centre of and fronting one end of a table, and place blocks of books on the table, and square with it, on his right and on his left, and let him point out the vanishing point of all the lines representing the edges of the books that are parallel with the sides of the table. Let him also make drawings of these blocks of books.] VI. Fig. 8 represents a view of two rows of square pil- lars or pilasters, five in a row, and standing in two parallel lines that are perpendicular to the j^erspective plane. The pillars are supposed to be at equal distances apart in each row ; and the distance between any two pillai's is supposed to be double the thickness of a pillar. The pillars are supposed to stand on a tesselated marble pavement, formed of rows of alternating square blocks of light and dark marble, and these rows in one direction are parallel with the two rows of pillars. The spectator is supposed to stand centrally in front, so that a line from his eye perpendicular to the perspective plane shall strike the plane at C, the Centre of the Picture. Hence, according to the rule j^reviously given, all lines that are perpendicu- lar to the perspective plane, such as IC, JC, HC, GC, etc., must have their vanishing jjoint at C. The beautiful effect produced by such a drawing will be most apparent by looking through a tube that shall just embrace the entire drawing. A roll of paper, or the hand jjartially closed, will make a very good tube for this purj)ose. The pillars in Fig. 8 are drawn in parallel perspective ; that is, such lines as IK, GL, PJ, RH, are drawn horizon- tally, and parallel with each other. They have no vanish- ing points. The most important thing connected with Fig. 8 is to learn how to draw the pillars at equal jjersjjective distances apart, and so that they shall also diminish in thickness in true perspective ; while the marble blocks are also made to conform to the same laws. All this, however, is very easily done, on the principle of putting in the windows in Fisr. 1. FOR OBJECT LESSONS. 77 Having drawn the corner line of one of the nearest pil- lars, IG, according to your judgment, draw a line DF par- allel with the horizontal line AB. In this line take any point 1, so that a line drawn from 1, through the corner G, shall strike the horizontal line at O, somewhere to the left of IG. Now mark ofi', to the left of 1, spaces that shall represent the true thickness of the pillars, and the spaces between the pillars. Thus, if the pillars be one foot in thickness, and the distances between the jDillars be two feet in thickness, mark off 1 2 for the thickness of the first pil- lar ; make 2 3 double the distance of 1 2, for the space be- tween the first two pillars ; make 3 4 equal to 1 2, for the thickness of the second pillar ; make 4 5 equal to 2 3, for the distance between the second and third pillars ; and so continue for as many pillars as you design to put in. Then draw lines from 1, 2, 3, 4, 5, G, etc., to the point O, and the intersection of these lines with the line GC Avill give the points or positions of the lower corners of the pillars, and, consequently, the distances between the pillars. The same points give the true i^erspective positions of the lines which designate the rows of marble blocks that run across from one line of pillars to the other, Avith the exception of those lines that run from points half way between the pillars. These latter points are obtained by drawing lines from points half way between 2 3, 4 5, etc., to O. Their inter- sections with GC will give the true intermediate points. The pillars on the left are drawn in the same manner as those on the right, beginning with the corner HJ, which is here supposed to be at the same distance to the left of the spectator as GI is to the right. The pillars on the left, however, are easily placed in position, with their proper widths, by drawing horizontal lines from the corners of the pillars on the right. [Pupils should now make drawings similar to Fig. 8. They may also represent uniform pieces of timber — lintels — thrown across from each pillar on the right to its corresponding pillar on the left. This, if neatly done, will be found to give increased efiect to the perspective. They may also take the centre of the picture (C) farther to the right, or farther to the left. They may also draw four rows of pillars, making the pillars 78 MANUAL OF INFORMATION narrower, so that the eye may look between them, and see the outer rows. They may also make the inner rows less in height than the outer rows, so that the outer rows may be seen to rise above the others.] VII. Fig. 9 shows the perspective of the casings of a deep window. The eye is supposed to be in a line perpen- dicular to the vertical plane of the window at C. This drawing gives the relative perspective widths of the cas- ings, and the perspective of the lines 1 4, 2 3, 8 5, and 1 6. Fig. 10 shows the manner of finding the perspective of any vertical divisions on a circular tower. Draw the line 1 8 of the length which you intend for the width of the drawing of the tower. On 1 8 describe a semicircle ; then divide this semicircle in sti'ict accordance with the divi- sions on the visible part of the tower, and from the points of division on the semicircle draw lines vertically down- ward to 1 8. The divisions of 1 8 will give the perspec- tive of the divisions required on the tower. In the foregoing explanations, aided by the illustrations on the Chart, we have set forth, in as plain and practical a manner as possible, all the important principles of Linear Perspective. It requires no special knowledge of any of the higher branches to understand these principles, and to apply them to almost every imaginable kind of structure ; and we think that any intelligent pupil of 12 or 14 years of age can easily master this whole subject. Written Compositions. Although we have given but little more than an outline sketch of the three great departments of Drawing, and have not been able to touch upon the principles and effects of due proportions of light and shade in a picture, yet suf- ficient has been presented to furnish suggestions for a se- ries of compositions upon the general subject. Under the head of the first division may be explained the proper mode of making the outline sketches from pic- tures, and from nature, with descriptions of uncolored enr FOR OBJECT LESSONS. 79 gravings, and of views of objects in nature, natural scenery, etc. The object should be to lead pupils to observe en- gravings carefully — to notice what parts are supposed to be near, and what distant, and how they are represented as to boldness or faintness of outline and shading, and the clisposition of light and shade, etc. Under the second division let pupils refer to objects in nature or in art that correspond, in whole or in part, Avith any of the geometrical figures on the Chart. For example, let them examine the cell of the common honey-bee, and tell its form (hexagonal), and give reasons for its being of that form. Let them show what the principles of " Con- struction" have to do with the planning and manufacture of all kinds of fabrics, tools, instruments, weapons, etc. ; and, more especially, in the erection of dwellings, and buildings of all kinds. Show their connection with Archi- tecture. The more advanced pupils may carry out some of these geometrical problems in their applications to the measurement of lands, and other surfaces, the calculation of distances, etc. Under the third head they may explain the general principles of Perspective, and some of their applications to views of buildings. L^t them take large drawings or en- gravings which represent buildings, and show how the principles of perspective apply to them — telling where the point of sight is supposed to be, where the horizontal line is, and where are the vanishing points of the various lines, etc. In most engravings of buildings they will be able to detect some errors of persi>ective. CHART No. XL LINES AND MEASURES. The directions given in Calkins' "Primary Object Les- sons" for developing ideas of lines, measures, angles, ra- dius, circle, circumference, etc., render it unnecessary for us to take up the subject in its eai-lier lessons. A few def- 80 MANUAL OF INFOKMATION initions only will be necessary here, as guides to the teach- er in his explanations. Vertical Straight Lines are such as point to the centre of the earth. If a plummet or other weight he suspended by a string, the string will be in a vertical position. Name lines that are vertical. Parallel Lines, which may be either straight or curved, are equally distant from each other in all their parts. Are the opposite vertical sides of a building parallel ? Not exactly. Why not? A Perpendicular Line is spoken of only with reference to some oth- er line. Thus a straight line is perpendicular to another straight line when it makes the two adjacent angles equal to one another. Each of these angles is called a right angle (see Chart). But if two straight lines meet each other so as to make but one right angle, each is said, in this case also, to be pei-pendicular to tke other (see Chart). Perpendicular lines may therefore be vertical, horizontal, er oblique. Let pupils, from their own investigation, distinguish be* tween an arc^ a chord, a radius, and a diameter ^ and be- tween a circle and a circximference. (The latter two terms are sometimes used as synonymous.) Concentric Circles are circles that have a common centre. An Ellipse (see page 61, and Chart No. X.) is such a curve that the smn of the distances oi any point in it from the two /bci is equal to a. given line. This is best illustrated by the method of drawing an ellipse as already described. The greater diameter of the ellipse, which passes through the two foci, is called the transverse diameter, or major axis. The lesser diameter, wliich bisects the former perpendicularly, is called the conjugate diameter, or minor axis. Sdeasures. — Children should bo accustomed to judge by the eye of the circumference and diameter of circles. For this purpose, let them draw circles on the blackboard. By using a wooden rule containing inches and its divisions, Avhich every school should be provided with, they will be able to verify their judgment. They can easily measure the diameter of a circle ; but it will not be so easy to meas- ure the circumference. They should know, therefore, that the circumference of any circle is a little more than three times its diameter. Having this rule, tltey can judge very nearly of the circumference after they have measured its diameter.* * The circumference of a circle is 3.1416 times its diameter, or a lit- tle more than three and one tenth times the diameter. Having the di- FOR OBJECT LESSONS. 81 Let pupils be accustomed to estimate the number of square inches in the surfaces of strips of boards, tables, benches, etc. ; also the number of square feet in boards, the tops of tables, the floor, the end or side of the room, etc. Do not give them cases of^;^?'^ of inches or 2K(rts of feet to estimate until they have become perfectly familiar Avith the principle. They should learn, from simple illus- trations, that the number of square inches in a board, etc., is obtained by multiplying the length by the breadth. Degrees of Circles. — Teach pupils that learned men have agreed that every circle, whether it be a large or a small circle, shall be considered as divided into 360 equal parts, which are called degrees. Thus, on the Chart are two circles, the circumference of one inclosing the circum- ference of the other ; but both have the same number of divisions or degrees. A quarter of a circle, therefore, con- tains 90 degrees, and half a circle contains 180 degrees. What kind of an angle do 90 degrees form ? Less than 90 degrees ? More than 90, and less tlian 180 ? Elevation. — Astronomei-s often speak of angles of elevation. Eleva- tion has reference to the angular height of an object above the horizon ; that is, above a horizontal line. Thus, if a star is said to be at an eleva- tion of 45 degrees, it is one half of the distance from the horizon to the zenith. Inclination, in astronomy, has reference to the angle which one line or one plane makes with another, in whatever positions they may be. Thus, in the figure on the Chart ("Inclination"), the first line at the left of the vertical line has an inclination to the vertical line of 15 de- grees ; that is, it is separated from it by an angle of 1 5 degrees ; the sec- ond line has an inclination to it of 23^ degrees ; the third, of 45 degrees, etc. The fourth line has an inclination of 75 degrees to the vertical line, and of 15 degrees to the horizontal line. The inclination of the magnetic needle is measured or denoted by the angle which the needle makes with the horizontal plane. In the north- ern hemisphere generally, the north pole of the needle dips below the horizontal plane, and hence makes an angle with it, which angle denotes the inclination of the needle.* ameter of a circle given, multiply 3.1416 by the diameter, and the prod- uct will be the circumference. * The plane of the earth's equator makes an angle of 23° 28' with the plane of the earth's orbit, usually called the plane of the ecliptic ; hence " the inclination of the plane of the earth's equator to the plane of r> 2 82 MANUAL OF INFORMATION t FIRST PRINCIPLES IN GEOGRAPHY.* First Lesson. Direction of Objects from a given Point. Teacher stands at his desk, or some other suitable place, and asks in what direction the stove (or such other object as he may select) is from him? (North, or, as the case may be.) In what direction is the door ? In what direc- tion do I point with my right hand ? "With my left hand ? In what direction from me is William ? James ? In what direction is Mr. A.'s house ? Mr. B.'s house ? Mr. W.'s house ? etc. In this manner let the points of the compass, from some one stand-point, be thoroughly learned. Second Lesson. Distance and Direction from a given Point. Teacher stands at his desk, or other suitable place, and asks the distances and directions from him of the four cor- ners of the room. The distance and direction of the stove from me ? " It is about eighteen feet southwest from you." Very well : the distance and direction of that window from me ? Of the door ? Of John Brown ? etc., etc. If there is any doubt about the correctness of any of the answers, the pupils should measure the distances. Third Lesson. Distance and Absolute Locality. I Avish you to tell me about hoio far from the teacher's the ecliptic, is 23° 28'." In Webster's large dictionary it is erroneously stated, under the word "inclination," that "the inclination of the axis of the earth to the plane of the ecliptic is 23° 28'." On the contrary, its axis inclines 23° 28' from a line perpendicular to the plane of the eclip- tic, and 66° 32' from the plane of the ecliptic itself. The earth and all the planets move round the earth from west to east, in orbits which are not exactly in the same plane, but inclined to one an- other by small angles. Their inclination is computed by considering the plane of the earth's orbit as a standard, and calculating the angle which the plane of each other planetary orbit makes with the plane of the earth's orbit. * For primary exercises in " developing ideas of place," and establish- ing first principles in geography, see Calkins' Object Lessons, pages 242- 268 ; Dr. Hooker's Primary Geography ; Colton's Geographical Cards. FOR OBJECT LESSONS. 83 desk John Brown is, and in what part of the room. " He is about forty-five feet from the teacher's desk, and in the southwest corner of the room." The same of other boys. In the same manner you may describe the situation of this chair which I place here. "The chair is about sixteen feet south from the teacher's desk, and a little east of the centre of the room." So of other objects in the room — doors, windows, stove, desks, etc. Fourtli Lesson. Distance, and Comparative or Relative Locality. I wish you to tell me hoiofa)\ and in what direction^ the stove is from me. "About twelve feet south from you." (Teacher now changes his position to the other side of the stove, and repeats the question.) "The stove is now about twenty feet north from you." How far is John from Wil- liam, and in what direction ? William from John ? James from Rufus ? Rufus from James ? Thomas from Rufus ? Rufus from me? The door from the stove? etc. Con- tinue in this manner until the pupils are familiar with dis- tances and relative localities in the school-room. Fifth Lesson. Distances, Directions, and Localities, represented by Map-drawing. Teacher says, " John, I wish you to make a drawing on the blackboard, that shall represent \\\q floor of this school- room, with its desks, seats, stoves, etc. We will call the upper part of the board norths the lower souths the right hand east^ and the left hand xoest. You may make the drawing to the scale of one inch to the foot ; that is, you may let one inch in the drawing represent a foot in the school-room." The teacher may now draw the scale him- self (say thirty or forty inches) on the blackboard, and draw the line for the north end of the room, and then leave the pupil to complete the drawing, aiding him by sugges- tions in the way of questions^ if it should be necessary. Open spaces should be left in the outer lines for the doors, and dotted spaces for the windows. If the plan of the 84 MANUAL OF INFOEMATION school-room is at all intricate, the seats or desks should not be drawn in separately at first, but merely the spaces marked olf for their princijial groxqys. Let the pupil meas- ure all the distances, and then adapt them to the scale, after having first guessed them. When the drawing is completed, the pupils should be told that this is a Map of the school-room. Several days will probably be occupied in making it. Subsequent Lessons. After one drawing of the school-room has been made in this manner, in view of the class, or all the pupils, on some other day, while one pupil goes to the board and draws a similar map, unassisted, the others should be draAving maps of the same on their slates, with pencils that they should keep neatly pointed for drawing purposes. Although these first eiforts may be exceedingly rude, yet their very rude- ness will be the exact tneasure of the pupil's capacity, which the teacher needs to understand, as a guide to his instructions. The more rude these first sketches, the more obstacles will the pupils have to overcome ; but it is in overcoming just such natural obstacles that the pupil re- ceives that NATURAL educational discipline which he re- quires. Never place artificial obstacles in his way; but help him as little as possible (except by such suggestions as "will call forth his own powers) in overcoming those which Nature has provided for the purpose of discipline. Ijfc may be a week, or month, or longer ])eriod, before any of the pupils can make a fair map of the school-room, so many things will be done wrong at first ; but when a pu- pil can draw such a map well, he can draw a majs of any thing else with Avhich he is acquainted ; and in the mean time he will have received an amount of self-imposed dis- cipline, whose value can hardly be overestimated. After a time he may be allowed to make his map on paper, v/ith a pencil. After a fair map of the school-room has been provided, on the blackboard, as herein designated, the pupils should FOR OBJECT LESSONS, 85 * from time to time point out and describe the various local- ities, distances, etc., there represented, going over the sub- stance^ generally, of the preceding four lessons. The pupils having become familiarized with this descrip- tive geography, their attention should next be called to the government and exercises of the school-room — to that which corresponds to the politiccd geography of nations. Thus the school is an assemblage of pupils for the purposes of education ; the teacher is its governor or ruler ; the 7\eed of some one to govern, as well as to instruct, should be elicited by questions ; the principles on which he should govern (those of family government) should be called forth in the same manner, together with the rules of right and duty, which pupils are bound to obey. They should also describe the daily routine of exercises in the school-room, the classes, what each class studies, time given to recitation, time of opening and closing school, etc. Thus this micro- cosm, or AVOrld in miniature, may be made the type of that national life which constitutes one of the higher depart- ments of learning. Tell the pupils how many feet make a rod, how many rods make a quarter of a mile, how many quarters of a mile make a half a mile, and how many half miles make a mile. When they understand this, ask them, "How many feet or how many rods long is this building ? How many rods across the yard in which the building is sitiaated, from east to west ? From north to south ? Across the street ?" etc. Let them measure these distances after having guess- ed them. Next name different localities in the neighborhood, such as the store, the hotel, Mr. M.'s house, Mr. B.'s house, a conspicuous tree, rock, or other landmark, etc., and require the pupils to tell their directions from the school-house and supposed distances. The teacher should go out with his pupils and measure some of these distances, which may then serve as a measure for other distances. Thus it may \i%four rods across the street, ten rods to the corner, and 86 MANUAL OF INFOKMATION eighty rods, or a quarter of a mile, to Mr. A.'s house. Hav- ing these distances well fixed in their minds, pupils will soon learn to judge of other distances. Such lessons will not only be a pleasant recreation, but a good mental dis- cipline also, requiring constant exercise of the judgment in comparinf) and measuring. If well arranged and skillfully conducted by the teacher, they may also be made to re- quire the use, unconsciously on the part of the pupils, of the four fundamental rules in arithmetic. Here, for exam- ple, is a distance of 25 rods; another of 15 rods; another equal to both of them : here is a distance of 40 rods, and another is 10 rods less ; here is one of 80 rods, another the half of it, and another still a quarter of it. The extent, in- terest, variety, and intricacy of these exercises must dej^end wholly upon the teacher's invention and judgment. Will they not furnish him also some useful mental discipline, and call forth additional tact in instruction ? Let the teacher lead the pupils on, as in the preceding lessons, to draw on the blackboard and on their slates at first, and afterward, if he think best, on a large sheet of paper, a map of the neighborhood for a mile or two around the school building, laying down the roads, build- ings, streams, woods, fenced fields, etc., and having the up- per part of the map north. Then, with the school building for the point of observation, go through with the principles of all the preceding lessons under this geographical divi- sion. This should be done thoroughly, and may well oc- cupy the class, or the school, fifteen minutes daily for at least a dozen lessons. They will he learning^ in this way, the rudiments of topographical engineering. Next, having completed a map of the neighborhood, with the roads, the buildings, the fields, the groves, the springs, the streams, the hills, the valleys, the woods, etc., place this map before the pupils, and question them, first on the topography, and afterward on the Natural History of the neighborhood — such as what fields are now used for grain, for pasture, for meadow, for summer fallow ; what kinds FOR OBJECT LESSONS. 87 of grain are growing in certain fields ; what flocks or herds are seen in others ; what kinds of trees are found in the woods ; what flowers and grass in the fields ; what nox- ious weeds ; what kinds of soil ; what rocks or stones ; what fishes in the streams ; what birds are known in the country around ; what wild animals ; Avhat the buildings are made of, whether of wood, brick, or stone ; what kinds of wood are used ; and what are the occupations of the in- habitants. Here are very suitable subjects for a series of comjyositions. By this time the pupils will have learned the rudiments of Geography — mathematical, ^^olitical, and physical. If the exercises have been skillfully conducted, they will not have deemed it a study, but a recreation ; and they will be prepared to understand a map of the town, a map of the county, a map of the state, and a map of the United States — which should be taken up and studied in the order here given. A toimi map^ containing the roads, streams, etc., should be found in every school-room; and if the town has a just appreciation of the importance of geographical knowledge, and of the true mode of acquiring it, it will fiu'nish such a map for every school, and deem it an economical exi^endi- ture. The teacher would, it is true, be compelled to sup- ply much of the descriptive matter ; but the pupils would now be able to understand and to appreciate it, from its similarity to what they themselves had furnished respect- ing their own neighborhood. Thus, step by step, would they proceed from the known to the unknown, and from particulars to generals, in the true inductive method, until they had embraced the geography of all the countries of the globe — their knowledge of things being less and less minute, as they diverge farther from the central point of Some. But this is the true order of importance, as it is the order which Nature has marked out for us. Things near are those which first and most concern us ; they first arrest our attention ; they most excite our sympathies ; they are most nearly connected with all our interests ; 88 MANUAL OF INFORMATION they, indeed, almost fill our entire vision — standing up be- fore us conspicuous in all the details of form and coloring ; while the distant, little discerned, little thought of, having but few and feeble connections with us, either dwindles away in dim and shadowy outline, or entirely vanishes in obscurity. How differently from the old system, then, should we teach geography to our children ! We began the study, not at home, and by observing and describing familiar lo- calities around us, but at as distant a point as possible, by being told that there are certain i:>lanets that revolve around the sun ; that the earth is one of these planets ; that it is a round globe or ball, and that it may be circumnavi- gated ; certain great circles and certain smaller circles were then described to us in language mystical, and paral- lels of latitude and longitude, and zones ; and after a long while we got a footing on terra jirma / but, alas ! we never got so near home as our native town, and the scenes of our childhood. In those days we never dreamed that what we knew about the fields, and the woods, and the streams, and the hills, and the valleys around us — all de- lightful knowledge, and to this day teeming with pleasant associations — had any thing to do with that dry and dis- tasteful study which a certain school-book told us is " a description of the earth." Composition. — The teacher will find suitable subjects for a series of written compositions in the foregoing exer- cises, as already suggested. These compositions should be carried on simultaneously with the pupil's progress ; and what he can describe in words, he should be accustomed to put on paper. This matter of beginning early to write compositions upon the subjects talked about and studied, is highly important, and should on no account be neglected. FOR OBJECT LESSONS. 89 CHART No. XII. FOEMS AND SOLIDS. The chief object of this Chart is to lead pupils, ^rs^, to recognize and name the principal mathematical forms and solids, and aftenoard to describe them. Forms and solids of the same size as those represented here have been pre- pared, cut out of wood, and may be obtained either with or without the Charts. It will be found that quite young pupils can learn to recognize these objects as easily as any others, if they can be made to take an interest in them. The lessons on this Chart, generally, should precede the " Geometrical Draw- ings" from Chart No. X. The mathematical descrijjtions should not be required until the pupils are perfectly famil- iar with both the forms shown on the Chart, and the iDooden blocks also. For the first lessons for develoj^ing ideas of Form, see Calkins' Primary Object Lessons, pages 41-93. 1. 1. In the first exercises from this Chart we suggest that one pupil point out the first form (right-angled tri- angle), another select the same from the blocks, a third name it, and a fourth write its name on the blackboard, or set it up with the Letter-cards. 2. Go through with all the other forms and solids in a similar manner. 11. 1. Go through with all in the same manner as before, and, in addition, give a brief description or definition of each figure, and also draw on the board, or require the pu- pils to do it, different/br;ns of the same figure, where they can be made to accord with the definition. Thus the right- angled triangle admits of a great variety of forms ; so of all the figures in the second line, except the isosceles tri- angle. Let the pupils be particialar to point oixt the dif- ferences between figures that somewhat resemble each other. 2. In connection with the foregoing, let the pupils name and describe objects that have forms similar to the blocks. 90 MANUAL OF INFORMATION X Definitions of Forms. See Chart. A Triangle (see second row of figures on the Chart) is a plane* fig- ure, which is bounded by three lines. Such figures are said to be tri- angutar. If the lines are straight, the triangle is rectilinear; if they are curved, it is a curved, or curvilinear triangle, as in the fourth row on the Chart. A triangle may also be partly rectilinear, and partly curvilinear. A Right-angled triangle is a triangle that has one right angle. f A Square is a plane figure that has four equal sides, and four right angles.J A square is a rectan' gular, or right-angled figure. A Pentagon is a plane figure that has^'i-e equal sides, and five equal angles. § A pentag' onal figure. A Hexagon has six equal sid£s, and six equal angles. Ilexag'onal. A Heptagon has seven equal sides, and seven equal angles. Hejy- tag'onal. An Octagon has eight equal sides, and eight equal angles. Octag'- onal. An Isosceles triangle is a triangle which has only two sides equal. An Equilateral triangle is one that has all its sides equal. A Parallelogram is a four-sided figure which has its opposite sides parallel, and consequently equal. In common use this word is applied to figures of more length than breadth. A Trapezium is a four-sided (quadrilateral) figure, none of whose opposite sides are parallel. A Trapezoid is a four-sided figure, having two of the opposite sides parallel. A Rhomb is a four-sided figure whose sides are equal, and the oppo- site sides parallel ; but it has two opposite and equal acute angles, and two opposite equal and obtuse angles. A Rhomboid is a four-sided figure whose opposite sides and angles are equal ; but neither are all its sides nor all its angles equal. Rhom- boid'al. An Oval figure may either be in the shape of an egg, or of an ellipse ; but the term means, literally, egg-shaped. An Ellipse is a figure formed by cutting a cone by a plane that passes obliquely through the opposite sides of the cone. It may also be formed in another manner, as described on page 61. ElUp'tical. * Tell them a plane (not plain} figure is an even, level, or flat surface, whicli has no thickness. They must understand, therefore, that it is only the flat surface of the blocks that constitute the "Forms" named and rep- resented OR the upper part of the Chart. The teacher must not allow pupils to make the mistake of supposing that the whole block is what con- stitutes the triangle, square, pentagon, etc. f See page 56. X All figures of four sides are called quadrilaterals. § All figures that are bounded by three lines, or more, are polygons ; but in common use the term is applied to figures that are bounded by 7nore than four straight lines. FOR OBJECT LESSONS. 91 A Circle is a plane figure inclosed by a single curved line, called its circumference, every part of which is equally distant from a point within, called the centre. In popular language, however, the circumference itself IS often called a circle. Circular. Semicircles are half circles. Semicircular. A Segment of a circle is a part of a circle cut oflfby a straight line. This straight line is called a chord ; and that part of the circumference which is cut off by it is called an arc. An arc is, also, any part of the circumference. A Quadrant is a quarter of a circle. A Sector is the figure included between an arc and the two radii drawn to the extremities of the arc. A Crescent is a figure in the shape of the new moon. A Ring is any thing in the form of the circumference of a circle. E^^ For definitions of other "Forms," see Botany, page 178. Definitions of Solids. A Sphere is a solid body contained imder a single surface, which, in every part, is equally distant from a point called its centre. Spker'ical. A Hemisphere is a half sphere. Hemispherical. A Spheroid is a solid body approaching to a sphere, but not perfectly spherical. It may be either prolate, or oblate. A prolate spheroid is one that is oblong, or prolonged, like the one represented on the Chart ; an oblate spheroid is one that is Jiatteiied on two opposite sides. Thus, the earth is an oblate spheroid, because it is flattened at the poles. A Tetrahedron is a solid bounded by four equal and equilateral tri- angles. See, also, page G2. For the hexahedron, octahedron, dodecahe- dron, and icosahedron, see page 62-3. A Cube is a solid with six equal square sides, and containing equal angles. Cubical. A Prism is a solid whose bases, or ends, are any similar, equal, and parallel plane figures, and whose sides are parallelograms. Two forms of prism are represented on the Chart. Prismat'ical. A Cone is a solid body having a circle for its base, and its top term- inated in a point. Cones may be of two kinds •, a right cone, which has its axis perpendicular to the plane of its base ; and an oblique cone, whose axis is inclined, or leaning. Conical. A Cylinder is a long, circular body, of uniform diameter, its extrem- ities forming equal parallel circles. Cylin'dncal. ^ff' The teacher should exercise the older pupils in the mensuration of surfaces and solids like those represented on the Chart, and in practi- cal applications of the rules. They will much better remember the rules by being familiar with t\iQ forms of the surfaces and solids. Compositions. — " Fovms and solids" may be thought a dry subject for compositions. But every object in Nature, as well as in Art, is comprehended under certain /brms / and every solid will be found under some one or more of the forms on this Chart and Chart No. XI., or combina- 92 MANUAL OF INFORMATION tions of them. Let pupils, therefore, describe objects as to their shape ; telhng by Avhat lines they are bounded, luider what surfaces they are contained, and what solids they form. This will lead them to observe carefully, and to describe accurately. They will also thus learn the ap- propriate use of the descriptive adjective terms — the idea having been first obtained, and then the %oord. CHAET No. XIII. FAMILIAE COLORS. This Chart presents a popular view of thirty -five of the principal colors familiar in painting, dress, and flowers, with the common names by which they are best known ; and its object is to train tJie eye to distinguish between colors, and to recognize them when viewed separately. To aid in this object this Chart is accompanied with a du- plicate set of cards, corresponding in size and color to the representations on tlie Chart. For a somewhat full scientific presentation of the charac- ter, combinations, and efiects of colors, we refer to the ex- planations of the next Chart, No. XIV. It will be sufficient liere to explain to pupils, briefly, only a few of the leading principles of colors. 1. Tell them that there are only thi-ee Peisiart colors — red^ yelloio^ and blue — from which all Others may be formed. Point out these three colors at the top of the Chart, and let the pupils point out, from the squares beloAV, those that match them, and also, select the corresponding colors from the cards. Let them mention, or bring in, objects whose colors correspond with these. They should be kept upon these exercises until they can distinguish readily between pure yellow, red, and blue, and their various tints and shades. (See, also, "Primary Object Lessons," p. 112, 113.) 2. Next point out the Secondary colors, and proceed with them in the same manner as with the primaries. After pupils have learned to distinguish these colors read- ily, show them by what mixtures of the primaries they are FOR OBJECT LESSONS. P3 formed. Thus, pointing to the lower right-hand corner of the Chart, show them that orange is formed by mixing red and yellow ; green by mixing yellow and blue ; ^.n^inirple by mixing blue and red.* 3. Next go through with the three Tektiakies in a sim- ilar manner. After the pupils can distinguish these read- ily, show them by what mixtures of the secondaries they are formed.f 4. Next take the five colors enumerated as belonging to the " Reds ;" let the pupils match them from the cards, se- lecting tioo cards for each color, and naming the colors of the cards as each is produced. Afterward mingle the ten cards indiscriminately, and let the pupils name their colors Avithout looking at the Chart. 5. Proceed with the " Yellows" in the same manner. G. Proceed with the " Blues" in the same manner. 7. Proceed with the " Oranges" in the same manner. 8. Proceed with the " Greens" in the same manner. 9. Proceed with the " Purples" in the same manner. 10. Proceed with the "Browns" in the same manner. For what constitutes leading or standard colors, tints, shades, and hues, see pages 105 and 107. What are de- nominated the shades of colors, on Chart No. XIIL, are not, strictly, shades, although they are popularly considered such, A shade of a color, as described on page 10 , is * Indigo is not, properly, a secondaiy color, but a sub-secondary, as it is one of the shades of piu-ple-blue. See Chromatic Scale, Chart No. •XIV. It is, however, on this Chart, No. XIII., placed among the sec- ondaries, because it was formerly included among the distinct colors of the solar spectrum, and is still, generally, so enumerated. t It Avould now be well if pupils could be supplied with the three pri- maiy colors, that they might learn to form the secondaries and tertiaries by actually mixing the primaries. The proportions will be best learned M'hen they come to the next Chart ; but it is best for them now to experi- ment, without rules. For some excellent observations on the early use of colors, see Herbert Spencer's work on Education, page 141-143. He rec- ommends the use of cheap wood-cuts to be colored by the pupils. He says, "No matter how daubed and glaring the colors. The question is not whether the child is producing good drawings ; the question is, whether it is developing its faculties." 94: MANUAL OF INFOKMATION formed by mixing that color with black ; but, popularly oonsidered, when a small portion of some dark color is mixed with a lighter color, so as to give to the lighter color a darker shade, although it may change its hue, the color thus produced is often spoken of as a shade of the given color. Thus, in the column of " Reds" on the Chart, a deep crimso7i (which is formed by mixing a very little blue with pure deep red) is sometimes called a crimson shade of red. It is, however, a misapplication of terms : the color is, properly, a dark shade of crimson. After the pupil has acquired some familiarity with the Chromatic Scale, Chart No. XIV., he should return to the " Familiar Colors" of Chart No. XIII., and assign to each its proper place in the more scientific arrangement of the scale. Thus : Crimson is one of the Purple-Reds. It has many tints, hues, and sliades. Carmine: A pure Red. It has many tints and shades.* Scarlet: One of the Orange-Reds ; ofmany tints, hues, and shades. Vermilion : One of the Orange-Reds — approaching orange. Pink: A tint of pure Red. Many varieties. Citrine: A tertiary color, intermediate between orange and green. Yellow: A pure Yello-wr. Chrome Yellow: of many tints and shades. Lemon : One of the Greenish- Yellcws. Yellow slightly tinged with green. Canary : One of the Greenish-Yellcws — so little green as to be but just perceptible. ^Straw : One of the tints of pure Yellcw. Many varieties. ''Indiijo : One of the deep shades of Purple-Blue. Mazarine Blue is another of these shades, but contains more red. Ultramarine : The purest Blue. A primary color : many tints and shades. Prussian Blue : One of the Greenish-Bluea. A deep blue, slight- ly tinged with green. Light Blue : A tint of pure Blue. Sky-Blm: A still lighter tint of pure Blue. Amber : A transparent Dark Orange, or a deep shade of Orange- Yellow. Orange : A secondary color, of many tints, hues, and shades. Salmon : A tint of Orange-Red. Buff": One of the Orange-Yellows. Many varieties. Cream : A light tint of Orange-Yellow. * The pure or primary colors have not, of course, any hues. See p. 107. FOR OBJECT LESSONS. 95 ' Olive : A tertiary color, in which blue preponderates. What aro called Olive- Greens are shades of Greenish-Blue, such as may be produced by mixtures of violet and green. Many tints, hues, and shades. Green: A secondary coloi-, of many tints, hues, and shades.* Emerald-Green : A greenish tint of Greenish-Blue ; that is, a light green slightly tinged with blue. Pea- Green: A greenish tint of Greenish-Yellow ; that is, a light green tinged with yellow. ^Light Green : One of the tints of pure Green. Royal Purple: One of the rich shades of Purple — best represented by a very deep purple silk. Purple: A secondary color, of many tints, hues, and shades. Violet: One of the deeper tints of Purple-Blue, often approaching £<<; pure purple. Many varieties. £ Lilac: A lighter tint of Purple, often inclining to a Purple-Blue. Many varieties. Lavender : A still lighter tint of Purple-Blue — lighter than violet, and often inclining to a pure purple tint. The Browns. These are not represented on the Chromat- ic Scale, with the exception of russet. For descriptions of the browns, maroons, and grays, see page 101. Having a knowledge of the Chromatic Scale, the pupil should now be able to assign any given color to its proper place among the definite Colors of the scale. Sometimes the color may be a shade, or it may be a tint of one of the definite colors. Thus, among the numerous orange-reds in cloths, Avorsted, etc., may be found light scarlets^ which are tints of orange-red, at one extreme, and shades of auhurji., which are brownish shades of orange-red, at the other ex- treme. A color may also be on the boundary line between two definite colors. Thus some of the orange hues aj^- proach the scarlets, and some of the scarlets approach or- ange ; for the varieties of tints, hues, and shades are al- most innumerable, and fanciful names of colors are con- stantly springing up, as new fabrics of new combinations of colors are presented to the public. All popular names * The "Dark Green" of the Chromatic Scale should have been made darker on some of the Charts by a mixture of red, as its combination is 3 parts of yellow, 3 parts of blue, and 2 parts of rod. For a similar rea- son, the "Dark Orange" should be darkened by blue; and the "Dark Purple" should be browned by yellow. 96 MANUAL OF INFORMATION of colors should be referred to and judged by the stand- ards that are represented by the definite combinations of the Chromatic Scale. From the very nature of things, there can be no other standards. Compositions. — Let pupils write compositions upon these " Familiar Colors," describing them; naming the primaries, secondai'ies, and tertiaries, and telling how the secondaries and tertiaries are formed ; and, more especially, describing the colors of natural objects which are presented to them, or with which they are familiar. CHAET No. XIV. CHROMATIC SCALE OF COLORS. The following article, in connection with the Chart, is designed to give as complete a view as our limits will al- low of the principles of Coloes, their combinations and proportions, tints, shades, and hues, and their varied har- monic or discordant effects ui^on each other when placed in juxtaposition. If we are not mistaken, it will be found that children can easily learn both the facts and the prin- cijjles here presented, and that, in addition to the new and Avonderful things in the beauties and in the philosophy of Nature which this subject Avill unfold to them, it will be found admirably adapted to the cultivation not only of the observing^ but of the reflective faculties also. It is designed that the teacher shall exj)lain to the pupils the i:)rinciples here presented, after which the puj^ils should make the applications by constructing the tables, answer- ing the questions, and going through the exercises, and also in carrying out still farther the principles' of colors. A great amount of information is contained in the present synopsis, as illustrated by the Scale, and the subject may well serve for short semi-weekly exercises during a couple of years. For written Compositions on colors, see the close of this article. FOR OBJECT LESSONS. 97 I. GENERAL PRINCIPLES OF LIGHT, DARKNESS, AND COLOR. A ray of solar liglit, in itself white, may he separated, by passing it through a prism, into an indeterminate number of variously-colored rays, which are distributed into seven groups, termed red, orange, yellow, green, blue, indigo, and violet (or purple) rays. These colored rays, thus obtained, constitute what are called the solar spectrum. Yet all the rays comprised in the same group are not identical in color, but may be considered as differing more or less among themselves.* When an object reflects all the solar rays to the eye, the object presents the ai)pearance we call v:hite. When it reflects none of them, it appears black. AYhen what we call a colored object is seen, it reflects a certain portion of the solar rays to the eye, and absorbs the others. Thus, if the object reflects the red rays, it apj)ears red ; if it re- flects the yellow rays, it aj)pears yelloio, etc.f It is evident that the absorbed colored rays are of a dif- ferent color from the reflected colored rays ; and also that if the two kinds were reunited, they would neutralize each other, and white light would be reproduced. It is this property of two variously-colored lights, taken in certain proportions to reproduce white light, that we express by * This is the Newtonian theory of light. A theory has lately been brought forward in England, that light is simple and uncompounded — homogeneous in nature ; and that as it comes to the eye, from difterent objects, in modified quantities, it impresses the sense of vision with relative forces that convey to the brain the conceptions of color. See London Review, Dec. 28, 18G1. This theory, however, does not affect the prin- ciples illustrated in this article. t But notwithstanding the general principle here stated, even the blackest object reflects some white liglit. Every colored object, red for instance, also reflects a small portion of all other colored rays besides red ; yet, as the red rays are greatly predominant, we call the object red. This principle has been fidly established by the experiments of Sir Da- vid Brewster. It will be important to bear this principle in mind when we come to consider the effect that colors in juxtaposition have upon each other. „ E 98 MANUAL OF INFORMATION the words, colored lights complementary to each other^ or complementary colors. Exercises. — Why does au object appear red? (Be- cause it reflects the red rays to the eye, and absorbs the others.) Why does an object appear yellow ? Why blue ? Why orange ? Why green ? Why purple ? etc. II. THE COMBINATIONS OF COLORS, AS SHOWN BY THE CHROMATIC SCALE. UKCOLOEKD MINIATUEE COPY OF THE CHBOMATIO SCALE.* * The large colored Chromatic Scale shown on the Chart is mostly a combination of the scales of the English writer Field and the French writer Chevreul, embracing all the principles of both, together with what we believe to be some important improvements in modes of illustration. As additions to the Chromatic Scale of Field, it represents the normal FOR OBJECT LESSONS. 99 Although a solar ray — that is, white light — may be di- vided into six or seven diflerently-colored groujDs, yet only three of these groups, Yellow, Ked, and Blue, are what are called Pkimaky Coloks. The remaining three or four are really made up of combinations of the three Primaries. It has been found that if we take the three Primaries, of equal degrees of intensity, or, in other words, the deepest and purest red, yellow, and blue, as seen in the solar spec- trum, and combine them in the proportions of 3 parts of yellow, 5 parts of red, and 8 parts of blue, they produce toMte light. And yet if they are combined in such j^ro- portions that two of them considerably predominate, a grayish hue, approaching black, will be produced. The union of the solar rays in such proportions as to produce Avhite gives us the principles of the Chromatic Scale for all the regular combinations of colors. In the or standard ton(^s, fully illustrates the principles of the tints, sJiades, and hues of colors, and assigns Iheir appropriate positions to the semi-neutral liroivns, maroons, and grays. Some explanation is required as to the colors represented on the Chromatic Scale, and also on all the Charts. Some may be disappoint- ed in not finding them as pure and brilliant as they have before seen them, and especially in silks. In the first place, paper made of cotton does not take color so well as silk. In the second place, as paper is bleached white by the use of lime, it still contains some lime, which, as painters say, "kills" the colors. The lime injures some colors more than otliers. In the third place, all colors fade more or less by exposure to the light. In the fourth place, where colors are grouped as they are on the Chromatic Scale, those that are in juxtaposition diminish the brilliancy of each other, as will be learned from the principles explained in this article. If you wish to see what any one of these colors is by it- self, cover up all the others, and look at that one alone when the eye is in its normal state. All these things are diflSculties which we have to contend with, and for which due allowance should be made. The col- ors on the Chart, however, with which very great pains have been taken, are sufficiently brilliant for all practical purposes. The Primaries — red, yellow, and blue — are as good as could be obtained ; and so long as the others are made by the proper mixtures, tliey must present the true com- parative hues and shades of all the other colors. The colors on Chart No. XIII. are brighter than on Chart No. XIV., as in the former the paper was colored in sheets, and then cut up and pasted on. 100 MANUAL OP INFORMATION centre of this scale is a dark circle, wbicli may either de- note an object that absorbs all the solar rays, and hence ajjpears black, or it may denote the mixture of the rays in certain proportions different from those that constitute white. Grouped around this centre are six large circles, three of which, designated as Yellow, Red, and Blue, represent the three Primaries, while their figures, 3, 5, and 8, denote the proportions in which they combine to j)ro- duce white. But yellow and red combine in their respect- ive proportions, 3 and 5, to produce Okange ; yellow and blue in their respective proportions, 3 and 8, to produce Gkeen ; blue and red in their respective proportions, 8 and 5, to produce Purple — as shown in the circles lying be- tween the three couplets of the Primaries. This gives us what are called the Secondary Colors, Orange, Greezst, and Purple, and likewise shows their combining propor- tions : that orange is made of 8 parts of colored light (3 of yellow and 5 of red) ; green of II parts (3 of yellow and 8 of blue) ; and purple of 13 parts (8 of blue and 5 of red).* Indigo^ which Avas formerly included among the secondary colors, is merely a deep purple-blue. If noAV we take the Secondary colors, and combine them two by two, we shall form the Tertiary ColorS, Russet, Ci:prine, and Olive, and have their combining proportions, * Some writers say that equal proportions of red and yellow produce orange, equal proportions of yellow and blue produce green, etc. This may be true if the colors be of the right tone to produce such effects. Instead of taking 5 parts red and 3 parts yellow to produce orange, it is evident that we may take 5 parts of each, if we diminish the tone of the yellow, or increase that of the red. It all depends upon what tones of the several colors we take for the standard or normal colors ; but as it is impossible to find any pure jxigments or paints of these three colors, or even to be certain that we can always have them alike, it is better to take a standard that never varies, and such we have in the colors seen in the solar spectrum. The red, yellow, and blue of the solar spectrum are therefore very properly taken as the normal or standard tones of those three colors. They are thus given in Field's Chromatography. In the very able and more recent Vvork of the French writer, Chevreul, this mat- ter is most strangely overlooked. We find there, indeed, no standard for any color. FOR OBJECT LESSOKS. 101 which are found by adding the numbers of the Secondaries which form each respectively. Thus orange 8 and purple 13 form russet 21 ; orange 8 and green 11 form citrine 19 ; green 11 and purple 13 form olive 24. Moreover, if we unite each Secondary with each of its adjoining Primaries, we shall form a fourth class, of six colors — Orange -Red, Orange -Yellow, Greenish -Yellow, Greenish-Blue, Pui-ple-Blue, and Purple-Red — which may be called Sul)-SeCOndarieS. Their combining j^roportions, given on the Chart, follow the same rule as before given. By combining the Tertiaries, two by two, we form a fifth class, of three colors — Dark Orange, Dark Green, and Dark Purple — which may be called Sub-TertiarieS. Thias far all the colors are composed of the three Prima- ries, and their regular combinations in definite in'ox^ortions. Of these, the lighter or purer colors are, first, the Prima- ries, and next the Secondaries, which are arranged in the larger circles and around the outer portions of the Scale. Next, in point of purity, are the Suh- Secondaries^ which are of a darker hue than either of the former classes. Then come the Tertiaries and Suh-Tertiaries, which have their appropriate grouping nearer the black centre of the Scale, and which are of a much darker and less pure hue than the Secondaries and Sub-Secondaries. But there is a still darker class of irregular or broken colors, formed by no very definite mixtures of the darker colors among those already mentioned. These latter, usu- ally called Semi-neutkal colors, embi'ace the three groups of the Broums^ the Maroons or Chocolates, and the Grays. 1. The Browns are those very dark shades, or combina- tions, in which yellow, orange, or citrine predominates. There are yellow, orange, red, and purple browns, but no blue browns. The browns are mostly of warm or tawny hues. 2. The Maroons or Chocolates are those dark shades, or combinations, in which red, purple, or russet predominates. They are intermediate between the warm browns, and the cold grays. The maroons proper incline to the dark pur- 102 MANUAL OF INFORMATION pies, and the chocolates to the dark orange, approaching the browns. 3. The Grays are those dark sliades, or combinations, in which blue, green, or olive predominates. Hot and Cold Colors. As hlue possesses, in the greatest degree, the quality technically called coldness in coloring, and as it commimi- cates this property variously to all colors with which it is compounded, the Chromatic Scale shows blue as the cold- est color, whence the coldness gradually diminishes until the medium between the cold and the hot colors is at- tained at purple-yellow and yellowish-green. From these two points the warm colors increase gradually until they attain their maximum of heat at orange^ the complement- ary of the cold blue. Let the jiupil now tell, from the Chromatic Scale, the relations, as to heat and cold, which the colors sustain to each other. Retiring and Advancing Colors. Purple is the most retiring color, as sliown on the Chro- matic Scale (see Chart) ; that is, it declines in power the most rapidly in proportion to the distance at Avhich it is viewed, and also in a declining light. Its complementary yellow^ on the contrary, is the most advancing of all colors, partaking most of the nature of white, and consequently of greatest loower in reflecting light. As to the beauty of colors individually ; that is, when viewed alone, it may be stated, that those colors which are nearest in nature to light, have their greatest beauty in their lighter tints ; and that those which are nearest in na- ture to shade, are most beautiful in their greatest depth or fullness — a law which of course applies to black and vhite particularly. Thus, the most beautiful yelloio, the color most like white, is that which is lightest and most vivid ; hlite, the color most like black, is most beautiful when deep FOR OBJECT LESSONS. 103 and rich ; and red., when of intermediate depth, or some- what incUued to light. III. TABLE OF COLOES ; THEIR COMBINATIONS, PEOPORTIONS, AND COMPLEMENTARIES. See the Chromatic Scale. Colors. Their ComMnations and Proportions. Their Com2)lementaries. _ . fYellowS Purple 13. Fnma- J Red 5 Green 11. riCS. ( Blue S Orange 8. _, , ( Orange 8 = (Red 5, Yellow 3) Blue 8. accpnd- J Qreea 11 = (Yellow 3, Blue 8) Red 5. ariCS. (i^urple 13 = (Red 5, Blue 8) Yellow 3. Ter- f <^^'i"'°'' ^^ = ^O''- '^'^'^ ^''- = ^^^ ^' ^^""^ ^' ^'"'^ ^' • • 1 ^'S!rpilf Is."* ^^^^ tiaries J Olive 24 = (Gr. and Purp. = Yel. 3, Red 5, Blue 16) . Or. 8, or Dark Or. 40. (Russet 21 = (Or. and Purp. — Red 10, Yel. 3, Blue 8) Gr.ll, or Dark Gr.43. / Orange-Red 13 = (Or. 8, Red 5 = Red 10, Yel. 3) Greenish-Blue 19. e; , V Orange- Yel. 11 = (Or. 8, Yel. 3 = Red 5, Yel. 6) Purple-Blue 21. e 'a ) Greenish- Yel. 14 =:(Gr. 11, Yel. 3 = Yel. 6, Blue S) . . Purple-Red 18. SCCpna- \ Greenish-Bl. 19 = (Gr. 11, Blue 8 = Yel. 3, Blue 16) .Orange-Red 13. ariCS. I iJ„jple-Bl. 21 = (Purp. 13, Blue 8 = Blue 16, Red 5) . Orange- Yellow 11. (^Purple-Red 18= (Purp. 13, Red 5 = Blue 8, Red 10) .Greeni.?h- Yellow 14. Sub- (DarkOr.40 = (Rus.21,Cit.l9 = Redl5,Yel.9, B1.16). Olive 24. Tertia- < Dark Gr.43 = (Cit.19, OL 24 = Red 10, Yel. 9, Bl. 24). Rus.?et 21. arics. (Dark Purp.45=(Rus.21,01.24=Red 15, Yel.6,B1.24) Citrine. I, Exercises from the Scale, on the Primaries, Second- aries, and Tertiaries.* 1. Name the three Primary colors, and their respective combining minibers. 2. The combinations of the Primaries, two by two, foi'm the three Secondary colors, lying between the three couplets that may be formed of the Primaries. How is orange formed? By the combination of yellow and red. In- what proportions? Three parts of yellow, and 5 of red. What, then, is the combining number of orange? Eight. Why? Because 3 parts of yellow and 5 parts of red make the eight parts which constitute orange. * All the exercises under this head, and, indeed, all pertaining to Chart No. XIV., should be gone through with by the pupils, by the aid of the Chromatic Scale alone. What we have written out under the head of " Exercises" on the Chromatic Scale, is designed merely as a guide and aid to the teacher. He should make himself thoroughly master of the principles, and then lead the pupil to master the same from the Scale, as from a map. As soon as the pupil has learned the positions of the colors on the Scale, so that he can recall them without the aid of the Chart to look at, he will be able to name the several colors, and de- scribe their combinations, with the same facility that he is able to bound countries by remembering their relative positions on a map. 104 MANUAL OF INFOEMATION 3. Go through with the composhion of green, in a similar manner. 4. Go through with purple in tlie same manner. 5. The combinations of the Secondaries, two by two, form the three Tertiary colors, citrine, russet, and olive, which are found, on the Scale, at the intersections of the three couplets of the Secondaries. How is russet formed? By the combination of orange and purple. In what proportions ? Eight parts of orange, and 13 of purple. What, then, is the combining number of russet? Twentij-one. Why? Because 8 parts of orange and 13 of purple make the 21 parts which constitute russet. How many Primary colors enter into the composition of russet ? The whole three, red, yellow, and blue. In what proportions? Ked 10, yel- low 3, and blue 8. Explain the reason of this. Russet is formed by the combination of the two Secondaries, orange and purple ; but orange is composed of 5 pai-ts of red and 3 of yellow ; and purple of 5 parts of red and 8 of blue ; therefore, red is taken twice, and yellow and blue each once; and thus we have 10 of red, 3 of yellow, and 8 of blue. G. Next go through with citrine and olive in the same way. 7. A class of six colors, called SnbSecondaries, and lying between the Secondaries and rrimarics on the Scale, is formed by comljining each Secondary with each of its allied Primaries, in the proportions desig- nated by their respective numbers. Thus, red and yellow are united to produce orange, after which the orange itself may be combined with red to form orange-red.* This latter color thus has 10 parts of red and 3 parts of yellow — a proportion of rcc? just twice what is contained in or- ange. In a similar manner orange-yellow is formed, containing just twice the yelloio contained in orange. II. Exercises from the Scale, on the Suh-Secondaries and Sub-Tertiaries. Explain, from the Scale, the formation of orange-red, and show why 13 is its combining number. Orange-red is formed by combining 8 parts of orange with 5 parts of red. But orange itself is formed of 3 parts of yellow and 5 parts of red. Therefore, substituting, in the place of the oi-ange, the yellow and red Primaries which compose it, we find that all the colors and proportions which make up the orange-red are 10 parts of red and 3 jiarts of yellow, making 13 parts in all. i^xplain the formation of orange-yellow, in a similar manner. Of greenisli-yellow. Of greenish-blue. Of purple-blue. Of purple-red. When we combine the Tertiaries, two by two, we form the class of Sub-Tertiaries, consisting of dark orange, dark green, and dark purple. It will now be easy to tell how each of these is formed, and in what pro- portions each of the Primaries enters into the combination. For ex- ample : dark orange is composed of its two adjoining Tertiaries, russet and citrine — 21 parts of russet, and li) of citrine. But, as has been be- fore shown, Russet =red 10, yellow 3, blue 8, and .^ Citrine =red 5, yellow G, blue 8. Therefore, adding together the two. Dark orange=red 15, yellow 9, blue 16 ; the whole making 40. * These orange-reds are familiarly termed Scarlets, as the orange- yellows are termed Buffs. FOR OBJECT LESSONS. 105 The pupil, being familiar with this step, should next explain, in a sim- ilar manner, the formation of dark green and dark purple. It will be seen, from the Scale, that each Primary color enters into all the colors embraced within its own circle and the circles on each side of it ; and that, also, crossing the centre of the Scale, it enters into the Tertiary or Sub-Tertiary directly opposite. Thus, yellow enters into all the colors of the Scale except blue, purple-blue, pm-jjle, purple-red, and red, and some of the grays and some of the maroons. Crossing the centre of the Scale, it enters into dark purple. Into what colors does red enter? Into what colors does blue enter ? rv. TONES : EMBRACING TINTS AND SHADES OP COLOKS. Whatever we take as the standard of intensity or purity for any color, it is evident that the particular color assumed as the standard may receive numerous modifications by mixing with white (or diluting with water) until the light- er tiJits thus formed shall fade away and be lost in white- ness itself. Thus, suj^pose carmine, of a certain degree of depth or intensity, to be the standard color for pure red, and that 6 grains of this carmine cover a square inch of surface, so as to give to this surface the true standard color. Next take 5 grains of carmine, and mix with 1 grain of pure white, to cover the same extent of surface, and this Avill give a ti7it of pure red. Next mix 4 grains of carmine and 2 of white, to cover the same extent of sur- face, and we shall have another tmt of red. Three grains of carmine and 3 of white will give still another tint ; 2 of carmine and 4 of white a still fainter tint; 1 of carmine and 5 of white a tint of red which is barely perceptible. "We have supposed the standard of pure red to be placed, on the Chromatic Scale, at the centre of the red circle, and on the radius extending outward have marked off the grad- ually diminishing tints — the figures 5, 4, 3, 2, 1, denoting the gradually diminishing proportions of pure red. For greater distinctness, however, we have represented only the standard red, and two of its tints, on the Chart. In the same manner we may suppose that the yellow, the blue, the orange, the green, etc., have their normal or ruling tones, or standards, at the centres of their respective circles, and that from these points each is gradually tinted E 2 106 MANUAL OF INFORMATION off to the circumference, where its colors fade away in tints scarcely perceptible. But, as ojjposed to this tinting, each of the standard col- ors of red, orange-red, oi'ange, yellow, green, etc., may be, in a similar manner, mixed with black — in gradually dimin- ishing proportions of color, and gradually increasing pro- portions of black — until the color is lost in blackness itself. Thus, at the centre of the red, on the Chromatic Scale, sup- pose, as before, that the normal red is placed. Mark off" five divisions on the radius extending toward the centre of the Chromatic Scale. Suppose that the first division is covered by a mixture of 5 parts of red and 1 part of black ; the second by 4 parts of red and 2 parts of black ; the third by 3 parts of red and 3 parts of black ; the fourth by 2 parts of red and 4 parts of black ; and the fifth by 1 part of red and 5 parts of black. We thus obtain what are called the different shades of pure red ; and, in a similar manner, the shades of all the colors are found. The tints and the shades of a color are called, collectively, its tones. The tones of any one color (embracing its tints and shades) may thus be supposed to be found on some one single ra- dius of the Chromatic Scale — the tints of the colors repre- sented around the outer portions of the Scale being found outside of the circle (A) that passes through the centres of the six large circles, and the shades being found inside of that circle. But each of the Tertiaries and Sub-Tertiaries — although their standard colors are much darker than the standards of the Primaries and Secondaries — has both its tints and shades also, and the dividing line between them may be supposed to be the centres of the oval figures containing their names. So, likewise, of the still darker colors, the maroons, the browns, and the grays. If, then, each of the twenty-one normal or ruling colors represented on the Chromatic Scale has five tints and five shades that may be easily distinguished by the eye, we shall have not only twenty-one normal colors, but 210 distinguishable tints and shades of these colors, without enumerating their numerous FOR OBJECT LESSONS. 107 hues. But we have no names for all these tints and shades, nor is it necessary, nor desirable, that we should have. We may call carmine the standard red, and locate it on the di- viding line between its tints and its shades ; and Ave may call the tints light reds, and the shades dark reds. Occa- sionally we give a name to some uncertain tint or shade of a color ; as, for example, we speak of rose color, which is merely one of the uncertain tmts of pure red or carmine ; of straw color, which is a light tint of pure yellow ; of mazarlne-blue, whicli is a shade of purple-blue ; and of am- ber, which is so dark a shade of orange-yellow, or dark or- ange, that it is often classed with the browns. V. HUES OF COLORS. All mixed colors (which include all the colors except the Primaries) may vary greatly in their mixtures, so as to present a great variety of hues of each. Thus, for example, supjDose, at the central part of the orange-red, where we have placed the hyphen of the word, is found the standard for this color, or, as it is usually called, scarlet. Now as we pass to the left along the figures to 1, we may suppose that the yellow diminishes and the red increases ; but as we pass to the right, to 9 or 10, the red diminishes and the yellow increases. In other words, the yellow may grad- ually increase in proportion from 1 to 10, at Avhicli latter point the yellow is sufficient, riiixed with the normal red, to produce the normal or standard orange. Thus we may have many hues of orange-red or scarlet ; and, in like man- ner, many hues of all the mixed colors. Yet the scarlets themselves (or orange-reds), as will be seen by looking at the Chromatic Scale, may be considered as merely diiferent hues of orange ; that is, those orange colors in which the red preponderates over the yellow; and in a similar manner the buffs (or orange-yellows) may be considered as those hues of orange in which the yellow preponderates over the red. 108 MANUAL OF INFOKMATION Great Number of Distinguishable Colors. Thus we may liave twenty hues of orange, easily distin- guishable, the one from the other, by an ordinary eye — these hues approaching, through the orange-reds, to pure red at one extreme, and, through the orange-yellows, to pure yellow at the otlier. In the same manner we may as- sign twenty hues to green, and twenty hues to purple. These will give to the three Secondary colors (including the Sub-Secondaries) sixty hues in all — all easily distin- guishable. But every one of tliese hues may have both tints and shades, as it approaches the centre, or the circumference, of the Chromatic Scale. If we concede five tints and five shades to each hue, these sixty hues will give us six hund- red easily discernible colors! The three Tertiaries will give us an additional list of six hundred colors, and the Sub-Tertiaries another six hundred. Giving to red, blue, and yellow, five tints and five shades each, we shall thus make up a list of one thousand eiyht hundred and thirty easily distinguishable colors, witiiout including the semi- neutral maroons, browns, and grays, which are, really, by far the most abundant colors in nature. It would not be at all extravagant to assign to the latter three the same number of colors as to the three Secondaries — six hundred in all. Our list would thus foot up the number of tiGO thousand four hundred and thirty colors, all of w^hich, Ave have no doubt, might be easily distinguished as separate and distinct from each other. To show that these estimates are not extravagant, we will state, that we visited a wholesale worsted store in New York city, and that we there found a list of more than tioo thousand worsted colors alone ; and we were as- sured that they had all the worsteds to match them. We examined great numbers of the very large lists of the hues, tints, and shades of orange worsted, and found no difiiculty in distinguishing between them. When the orange hues, tints, and shades are so numerous, it is not surprising that FOR OBJECT LESSONS, 109 people differ so mucli in their views of what constitutes a standard orange, a standard scarlet, or a standard buff. VI. COMPLEMENTAEY COLORS. Under the head of " General Principles of Light, Dark- ness, and Color," we briefly explained that when two col- ors can be taken in such projDortions as to produce white, each color is called the Complementary of the other. Now red, yellow, and blue, taken in the proportions of 3 parts of yellow, 5 parts of red, and 8 parts of blue, and of the purity of these colors in the solar specti'um, neutralize each other ; that is, produce white.* Hence, if we first com- bine the yellow and the blue, their product, which is green^ must be the complementary of red, and red must also be the complementary of green. Exercises on the Chromatic Scale. What is the complementary of red ? Of yellow? Of blue? Explain the reason in each case. (Note. — The complementary of any color on the Scale is the one directly opposite to it, on the same diameter, and can easily be learned, and recalled at any time by i-emembering the arrangement of the Scale. The Table before given also names the complementarics. Aided by the Chromatic Scale only, each pupil should not only explain the comple- mentarics, as in the following exercises, but also write out a Table of the colors, like that given on page 103.) What is the complementary of orange-red ? Greenish-blue. What is the complementary of greenish-blue ? Orange-red. Why ? Exjilanation. — Orangc-i'ed =red 10+yellow 3; and Greenish-blue = yellow 3, blue IG; and the two =red 10-t-yellow6-|-blue 16. But these last proportions are equivalent to red 5, yellow 3, and blue 8, which are the proportions in which the three Primaries neutralize each other ; that is, combine to produce white. Thus it is shown that if orange-red and * It must be borne in mind, however, that, in point of fact, we cannot produce a icUte paint by mixing those pigments or paints whose colors are complementary. Thus, although the groups red and green, orange and blue, yellow and purple, should, according to the theory, ])roduco white when respectively mixed in their proper proportions, yet we know that they produce a gray, approaching nearer to white as the colors are purer. The principles of the combinations and eifects of colors must, however, be based upon some standard, and none better can be taken than tlie/"»-e colors of tlie solar si;eetrum. 110 MANUAL OF INFORMATION greenish-blue be combined they produce white, and therefore the one is the complementary of the other. In a similar manner, look at the Chromatic Scale, and name the com- plementary of orange-yellow, and explain the principle. Of greenish-yellow. Of greenish-blue. Of purple-blue. Ofpurple-red. In a similar manner, name the complementary of russet, and explain the principle. Explanation. — In order to explain that dark green is tlie complement- ary of russet, we first show that dark green is composed of red 10, yellow 9, blue 24; Russet is composed of red 10, yellow 3, blue 8 ; The two equaling red 20, yellow 12, blue 32. But these are in the same proportions as red 5, yellow 3, blue 8, which are the neu- tralizing proportions of tlie three Primaries. In a similar manner name the complementary of dark orange and explain the principle. Of citrine. Of dark green. Of olive. Of dark purple. Let it he observed that, as the combining figures of the three Primaries make up the number 16, so any two complementary colors, which represent the equivalent combinations, must add up the same number 16, or multiples of 16. Thus, each couplet of primary and secondary complementaries forms the number 16; each couplet of the sub-secondary complement- aries forms the number 32 ; and each couplet of tertiary and sub-ter- tiaiy complementaries forms the number 64. VII. THE HAEMONY OF COLORS. As light, which is the natural stiraukis of tlie healthy eye, and more agreeable to it than any single color, is com- posed of the three Primary colors in certain jii'oportions — that is, in such j^roportions as to neutralize each other — light may be considered a perfect harmony, or union of all colors. From the princij^le herein developed it is apparent (and exj^ei'ience proves it) that if a single color, red, for exam- ple, be alone presented to the eye, an uneasy feeling is soon jiroduced in that organ. What is then needed to soothe the eye is the presentation of such other color or colors as shall neutralize the red — that is, which, if combined with it, Avonld produce white. Yellow and blue, in their respective proportions, will produce this effect, or, what amounts to the same thing, their equivalent green. Hence, if tioo colors can be used to harmonize with red, the two must be yellow and blue ; or, if one only can be taken, it must be green. i FOR OBJECT LESSONS. Ill We thus obtain this first general rule in tlie harmony of colors. The single color that harmonizes best loith any given color, is the comj^lementary of the given color. It will now be easy to answer the following questions, and assign the reasons. What single color harmonizes best with standard yellow ? (Standard purple.) Why? Because 13 parts of standard purple added to 3 parts of yellow produce white. Show why 13 parts of purple and 3 of yellow produce white. (See Div. VI.) What single color harmonizes best Mith blue? (Orange.) Why? With orauge-i'cd ? With orange-yellow ? With greenish-yellow ? With greenish blue ? With purple-blue ? With purple-red. What with russet, citrine, and olive ? Observe that each of these Tertiary colors has two complementaries, as shown in the Table, page 103. Explain why either green, or dark green, is the complementary of russet. The same of the other two Tertiaries. Harmonic Effects of placing Side by Side Colors that are Complementary. If two complementary colors, blue and orange, for ex- ample, be placed side by side, it is found that each appears brighter, or more intense, than when vicAved separately.* Thus the complementary colors are found not only to har- monize best with each other in their combined pleasurable effects upon the organ of sight, but also to contrast more strongly with each other than with any other colors. The following has been adduced as the cause of this effect. Every colored object, when viewed alone, reflects not only the particular rays which, by being the most numer- ous, designate the color of the object, but also a portion of all kinds of colored rays. Thus blue, viewed by itself, re- flects some orange rays, by which its blue may be supposed to be modified or lessened, so far as the orange rays neu- tralize their i^roper proportion of blue rays. The orange also, when viewed by itself, reflects some blue rays, by * The supposition is that the two colors are either of the normal standard, or of the same tone : that is, of corresponding depth of tint or shade. If the colors be not of the same tone, the lighter tone will appear still lighter, and the darker tone will appear still darker — that is, of a deeper shade. 112 MANUAL OF INFOKMATION which the orange is, in a similar manner, modified or di- minished in intensity. Now suppose the Hue and the orange placed side by side. What will become of the orange rays which the blue reflects ? They will be overwhelmed — virtually extinguish- ed — by the more intense rays which the orange itself re- flects, just as the light of a candle is overwhelmed by the full glare of the noon-day sun. The blue, thus deprived of the force of its orange rays, will appear of a more intense blue than before. Upon the same principle, the orange, by its juxtaposition with blue, will appear of a more intense orange than before. The same principle will apply to all the colors Avhen arranged as complementaries. They then produce their greatest effect, and jiresent the most striking contrasts.* The striking effects of these harmonies are best shown by taking circles of the three primary colors, red, blue, and yellow, and surrounding them with broad rings of their complementaries, as is seen under the head of " Harmonic Complementary Colors" on the Chart. Here, on circular, green, orange, and purple grounds, are pasted smaller circles of their respective complementaries, red, blue, and yellow. Each color, according to the principles stated, should be rendered the more brilliant and intense by this juxtaposition ; and this effect we believe will be apparent to the eye of almost any person. But, to render the effect more apparent, the same green, orange, and j^urj^le grounds are placed to the right of the others, and on them are pasted precisely the same red, blue, and yellow colors as before, for they are cut from the same sheets of colored paper ; but they are here so arranged that the contiguous colors shall not be complementaries. The six complementary colors on * It is owing to this same principle that the dapplings of two comple- mentary colors produce effects in painting so much more clear and brill- iant than when uniform tints are produced by mixing the two colors. White and black are, practically, complementaries. If they be mixed, they produce a g7-ai/ — of little or no brilliancy, as is seen in an ordinary lithographic print ; but if the black be dappled in, as in the finest steel engravings, the contrasts are the most striking, and the effect the most brilliant. FOR OBJECT LESSONS. 113 the left are now plainly seen to be more brilliant than the same six colors on the right. The teacher must constantly bear in mind that it is im- possible, as before stated, to give to ordinary paper the same brilliancy of coloring that may be given to some oth- er materials, and especially to silks. If the complementary colors on the left Avere richly-colored silks, the brilliancy of eifect Avould be absolutely painful to the eye. Another explanation of the eifect produced by placing side by side complementary colors, is the well-known fact that the eye, by looking intently at any color for a few mo- ments, acquires a tendency to see its complementary. Thus, place a bright red wafer on white paj^er, and look at the wafer intently for a few moments, and the space around the wafer will assume a greenish tinge ; or cast the eye from the wafer ujjon a white surface at some distance from it, and the figure of a light cjreen wafer will be seen there. In the same mannei', if the eye look intently for some time uj^on a green wafer on white paper, the surrounding Space will assume a reddish tinge. Hence, when red and green are placed side by side, each must give to the other an ad- ditional depth and brightness of color.* Exercises. — If a silk merchant wished to make a red silk appear to the best advantage, what color would he place beside it? (A green silk.) Why ? If an orange silk, what color should he place beside it ? If a bright yellow silk ? A green silk ? A blue silk ? A purple silk ? A piuple-i-ed ?,\\k.'i Aw orange-red? Aw oi-ange-yellow ? A greenif i -oi (Green ) •' (rurple-Blue. (Orange-Red 1 u << u (Citrine or Yellow, or (Greenish-Blue ) (Purple, or Dark Purple. (Orange "^ <; ^j tj (Greenish-Yellow, or 1 Blue ) tPurple-Red. (Orange-Yellow \ ^ <, u (Red, or Russet, or "i[Purpie-Blue ) JGreen, or Dark Green. (Yellow 1 " " " (Orange-Red, or ^Purple ) tOreenish-Blue. (Greenish-Yellowl^ ^ ^^ tj (Orange or Dark Orange, or iPurple-Red j iBlue or Olive. (Citrine 1 u n u (Orange-Red, or ^Purple J tOreenish-Blue. (Olive > j( J, ,( jPurple-Rcd, or (Orange j (Greenish-Yellow. (Russet \ tj 4j <; (Orange-Yellow, or (Green ) tPurple-Blue. Etc. Yet it is evident that any two complementary colors are not perfectly harmonized by any one additional color, but that a complete harmony requires two additional colors. Thus, if Ave take red and green, although they are complete harmonies, yet their brilliant and harsh contrast requires modification. Orange-yellow softens their severity, but re- quires its own complementary purple-blue to restore the harmony which has thus been broken ; that is, for all the colors to present the proportions required in the produc- tion of white light. Therefore the complementaries group- is some tint of it — additional extent of surface should be used to com- pensate for the deficiency. Thus, if the third tint of orange should be used (see Chromatic Scale and Div. IV.), containing only ha/f the or- ange found in the standard, a double surface of orange should be con- tained in the dress. 116 MANUAL OF INFORMATION ed in the left-hand cohimn of the foregoing table require the two colors in the right-hand column to soften and fully harmonize them. For tlie same reason, if the complement- ary groups in the riglit-hand column were to be softened, and then harmonized, both the colors in the left-hand col- umn would be required for that purpose. Taking the principles here developed as a basis, the teacher may now form a great variety of questions as to the proper selection and proportions of colors in dress, in the paintings of the interiors of rooms, in paper-hangings, and in carpets and tapestry. VIII. DISCORDANT EFFECTS OF THE JUXTAPOSITIOISr OF NON-COMPLEMENTAKY COLOES. Two colors of equal or nearly equal intensity (each one being of its normal tone, or both of corresponding tones) placed side by side, are said to bo discordant when each pro- duces such an eifect upon the other as to cause the two to differ more than they would when viewed separately — that is, to separate them farther from each other in comiDosition than in the order in which they are arranged on the Chro- matic Scale. Thus it is found tliat if orange and green, both of which contain yellow, are placed side by side, the orange will thereby assume more of a reddish tinge, and the green more of a blue tinge — the former appearing to the eye as an orange-rcfZ, and the latter as a greenish-J?? Pe'-ters-ham, a kind of rough woolen cloth, used mostly for overcoats. <^ Pilot-cloth is a coarse indigo-blue woolen cloth, used for great-coats, and the clothing of mariners and others. ^ The genuine Cashmere is a peculiar fabric made from the soft downy wool which forms the inner coat of the Cashmere goat of Thibet. The true Cashmere shawls are manufactured of this wool, but they are now well imitated from sheep's wool. * Cassimere is a thin twilled woolen cloth, generally woven from the finest wools. It is also written Kerseymere. f Kersey is a coarse woolen cloth, usually ribbed, and woven from long wool. « Tweed is a light woolen cloth. ^ Tartan is a fine worsted, silk, cotton, or mixed cloth, checked with threads of various colors. ' Linsey-woolsey is a kind of coarse cloth made of flax and wool mixed. 144 MANUAL OF INFORMATION when it will be seen that the wool is neither spun nor woven. In this case the rough wool fibres being thor- ouglily intermixed and compressed in hot water, cohere and form a solid tenacious substance. This process is called felting. Fur hats, also, are made by this same process. All woolen cloths made of short wool are subjected to a similar process. They are put into a fulling mill, where the strokes of the mill make the fibres cohere ; the cloth, subjected to this operation, contracts in length and breadth, and its texture becomes more compact and uniform. Cotton and flax can not he felted, because the fibres have not that jagged structure which causes the woolen fibres to cohere when firmly pressed together. Before wool can be felted it must be thoroughly freed from all oily matter, otherwise the fibres will easily loosen their hold upon each other. Can you see the threads in most new woolen cloths — broadcloths, for example ? Why not ? What is it that covers up the threads ? A downy surface, called the oiaj). Do you know how this nap is produced ? By carding the cloth with a species of hurs of the common teasle plant. This operation loosens from the woolen threads a part of the fibres of the wool, and lays them in a parallel direction. The nap, composed of these fibres, is then cut ofi" to an even surface by the process of shearing. But it is evident that, while this process improves the beauty of the cloth, it diminishes its strength. Have you ever heard of or seen shoddy cloth? Do you know what it is made of? Old woolen rags, instead of being thrown away, are collected, and, after being subjected to various pi'ocesses, are torn in pieces by the aid of powerful machinery, and reduced to their original state of wool ; and this wool, being respun, either with or without an admixture of fresh wool, is made into a cloth called shoddy. Handsome blankets, druggets, carpets, table-covers, and cloth for pilot and Petersham great-coats, are either wholly or partly made of shoddy. The clothing of the English army and navy consists prin- cipally of this material. It has been said that this shoddy, being manufactured from articles that were formerly deem- FOR OBJECT LESSONS. 145 ed of no value, " is one of the greatest triumphs of art and civihzation." Do you. know \fhat worsted h? It is wool- en yarn or cloth, made of long wool deprived of its felting properties by passing it through heated iron combs. There- fore genuine toors^ec? stockings ought not to full up like or- dinary wool. Of what length have you found fibres of wool '?* Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 5. Goats: Chart XV. [Suitable " objects" to be used in connection witli tlie lessons on this number would consist of specimens of red, black, green, and yellow morocco, and of kid, and fabrics made of goats' wool.] Can you tell Avhat kinds of leather I have here ? What animals produce the skins from which this leather is ob- tained ? What animals are represented in No. 5 ? Goats. How do goats differ from sheep ? Question those pupils who have seen both, about the points of difference, and see if they have observed them. The horns of the sheep are first directed backward, and then forward in a curve, while the horns of goats are generally directed only upward and backward. The horns of the upper goat in No. 5 are too much curved. The hoofs of the goat are higher, thicker, and more compact than those of the sheep ; the false hoofs are more fully developed ; head smaller and finer ; ears shorter and rounded ; hair long and unequal ; the goat is unpleasantly odorous, while sheep are not so ; the goat is curious, capricious, and bold, while the sheep has very lit- tle curiosity, is staid and timid ; in fighting, the goat rears * The census of 1850 shows that there were then 1559 woolen facto- ries in the United States, with a capital of about twenty-nine millions of dollars, devoted to the manufacture of wool. The woolen manufactures thus produced amounted to forty-three millions of dollars ; in addition to which we imported nearly seventeen millions' worth for our use. Thus we consume annually more than sixty millions of dollars' worth of wool- en manufactures, or an average of $2 60 for each person in the United States. G 146 MANUAL OF INFORMATION itself on its hind-legs, and lets the weight of its body fall on the adversary, while the sheep, in lighting, runs a tilt, adding the force of imj^ulse to that of -weight ; most goats have a beard, while the sheep have none. "What is the covering of goats ? Some are covered whol- ly with hair, others with wool mixed with hair. The Cashmere goats of Thibet, from which the famous Cash- mere shawls ai'e made, are covered with a hard, stiff, coarse kind of hair, called Jcemp, imder which, in the win- ter, is a vest of the most delicate grayish wool. Why is this fine wool found there in winter and not in midsum- mer ? What becomes of it ? What becomes of the wool on the sheep in summer if it is not sheared off? At what season of the year do animals — horses, cows, etc. — " shed their coats" the most freely ? Why in the early part of summer? How does the hide look when they are shed- ding their coats ? How after that ? At what season of the year is the hair or fur of animals the longest and the most dense ? Why ? How much wool does an ordinary sheep produce annu- ally ? From two to five pounds. How much of the inner coating of fine wool do you suppose a goat produces annu- ally ? Only about three ounces — about the fifth part of a pound. Do you think, then, a Cashmere shawl can be fui'- nished at as low a price as a shawl made of sheep's wool ? The price of the fine Cashmere wool, even in Thibet, is about a dollar and a quarter a i^ound ; and a genuine Cash- mere shawl is not unfrequently sold for five hundred dol- lars — some even for a thousand. The Jcemp or hairy cov- ering of the goat is used in the manufacture of^coarse cloth. In what parts of the world are goats most abundant ? In many parts of Asia and in Southern Europe. What uses are made of the common and wild goats ? Their flesh is wholesome food ; their milk nutritious ; their un- dressed skins are the winter covering of a large jsart of the mountain shepherds and peasants of Europe and Asia; their tanned skins make the finest morocco, which is used for shoes, for book-binding, and for a thousand ornamental FOR OBJECT LESSONS. 147 purposes ; and in France kid gloves are manufactured by millions from the dressed skins of the young goats, called Jclds. In England the lawyers, judges, and bishops wear wigs made of white goats' hair. The horns of goats make excellent knife-handles ; their tallow the best of candles ; and their hams, when salted, are called rock-venison, and are equal to those of the deer. (See also Third Reader, pages 220, 221.) Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 6. Elephants: Chart XV. [Specimens of ivory — such as an ivory paiier-fulder, ivory toys, etc.] What is this which I hold in my hand ? What material is it made of? Ivory. Where do we obtain this ivory? Is it a vegetable substance, an animal substance, or a min- eral substance ? Lead the pupils, by questioning or by suggestions, until they discover that the tusks of the ele- phant are ivory ; then proceed with the following.* What animal is represented in No. 6 ? Probably all of you have seen the animal. Where did you see it ? In a menagerie. What is a menagerie ? A collection of wild animals. What other animals did you see there? How large do you think the elephant is? It is from seven to twelve feet high, but the average height is about eight feet. The length of the body, from the mouth to the insertion of the tail, is from nine to fifteen feet, and it weighs from 5000 to VOOO pounds. How does it compare, in size and weight, with horned cattle ? See No. 1. But the elephant seems to have no neck at all, or only a very short one. How, then, can it eat from the ground ?f * Most of the ivory of commerce is obtained from the tusks of the el- ephant ; hut the tusks of the wah'us or sea-horse also furnish excellent ivory. (See Third Reader, pages 173 and 183.) The tusks of the hip- popotamus and wild boar are also ivory, though it is inferior to that pro- duced by the elephant and walrus. f Children should not be told at once how it obtains its food. If they make the discovery, they will be far more deeply impressed with the ev- ideuces of design and adaptation than if all had first been explained to 148 MANUAL OF INFORMATION It puts its food into its mouth with its flexible trunk or proboscis. How does it drink? By sucking up a quan- tity of water into its trunk, then putting the trunk into its mouth, and poui'ing, or rather blowing^ in the water. Can you mention any other uses of the trunk ? The elephant breathes through it and smells through it, as it contains the nostrils of the animal ; and it can sjjout water with it quite a distance. In its native wilds it cools and washes itself by standing in the pools or streams, and spouting water all over its body. At the end of the trunk is an appendage like a finger, with which the animal can jjick up an object as small as a penny. This trunk is composed of more than forty thousand small muscles, variously interlaced, flexible in all directions, and is endowed Avith exquisite sensibility. The trunk is also the organ of the voice, and through it the animal utters strong, trumpet-like tones. What is the food of the elejihant ? Wholly vegetable : in its Avild state, the leaves and branches of trees, etc. ; when tame, it is fed on grass, hay, oats, bran, etc. Ele- phants are fond of sweetmeats, and also, in India, of ar- raclc^ a spirituous liquor made from rice. What are those things which project from the mouth of the elephant? Two long, tapering ivory tusks.* From which jaw do these come? The upper jaw. The elephant has no inci- sors — that is, front or cutting teeth — in either jaw. Of what length have you seen elephants' tusks ? These tusks are often from six to eight or ten feet in length. One has been known fourteen feet in length. They not im- frequently weigh a hundred and fifty pounds each, but the average weight is sixty pounds. The great value of these tusks may be estimated by the fact that the largest them. Teachers should bear in mind that the answeis which we have given are designed to aid the teacher in making suggestions to his pupils onltj when such suggestions are necessary. * The temale elephants in Asia have no tusks, while in Africa both the male and the female have tusks, althouph those of the male are much the largest. Portions of the African elephant are eaten by the na- tives. The trunk is considered a great delicacy ; and a French writer speaks of the foot as a dish " fit for a king." FOR OBJECT LESSONS. 149 ivory brings in the market about a dollar and a half a pound. It is supposed that the tusks of more than ten thousand elephants are used annually, a few of which are obtained from elephants that have died in the natural way, but most of them from elephants that have been hunted and killed for their ivory. A large trade in ivory is car- ried on with the African coasts. In Sheffield, England, five hundred persons are occupied as ivory workers, in making knife-handles, chess-men, billiard-balls, combs, pa- per-folders, mathematical and musical instruments, toys, etc. The Chinese are better workers in ivory than any other people.* What is that placed on the back of the elephant ? It is a kind of seat or carriage, called a hoiidah in India. Who is the man sitting in front, on the neck of the elephant? He is the driver or keeper of the elephant, called the ma- hout. " In India the elephant is a familiar beast. In an- cient times it went to war with towers filled Avith soldiers on its back : it now carries traveling parties in a similar manner. Kings and princes ride ujDon it in state, and the animal seems to take a delight in the pomp and pageantry of which it forms a part. A strong elephant can carry a burden of three or four thousand pounds, and it will bear a thousand pounds on its tusks. It loads and unloads boats with its trunk ; it pulls at a tackle ; it rolls and lifts and carries barrels and hogsheads ; in short, it does the work of oxen, horses, and men.f Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. * The celebrated Athenian statue of the Olympian Jupiter, made of gold and ivory by the sculptor Phidias, was sixty feet high. It was such a prodigy of art that it was thought by the ancients worthy to be reck- oned among the seven wonders of the world. f For farther description of the elephant — his habits, sagacity, uses, anecdotes of, etc. — see Third Reader, page 182-186. 150 MANUAL OF INFORMATIOlsr Number 7. Camels: Chart XV. [Specimens of camel's-hair pencils, camei's-hair cloth, etc.] Here is a little brush, which you have perhaps seen used for painting in water-colors. Do you know what it is called, and what it is made of? It is called a camel's-hair pencil, and it is made of the soft hair of the camel. At what season of the year do you suppose this hair is ob- tained from the camel ? Why in the spring, or early sum- mer ? Because then the camel, like other animals, sheds its hair. Do you know of any other use which is made of camel's hair? Is any mention made of its use in the New Testament ? Yes : the raiment of John the Baptist was made of camel's hair. The Arabs at this day manufacture the hair of the camel into wearing apparel, tents, and car- pets. In Southern and Western Asia, and Northern Africa, it is an imjjortant article of commerce. The French man- ufactui'e it into hats. Where is the camel represented on this Chart ? In No. v. What kind of a camel is the uj^per one, with the two humps on its back ? The Bactrian camel. How large do you suppose this camel to be — as large as the elephant', or as large as an ox ? It is nearly as high as the elephant, being from 7 to 9 feet in height. Its length is about 10 feet. How do its body and limbs compare with those of the elephant? Is the loaded camel in front like the one above ? Can you see any difference in them ? The upper camel is covered with shaggy hair, especially under the throat ; the lower one is not. Moreover, if the load were removed from the one in front, you would see that it has but one hump on its back. This is called the Dromedary, or Arabian camel. See Third Reader, page 205. It is not quite so large as the Bactrian camel, but is a. faster traveler. If the upper camel is the largest, why is it represented, here, smaller than the other ? In what countries are camels found? What uses are made of them? In what respects are they peculiarly adapt- ed to these w^arm countries ? See Third Reader, page 205- FOR OBJECT LESSONS. 151 207. Are they ever found in a wild state ? No : the whole race appears to have been, from time immemorial, under the dominion of man. In the Scriptures camels are fre- quently spoken of, not as wild animals, but as already sub- ject to man's use. See Genesis, xxxii., 7, and xxxvii., 25 ; Judges, viii., 21 ; Job, i., 3, and i., 17, and xlii., 12, etc. Do you know what a caravan is ? In what important respect are camels like oxen, sheep, etc. ? Like the ox, the camel cheios the cud, and is therefore called a ruminatmg animal. How does the hoof of the camel differ from that of the ox ? It is soft, tough, and elastic, so as to yield readily to the stones of the desert ; but it is not cloven-footed like the ox, the toes only being divided. In Leviticus, xi., 4, the camel is enumerated among the animals which the Israelites are forbidden to eat, "because he cheweth the cud, but divld- eth not the hoofP Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 8. Dogs: Chart XV. What animals are represented in No. 8 ? What three kinds or varieties are there represented ? How many dif- ferent kinds of dogs have you seen ? How many can you mention and describe?* What is the food of the dog? * The principal kinds or varieties of dogs are : 1. The mastiff, a favorite watch-dog, of grave aspect, imposing appear- ance, and a deep, sonorous voice. He is a faithful friend, but a fierce and bitter enemy. 2. The bull-dog, of moderate size, but of great strength and courage; has a round, thick head, a turned-up nose, and thick and pendulous lips. 3. The Newfoundland dog, brought at first from Newfoundland. 4. Esquimaux dog, smaller than the Newfoundland ; very useful to his master in drawing sledges and carrying heavy loads. Its ears are short and erect, and its bushy tail curves elegantly over its back. 5. Tlie water-spaniel, which delights in plunging into water, and is of great use to the sportsman while shooting wild ducks or water-hens. 6. The Dalmatian or coach-dog, with a spotted hide, distinguished by his fondness for horses, and as being the frequent attendant on the car- riages of the wealthy. 152 MANUAL OF INFORMATION Mostly animal food ; wholly so in a wild state. Hoav, then, does the dog diifer in this respect from horses, oxen, and Bheep ? Do you know what those animals are called which live on the flesh of other animals ? Carnivorous^ which means " flesh-eating." Then there should be some distinct name for those that live on vegetable food. Do you know what it is ? Gram-i-niv' -o-roxis^ or " grass-eating." How do the feet of the dog differ from those of the ox ? The ox has a cleft hoof; the dog has toes to his feet and dates. Did you ever notice how many toes the dog has on his fore feet ? Five. How many on the hinder feet ? Four.* How many claws on each foot ? The same num- ber as the number of toes. Can the dog use his claws in the same manner as the cat does ? Did you ever see the cat extend its claws, and then draw them back so as al- most entirely to conceal them ? Can the dog do this ? No. The claws of the cat, and of all animals of the cat kind, including the lion, tiger, etc., are oxtractile, while those of the dog are ?io;?-Fetractile. Did you ever notice how the dog walks, Avhether on the sole of its feet or on the toes ? It walks on its toes. So does the cat, the lion, the tiger, etc.f 7. The blood-hound, a native of Spain, was early sent to the West In- dies, where it was used by the Spanish invaders as an ally in their wars with the revolted Indians. 8. The English, Scotch, Irish, Russian, Grecian, Turkish, Persian, and Italian greyhounds. 9. The Mount St. Bernard dog, or Alpine spaniel. 10. The shepherd's dog. The muzzle is sharp, the ears are short and nearly erect, and the animal is covered, particularly about the neck, with tliick and shagg}' hair. 11. The old English hound, of large size, long body, deep chest; ears long, large, and pendulous ; and a peculiarly deep voice. 12. The fox-hound, a much esteemed and celebrated hunting-dog in England. The beagle and harrier are also fox-hounds. 13. The setter, the pointer, the Scotch and English terriers, the King Charles spaniel, the little lion-dog, the Maltese dog, and the poodle. * There are some species of dogs (but not among those that are com- mon) that have five toes on their hinder feet. t Those animals which walk on their toes are called digitlgrade, from FOR OBJECT LESSONS. 153 What sounds do dogs make in the kind of language which they use ? They bark, bay, howl, yelp, whine, moan, growl, and snarl. When and why do they bark, howl, whine, etc.? See Third Reader, page 144. For what are dogs most noted ? For their sagacity, and their fidelity to their masters. Do you know of any instances of either from your own observation ? Can you tell of any that you have heard of or read of? Some examples of both are given in the Third Reader, page 144-151. Have dogs the same senses that we have ? Which of their senses is the most acute? That of scent, or smell. How does the fox- hound follow its prey? By scent. Do all dogs follow their prey by scent ? No : the greyhound follows by sight only. Did you ever have a dog lick your hand ? Was its tongue soft', or harsh^? Soft. Did you ever have a cat lick your hand ? Was the tongue of the cat as soft as that of the dog? No : the tongue of all the animals of the cat kind — such as cats, lions, panthers, tigers, etc. — is covered with small recurved prickles, with which they are enabled to lick the last particles of flesh from the bones of their prey. Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 9. Fur-bearing Animals: Chart XV. What are muffs and tippets generally made of? The furs of animals. What furs have you seen used, for these and other purposes ? What animals are most noted for their furs.* What fur-bearing animals are represented on the Latin digitus, a finger or toe, and gradi, to walk. Those which, like the bear, place the sole of the foot on the ground in walking, are called plantig7ade, from the Latin j}lanta, sole of the foot, and gradi, to walk. * The most noted are the stone marten, the baum, or pine marten, the fitchet, polecat, or foumart ; the ermine, the weasel, the Russian sable, the beaver, the raccoon, the lynx ; the red, cross, silver, white, and gray foxes ; the mink, the muskvat, the otter, the seal, the squirrel, the rabbit, the skunk, and the chinchilla ; also, for the coarser furs, the wolverine, wolf, and bear. It is stated ih&Xjive millions of the skins of animals applicable as furs are annually imported into Great Britain. In G2 154 MANUAL OF INFORMATION the Chart ? 1st. The pine marten, or American sable, found both in Europe and America; 2d, the polecat, fitchet, or foumart, of Europe and Asia ; 3d, the stoat or ermine, of Europe and America ; 4th, the common weasel. How large are these animals? The marten (head and body) about IS or 20 inches in length ; the polecat, IV inches ; the ermine, 1 1 inches ; the weasel, 8 or 9 inches. How would you de- scribe the general form or appearance of these animals ? They are long and slim animals, with short legs. Do you know what the common weasel, and most animals of its class, feed upon ? Rats, mice, moles, small birds, eggs, and reptiles. At what season of the year should you sup- pose the furs of these animals would be the thickest, the finest, and the softest ? In the winter season, when this covering of fur is most needed to keep the animals warm. Which have the warmest hair or fur, small animals' or large ? Why small animals ? Because they are the most delicate, and need the finest covering to keej) them warm. Which are clothed the warmest^ animals that live in cold countries', or in warm^ countries ? Why those which live in cold countries? Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Numl)er 10. Llamas : Chart XV. What animals are represented in Number 10. What are they doing there ? Ascending the mountains with burdens on their backs. Where are these animals found ? What is their size ? What are their uses ? etc. The llama, sometimes called the American camel, is found in South America, chiefly in Chili and Peru. Its native the year 1851 nearly three millions of the skins of squirrels were import- ed into Great Britain from Russia alone ; and it is said ihi\t fifteen mil- lions of these little fur-bearing animals are every year captured in Rus- sia. Although the trade in furs is constantly diminishing, as the fur- bearing animals become more scarce, yet the prices of furs are gradually diminishing also. The use of furs is almost wholly dependent on the caprice of fashion. FOR OBJECT LESSONS. 155 region is upon the slopes of the immense chain of the Ancles. There are several species, both wild and tame. The wild llamas are vigilant and shy, living in flocks at a great alti- tude upon the mountains, and only descending toward the plains occasionally in search of food. The domesticated llamas, which are employed as beasts of burden, carry a weight of about a hundred pounds ; but they travel slowly, going only ten or twelve miles a day. They are remarka- bly sure-footed, descending steep and rugged places where man can pass with difliculty. During the time of the early SiDanisli history of South America, it is said that three hundred thousand llamas were employed in the transport of the produce of the silver mines of Potosi alone. But civilization gradually brought with it the animals of the old continent, and now the horse and the mule have almost entirely superseded the llamas as beasts of burden in the open country, and the sheep and the goat have taken their jDlace, in a great measure, as contributors to the food and raiment of man. The llamas are of various colors, but black, brown, and gray are the most common. Their flesh fui-nishes a whole- some food ; and the long woolly hair Avith which they are covered forms the principal clothing of the Indians. The alpaca^ one of the smaller species of the llama, and which is never employed as a beast of burden, is highly valued for its soft silky hair or wool, sometimes a foot in length, which is woven into fabrics of great beauty. In the year 1850 about five thousand bales of alpaca wool were export- ed from South America to England alone. Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Representatives of some of the leading Orders and Divi- sions of Quadrupeds. These illustrations are designed to aid the teacher in questioning the younger ])upils about some of the leading groups of quadrupeds, before proceeding to their more sys- tematic classification in Chart No. XVI. 156 MANUAL OF INFORMATION Number 11. The Monkey Tribe: Chart XV. Point out and name the species here represented. The monkeys are called Four-handed animals. Why? See both the fore feet and the hind feet of the gorilla. See how ranch they are formed like the thumb and fingers of the human hand. All the monkeys have long and 'flexible fingers, and opposable thumbs. The nails on both fingers and thumbs are invariably flat and expanded, like those of man. But though, in some respects the monkeys resemble man, they are, nevertheless, all true qxiadrupeds^ or " four- footed" animals, as, in a state of nature, they walk on " all- fours" — their hind feet and legs not being formed for an upright position. Their feet are all formed for grasping and climbing; and their entire structure shows that they are peculiarly fitted to be inhabitants of the trees, rather than to walk on the earth. (See Third Reader, page 89- 103.) Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 12. Lions: Chart XV. Point out and name the animals represented here. Lion, lioness, and cubs or whelps. What is the lioness doing? The whelps? The lion? Describe the lion — his head, mane, body, feet, etc. How does the lioness diflfer from him ? Chiefly in the want of a mane. The toes of these animals are distinctly divided — five on the fore feet, and four on the hind feet — and all are armed with claws like those of the cat. What do lions feed upon? The flesh of other animals. Hence they are included in the division Carnivorous^ or " flesh-eating" animals. A full-grown lion has immense strength : he can crush the skull of a bufialo with a stroke of his paw, and carry off" the body of a man, or antelope, as easily as a cat does a rat. (See Third Read- er, page 107-115.) Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. FOR OBJECT LESSONS. 157 Number 13. Cats: Chart XV. Point out and name the animals here represented. Cat and kittens. AVhat are the kittens doing ? The cat ? What group of animals, shown on the Chart, do the cat and kittens most resemble ? The lions. Both belong to the same division of quadrupeds, called " the Cat Family." Cats also, as well as lions, live wholly on flesh, in their wild state, and are therefore called carnivorous. How do the feet of the cat differ from those of the dog ? The clmcs of the cat are retractile, those of the dog ?iO?i-retractile. See page 152. (See Third Reader, page 122-126.) Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 14. Rabbits : Chart XV. What animals are represented in No. 14? Rabbits — wild and tame. Which are the tame rabbits? Those in front, that have the long ears. Of the tame rabbits, which are all of European origin, and probably descended from the wild rabbits, there are many varieties, some of which have very long ears, like those represented on the Chart. Did you ever see Avhat is called the Avild gray rabbit in this country ? Can you describe it ? The length of its head and body is about fifteen inches ; it weighs from two and a half to three jiounds ; its fur is soft, and of a yellow- ish-brown color in summer, but in winter it has a more grayish appearance ; and it lives in woods and forests, and in the thickets bordering on cultivated grounds. Does it ever make burrows in the ground ? No : this animal is not, really, a rabbit, but a hare, although both belong to the same family of animals. The rabbit burrows, but the hare does not ; the rabbit lives in societies, the hare lives mostly alone ; the rabbit is born naked and blind, the hare is born covered Avith fur, and with its eyes open ; and in Europe the rabbit is smaller than the hare. Both are timid and defenceless ; but these seeming defects are beautifully compensated — in the hare especially — by great watchful- 158 MANUAL OF INFORMATION ness, acuteness of the senses, and swiftness of foot. Both are exclusively vegetable feeders, and, to fit them for gnaw- ing, have two large cutting teeth which project from the front of each jaw. They belong to the order oi Itodent, or " gnawing" animals. Both the hare and the rabbit, ])i^- tured in the Third Reader, page 231, are the European sjjecies. Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 15. Giraffes: Chart XV. What animals are represented in No. XV. ? Giraffes or Camelopards. Have you ever seen a giraffe? Can you describe the giraffe ? Head often twenty feet from the ground ; two short horns on the head, covered with a hairy skin ; body short, sloping downward toward the rump, and supported upon very long legs ; fore legs appar- ently^ but not really longer than the others ; neck exceed- ingly long, furnished with a short mane ; head comparative- ly small ; countenance exceedingly gentle and pleasing, the eyes being remarkably full and lustrous; the ground color of the skin is yellowish, but is covered with large spots and patches of lighter and darker brown. What kind of feet has the giraffe? Cleft hoofs, like those of the ox ; bi;t the feet are destitute of the two little accessory hoofs found in all the other ruminants except the camels. To what class of animals, then, does the giraffe be- long ? The ruminants. What is it that esi^ecially distin- guishes the ruminants from all other animals, and why are they called ruminants 9 Should you suppose that the gi- raffe can eat from the ground ? It brings its mouth to the ground with difficulty, and, in order to do so, stretches its fore legs widely apart. It seldom lowers its head to the ground except to drink. How, then, do you suppose the giraffe obtains its food ? By browsing upon the foliage of trees ; and, that it may readily grasj-) the young shoots, it is provided with a long and pliant tongue, which is at once a feeler, a grasper, and an organ of taste. See Chart. FOR OBJECT LESSONS. 159 What is the native country of the giraffe ? Southern and Eastern Africa. (See, also, Third Reader, pages 115 and 205.) Compositions. — In accordance Avith previous sugges- tions, jjages 102, 104, etc. Number 16. Deer: Chart XV. What animals are represented in No. 16 ? Those of the deer kind. Do you know whether all deer have horns or not? The males only have horns, with the single excep- tion of the reindeer. There are occasional exceptions to this rule, but the cases are very rare. Unlike the ox, goat, sheep, etc., they shed their horns at regular intervals — most of them annually. What are the horns of the deer called? Frequently they are called antlers. Their size and the number of their branches increase with age. What does the ui:)per figure in No. 16 represent? The English red deer or stag. This deer comes to its full growth when five years old, when each of its horns has five prongs or points, as seen in Fig. 1, No. 16. It is then called a hai't, and the female a hind. When this animal is wounded and taken, it sheds tears like a child. AVhat does the second figure represent ? The English roebuck, the smallest of the English deer. Its horns are about eight or nine inches long, and each is divided into three small branches. What does the third or lower figure represent ? The wapiti, American stag, or round-horned elk. It has tall, round, branching horns, sometimes six feet high ; its color is yel- lowish brown ; the tail is short ; the form is stately ; and the height of the animal is from four and a half to five feet at the shoulders. It sheds its horns in February or March. It might be supposed that, when pursued, the branching horns of this animal would be greatly in its way, but they are not so. The animal lays them on its back, and is able thus to force its way through the thickets with ease. (See, also, Third Reader, page 209-21'?.) Compositions. — In accordance with previous sugges- tions. Images 102, 104, etc. 160 MANUAL OF INFORMATION Number 17. The Rhinoceros: Chart XO**. What animal is represented in No. IV ? The rhinoceros. Is more than one kind or species there represented ? Two : the one-horned and the two-horned rhinoceros. Describe the animal as well as you can from the picture of it. It is a large, uncouth-looking animal, covered with a hard, thick, < naked, rough skin, disposed in large folds, especially on the neck, shoulders, haunches, and thighs. It has three toes on each foot. Its most distinguishing mark, however, is the solid horn on its nose or snout. One species has two horns, the smaller being directly back of and above the larger. For farther description see Third Reader, page 187. Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 18. The Hippopotamus: Chart XV. What animal is represented in No. 18 ? The Mp-po-pof- a-nnis, a word which means "river-horse." What does this animal most resemble in appearance? A gigantic hog, except in its short, thick, and very blunt muzzle. The feet have four toes, like those of the hog, terminated in as many separate hoofs. The flesh is said to be delicious, re- sembling pork in flavor. The eyes are situated high in the head, so that the animal, while its body is entirely cov- ered by the Avater, can look around and breathe by rais- ing but a very small j^ortion of the head above the surface. See the lower figure. Its large teeth are very good ivory. For farther description see Third Reader, page 188, 189. Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. Number 19. Beavers: Chart XV. What animals are represented in No. 19? Beavers. From the appearance of their teeth, to what order of quadrupeds do they seem to belong ? To the Rodents^ or "gnawing" quadrupeds. The beaver has two incisor or FOR OBJECT LESSONS. 161 cutting teeth, and eight molar or grinding teeth, in each jaw. The incisor teeth are so very large, hard, and sharp, that they were employed by the North American Indians as implements to cut bone, and to fashion their horn-tipped spears. What do you notice very peculiar in the form of these animals ? The shape of the tail, which is veiy broad, scaly above, and horizontally-flattened. There are five toes on each of the feet, and the hinder feet are webbed, some- what like those of a goose. Why are the feet webbed, and what do webbed feet always show ? They are web- bed to enable the animal to swim the better ; and webbed feet always show that the animal is designed to pass a j^art of the time in the water. How large is the beaver ? Head and body about three feet in length ; tail about eleven inches. For what is the beaver specially noted ? For building dams across streams, and for constructing its curious houses, or dwelling-places, which are always partly in the water. For what is the beaver most valued? For its fur. In the year 1788 up- ward of 170,000 beaver skins were exported to Europe from Canada. About 100,000 beaver skins are now annu- ally obtained for their fur in North America alone, and considerable quantities from Northern Asia, and Northern and Central Europe. Formerly beaver furs were much used in making hats ; but beaver hats have now in great l^art given place to hats manufactured of silk, and the cheaper fur of a little South American rodent, called the nutria., or coypou. Ofthe nutria, as many as 600,000 skins are annually imported into Great Britain from South Amer- ica. In 1 832 the beaver skin sold for seven dollars a pound ; it now sells for about a dollar and a quarter a pound. The nutria sells for about forty cents. (See, also. Third Reader, page 232.) Compositions. — In accordance with previous sugges- tions, pages 102, 104, etc. 162 MANUAL OF INFORMATION Number 20. Armadillos and Pangolins : Chart XV. "What animals are represented in Ko. 20 ? Those above are the South American Armadillos, a Spanish word, which means clad in armor • the three lower ones are the Scaly Ant-eaters, or Pangolins. Tlie armadillos are covered, for their defense, with a bony crvist, or coat of mail, as their name implies. This is formed of numerous many-sided plates, attached to the skin. These animals are roasted in their shells, and are considered a great delicacy by the peo- ple of South America. The Scaly Ant-eaters, or Pango- lins, found in Southern Asia and Southern Africa, have also a defensive armor, which consists of numerous horny scales, implanted in the skin like nails, and overlapping each other like the tiles or shingles of a roof. For farther account of these animals, which belong to the order of " Toothless Quadrupeds," see Third Reader, pages 229, 230. Compositions. — In accordance with previous sugges- tions, jjages 102, 104, etc. The teacher may now also give several of the groups as the subject for a composition ; or he may assign the ten xipper groups for one composition, and the ten lower for another. CHART No.XYI. ZOOLOGICAL: CLASSIFICA- TION OF ANIMALS. The following exercises on this Chart are designed to give pupils merely an outline view of the various groups of animals included in the first division of zoology — the Mammalia. It is not expected that the teacher will con- fine himself sti'ictly to the outline we have given, as he must be guided in this matter by the ages and attainments of his pupils. With small children, who have not read so far as the Third Reader, he may limit himself to a few oral lessons, taking up, first, an entire order at a lesson, drawing his information from the Third Reader, or from any other FOR OBJECT LESSONS. 163 source, and thus goiug over the entire Chart ; next, he may take up, one by one, the several families, groups, or divi- sions, in each order ; but he should rely mainly vii^on such incidents as he may gatlier from various sources, to give interest to his oral lessons, or "talks." Pupils who have read the Third Reader, however, may first go over the Chart in the manner we have herein designated ; and in subsequent exercises they may be as minute in their de- scriptions as their attainments will warrant, mastering not only the groupings into orders, families, etc., but describing size, form, color, habits, etc., of each animal represented. The teacher should require them to point out every thing on the Chart. Although the figures there are not sufii- ciently large to enable the class, or school, to see each ani- mal distinctly at a distance, they are large enough to pre- sent their general forms and groupings ; and this is all that is needed here, as pupils can examine the same figures more minutely in their Reading-book. What is Zoology? (See Chart, and also Third Reader, page 240.) What are the four great divisions of animals ? See Chart, and Third Reader, page 240, 241. The teacher himself may give a brief explanation of these divisions in an oral lesson, or, if the pupils are reading in the Third. Reader, they may be directed to read the concluding les- son, page 240, and tell what they can of these divisions, pointing out their representative drawings on the Chart. They should be required, at this stage, to na^ne the classes of the^'rs^ division only. Let the teacher describe what a vertebrate animal is, and then proceed with the following. What four classes of animals are in the Vertebrate divi- sion ? See Chart. Mammalia, Birds, Reptiles, and Fishes. To which one of these is this Chart devoted ? The Mam- malia. What are Matmualia ? See Chart. Animals which nurse or suckle their young. What is said about includ- ing manhind in this division ? See Chart ; and Third Reader, page 87, Note. What are the five great races into which mankind are divided? See Chart. Caucasian, Mongolian, Malay, Ne- 164 MANUAL OF INFORMATION gro, and American. What people are included in each ? In the Caucasian are included all the ancient and modern Europeans except the Fins ; also the Assyrians, Medes, Chaldeans, Sarmatians, Scythians, Parthians, Philistines, Phoenicians, Jews, Georgians, Circassians, Turks, Persians, Arabians, the Northern Africans, Egyptians, and Abyssin- ians. They have a white skin, either Avith a fair rosy tint, or inclining to brown ; red cheeks ; hair copious and black, or of the vai'ious lighter colors ; eyes dark in those with brown skin, light in the fair or rosy complexioued. The Caucasian has ever been the leading and conquering race. In the Mongolian race are included the tribes and na- tions of Central and Northern Asia, Chinese, Japanese, Siamese, Laplanders, and Esquimaux. They are character- ized by an olive color ; black eyes ; black, straight, strong, and thin hair, and little or no beard. In the Malay race are included the inhabitants of the islands of Southern Asia ; of the Moluccas, Ladrones, Phil- ippines ; of Australia, and of all the islands of the South Sea. Their color is from a light tawny to a deep brown ; hair black, more or less curled ; head narrow, nose full and broad ; mouth large. In the Negro race, are included all the natives of Africa not comprised among the Caucasians. Skin and eyes black ; hair black and Avoolly ; skull compressed laterally ; fore- head low, narroAV, and slanting ; cheek-bones prominent ; nose broad, thick, and fiat ; and lips, particularly the upper one, very thick. In the American race are included all the aboriginal Americans except the Esquimaux. Perhaps, also, the Tol- tec family, which founded Mexico and Peru, must be con- sidered an exception. Skin dark, and more or less of a red tint ; hair black, straight, and strong ; beard small ; fore- head usually low ; eyes deep ; face broad ; mouth large ; and lips rather thick. FOR OBJECT LESSONS. 165 First Class of the Vertebrates : The Mammalia. First Order, Quadru'mana, or Four-handed Animals. In the classification of the Mammalia, what is the First Order, and Avhat kind of animals does it embrace ? Why are they called quadru'manous, or four-handed animals? Because both their fore feet and their hind feet have thumbs and fingers which bear considerable resemblance to the human hand, and they use these four hands to take hold of things, to climb, etc. Point out on the Chart the two great divisions of the Monkey tribes. Monkeys of the Old World, and Monkeys of the New World. What are the three divisions of the Monkeys of the Old World ? Apes, Monkeys proper, and Baboons. See Third Reader, pages 89, 90. What are the most noted of the Apes ? The Orang-outangs. Interesting facts about the Apes. Third Reader, page 90-94. About the Monkeys and Baboons. See Third Reader, page 95-101. What can you tell about the Monkeys of South America ? Suh-order: Cheir' optera., or Hand-ioinged Animals. — What sub-order of animals is by some included among the Quadru'mana, or four-handed animals ? Bats and Lemurs. Why? Because the Bats, w^hich are sometimes called hand-ioinged animals, hold on to things both by their feet, and by their wings — the wings having little hooks, which answer the purpose of hands ; and the Lemurs have thumbs and fingers on their hind feet as well as on their fore feet, very much like the monkeys. Mention some facts about the bats and lemurs. Third Reader, page 104-106. Second Order. Carniv^ora, or Flesh-eating Quadru- peds. What does the Second Order of the Mammalia include ? See Chart. What is the meaning of Carnivorous ? Flesh- eating. Point out on the Chart and name the five families or divisions of animals included in this Order. See Chart. Animals of the Cat kind. Dog kind, Weasel kind. Bear kind, and Seal kind. Point out on the Chart and name the lead- 166 MANUAL OF INFORMATION ing animals of the Cat kind represented there. Lions, Ti- gers, Leoj^ards, Lynxes, Tiger-cats, and Wild-cats. Let another j^upil point out and name the leading animals of the Dog kind. Dogs, Foxes, Wolves, Jackals, and Hyenas. The hyenas are by some made to constitute a separate fam- ily. Another pupil, the animals of the Weasel kind. ' Pine Marten, Mink, Sable, Otter, Ermine, Skunk, and Common Weasel. Another, the animals of the Bear kind. Grison, Raccoon, Badger, Coati, Bear, Wolverine, Panda, and Ratel. Another, the animals of the Seal kind. Common Seal, Sea Bear, Sea Lion, and Walrus ; also, the Elephant Seal, Pied Seal, Mitred Seal, Crested Seal, and Leopard Seal. Sub - order : Insectivora^ or Insect-eaters. — What sub- order is by some included in this Second Order? Point out and name the animals of the Shrew kind represented on the Chart. The common Shrew, Oared Shrew, Hedge- hog, and the Moles. In the next i:)lace, the teacher, to vary the exercises, should point out with a pointer the carnivorous quadru- peds, in their order, beginning with the Lion, and, as he places his pointer on each, require the class to call its name. Then call on the pupils, individually, to tell what they can about it, such as its native country, its size, its habits, col- or, and any anecdotes about it Avhich they can remember, either Irom the Third Reader, or from any other book. Third Order. Ungulata, or Hoofed Quadrupeds. What does the Third Order of the Mammalia include ? See Chart. What are its three great divisions? Let the pupil point out these divisions on the Chart — the PacJiy- dermata, or Thick-skinned ; the Solidiingida^ or Solid-hoof- ed ; and the liiamnantia, or Cud-chewing — carrying the pointer over the animals in each division. It may be re- marked here, that the animals of the first two divisions Avhich we have given on the Chart were embraced by Cu- vier in only 07ie division, the '■'■ JPachyderjnata, or Thick- skinned ;" but later writers have made the two divisions which we have given on the Chart, and others still have FOR OBJECT LESSONS. 167 made a separate division for the animals of the " Swine kind." Point out and name the principal animals in the first, or " Thick-skinned" division. The different kinds or species of Hog, the American Tapir, the little Syrian Hyrax, and the South American Peccary. Point out and name the animals of the Second Division represented on the Chart. Wild Ass, Zebra, and Horse. Point out on the chart and name the seven families of the Ruminant or Cud-chewing animals. Animals of the Cam- el, Giraffe, Deer, Ox, Sheep, Goat, and Antelope kinds. Now point out and name separately the leading animals of the Camel kind represented on the Chart. Llama, Arabian Camel, and Bactrian Camel. Of the Giraffe kind. The Giraffe only. Of the Deer kind. Moose or Elk, Rein- deer, Java Musk Deer, common American Deer, and Amei'- ican Stag ; also the Musk Deer of Thibet, English Fallow Deer, Bengal Hog Deer, Roebuck, and Nepaul Stag. An- imals of the Ox kind. African Buffalo, Musk Ox, Zebu, the Gnu, and American Buffalo or Bison. Animals of the Sheep kind. Corsican and African "Wild Sheep, Rocky Mountain AVild Sheep, and common Sheep. Of the Goat kind. Common Wild Goat, European Ibex, and Cashnifere Goat. Animals of the Antelope kind. The Gazelle, Elk Antelope, Chamois, common Antelope, and Prong-horned Antelope ; also the Neel-Ghau, Chickara, Bearded Ante- lope, Algazel, and Springbok. The teacher should next go over this entire Order as directed under the Second Order, page 127. Sub-order : JEdentata, or Toothless Quadrupeds. — What sub-order of Animals is by some included in this Third Or- der ? The Edentata, or Toothless Quadrupeds. Point out and name the animals in this division. Duck-billed Water Mole, Great Ant-eater, Long-tailed Ant-eater, Cloaked Ar- madillo, Six-banded Armadillo, Porcupine Ant-eater, and Yellow -throated Sloth. Mention some facts concerning these " Toothless Quadrupeds." Third Reader, pages 229, 230. 168 MANUAL OF INFOKMATION. Fourth Order. Rodentia, or Gnawing Quadrupeds. What kind of animals does the Fourth Order of the Manamalia include ? The Rodentia, or Gnawing Quadru- peds. See Chart. Why is the name Gnaioers given to them? Third Header, page 231. Point out and name the animals of this Order represented on the Chart. Men- tion some facts and incidents about these animals. Third Reader, pages 232, 235. Fifth Order. Marsupialia, or Pouched Quadrupeds. What kind of animals does the Fifth Order include ? The Marsupial, or Pouched Quadruj^eds. See Chart, Point out and name the animals of this class represented on the Chart, Mention some facts about them. Third Reader, pages 236, 237, Sixth Order. Cetacea, the Whale Tribe. What kind of animals does the Sixth Order include ? The Cetacea, or animals of the Whale kind. Why are these animals classed among quadrupeds ? Third Reader, pages 238, 239.* Point out and name the animals of this Order represented on the Chart, The Narwhalsf (or Sea * The wliales, although belonging to the Mammals, are, indeed, desti- tute of both hands and feet ; yet the frame-work of their_/Z//>;>e>-s (see cut, page 238, Third Reader) is much like that of a hand, as may be seen in the accompanying drawing, representing a flipper, and also its bones uncovered. The flippers arc used for balancing rather than for swimming. It is with the tail, mostly, that the whale swims. Its immense power can be judged of by its breadth, which often is twenty feet. t The body of tlie narwhal is from thirty to forty feet long, and its straight pointed tusk from five to ten feet. The uses of this tusk are not well known. Some suppose it uses its tusk to dig up sea-weed for food ; others, that it kills its prey with it. The Greenlanders use this tusk in the manufacture of spears, arrows, hooks, etc. Flipper of the Whale. FOR OBJECT LESSONS. 169 Unicorns), Greenland Whale, Spermaceti Whale,* and the Great Northern Rorqual. What is the length of the lat- ter? More than a hundred feet. For other animals of the whale kind, see Third Reader, page 239. Compositions. — Let the teacher assign such portions of this Chart as subjects for compositions as he may deem appropriate. CHART No. XVII. ZOOLOGICAL. Second Class of the Vertebrates : Birds. This Chart is designed to give teachers and pupils a gen- eral outline view of the seven great orders or classes into which Birds are divided, and to present to their notice * Spermaceti, obtained from the spermaceti whale, is a fatty matter, which, when separated from the oil, and purified, becomes a white, semi- transparent mass, much used for making candles. Spermaceti is found, mixed with oil, in a large reservoir in the head of the spermaceti whale. A hole is cut in the head of the whale by its captors, and this mixture is baled out with buckets, as from a well. Ten or twelve barrels of this mixture are obtained from a sperm whale of ordinary size. That waxy substance, of a musky odor, called avibcrrjris, which is highly valued as a material in perfumery, is found in the intestines of the sperm whale. It is also often found floating on the surface of the ocean, in regions fre- quented by whales. It is the/at of whales which produce the "whale-oil." This fat of the whale, called blubber, encases the whole animal, being mingled with the fibres of its enormously thick skin. The blubber and skin are not un- frequently two feet in thickness, and weigh in some cases thirty tons. The whale has a curious apparatus for spouting through its nostrils, which are called " blow-holes." Under the nostrils are two large pouch- es, like vast bellows, which can be filled with water taken in by the mouth. When the whale wishes to spout it compresses these pouches, and expels the water with great force through the blow-holes, the outer valves of which are pushed open. The well-known whale-bone of commerce, used principally for ribs or stretchers of umbrellas, for canes, whips, etc., and as a substitute for bristles in brushes, is taken from the upper jaw of the whale — chiefly from the Greenland whale, or from a similar whale in the Southern seas. TI 170 MANUAL OF INFORMATION some leading species in each order. By locating these leading divisions as on a map, and thus presenting them to the eye, it is believed that pupils will learn them much easier, and with more interest, and retain them much lon- ger, than when the same knowledge is acquired through the medium of written description only. For the mode of conducting the exercises on this Chart we refer, in addition to what is here given, to the suggestions made under the head of tlie preceding Chart, No. XVI. What has been given under the head of " Ornithology, or the Natural His- tory of Birds," in the Fourth Reader of the " School and Family Series," and to which we refer, will render it un- necessary to enter into full descri^Mons here. What are the seven orders into Avhich Birds are divided ? Point them out on the Chart. 1st. Birds of Prey; 2d. Perching or Singing Birds; 3d. Climbers ; 4th. Scratchers ; 5th. Runners; Gth. Waders; Vth. Swimmers. First Order. Birds of Prey. To the Birds of Prey has been given the Latin name Hcqotores, signifying robbers ; and many of these birds are not only robbers, but assassins and butchers. They are distinguished by their powerful bill or beak and their claws. The former has the upper mandible longer than the lower one, strongly hooked at the tip, or curved throughout its whole length, vei'y sharp at the point, and sometimes armed with teeth on the margins. The feet also are powerful, composed of four toes, armed Avith long, curved, and acute claws. See the claws and bills of the Eagles represented on the Chart. The Birds of Prey are divided into three groups or families : Falcons, Vultures, and Owls. See Chart. 1st. Falcons. — These include the Eagles and the Hawks. See Fourth Reader, pages 84-96. If pupils have read the Fourth Reader, let them describe the Falcons, pointing to the Chart, telling size, coloi', habits, etc., and such anecdotes or incidents of each as they remember, or such as they have heard, or such as they have read in other books. Or, let FOR OBJECT LESSONS. 171 the teacher describe these birds, and let the pupils after- ward tell what they can remember of each ; or, let them write down as much as they can of what has thus been told them, and thus form a series of compositions on the sub- ject. Let them refer to, or recite, any poetry descriptive of these birds. 2d. Vultures. See Chart; and Fourth Reader, page 96. 3d. Owls. See Chart ; and Fourth Reader, page 97. Let pupils tell what they can of each group or family — as to their cHaracteristic features, species named or repre- sented on the Chart; their size, color, habits, incidents, anecdotes, poetry, etc. ; also name any birds in the country around which belong to either division. Second Order. Sparrows, Perohers, or Singing Birds, This order includes a great variety of birds, whose legs and feet are generally slight, and whose claws, although curved, never constitute powerful hooked talons, as in the birds of prey. The Sparrows or Perchers have four toes — three directed forward, and one backward. They have been divided into the four following groups, distinguished by peculiarities in the form of the bill : 1st. Toothed-bills. — See Chart, and Fourth Reader, pages 102-108. The peculiarity in the form of the bill is well characterized in the head of the Shrike. See Chart. Let the pupils name any birds in the country around Avhich belong to this division. Also describe those represented on the Chart. Give poetry, etc. 2d. Cleft-bills. — See Chart, and Fourth Reader, pages 108-118. For the characteristic form of the bill, see the Whippoorwill, on the Chart. Name and describe birds of this division as before directed. Poetry, etc. 3d. Cone-bills. — See Chart, and Fourth Reader, pages 118-129. For the characteristic form of the bill, see head of Grosbeak on the Chart. Name and describe birds of this division, as before directed. The Bobolink is the rice- bird of the Carolinas. See page 232. Not only the com- mon Starling, but also the Hawfinch, Chaffinch, Linnet, 172 MANUAL OF INFORMATION Goldfinch, Siskin, and Greenfinch, are European birds. Tliere is also a beautiful American goldfinch, commonly called Yellow-bird. 4th. Thin-bills. — See Chart, and Fourth Reader, pages 129-133. The Humming-birds have the long and thin bills which well characterize this group. Name and describe as before directed. Third Order. Climbers. These birds are distinguished from the •Sparrows or Perchers chiefly by the peculiar arrangement of the toes, of which two are directed forward and two backward. This enables them to climb trees with great facility. Let pupils name and describe any birds in the country around which belong to this Order. Also describe those repre- sented on the Chart. Give poetry, etc. See Fourth Read- er, page 133-140. Fourth Order. Scratchers. These birds, Avhich include our common fowls, are so named in allusion to the habit of scratching in the ground in search of food. They have generally small heads and stout legs, and the males are usually adorned with mag- nificent colors. The wings are usually short and Aveak, and the flight of the birds is neither powerful nor prolong- ed. Let pupils name and describe as many of the birds of this Order as they can, including common fowls of diflfer- ent varieties — turkeys, peacocks, partridges, quails, etc. See Fourth Reader, page 140. Sub-order: Doves. — By some the doves are included with the Scratchers. In internal structure, however, they differ somewhat from them ; their wings are also usual- ly longer and wider, and their flight rapid and long-contin- ued. In their mode of drinking they differ from all oth- er birds ; for, instead of taking up a small quantity of wa- ter in the mouth, and then swallowing it by raising the head, they immerse the bill in water, and drink without stopping until they are satisfied. Let pupils name and de- FOR OBJECT LESSONS. 173 scribe birds which belong to this division. Poetry, etc. See Fourth Reader, page 143-140. Fifth Order. Runners. For description, see Fourth Reader, page 146-149. Let the pupil name and describe birds of this Order, as befoi*e directed. Sixth Order. Waders. For description, see Fourth Reader, page 149-154. Let the pupils name and describe birds of this Order which he has seen ; also others represented on the Chart. Poetry, etc. Seventh Order. Swimmers. These birds are characterized by the peculiar structure of their feet, which are furnished with webs between the toes to adapt them to swimming. Let the pupil describe as many species of this Order as he can, and tell wherein they differ from each other — such as ducks, geese, swans, divers or loons, etc. See Fourth Reader, page 154. Compositions. — After the pupils have gone over each division or group on the Chai't, the same may be assigned to them as subjects for compositions. Thus the first Or- der would furnish three subjects for compositions, the sec- ond Order four, etc. CHART No. XVIII. ZQQUd^^Y— continued. Third Class of the Vertebrates : Reptiles. The Reptiles, with the exception of a few tortoises, are carnivorous animals. They have a slow circulation ; their blood is said to be cold — that is, it is but little above the temperature of the surrounding medium, whether air or water, in which they live ; their movements are generally slow, crawling or swimming ; their habits are sluggish ; their sensations obtuse ; and, in cold or temperate climates, they pass nearly the whole Avinter in a state of lethargy. 174 MANUAL OF INFORMATION For a more full, general description, see Fifth Reader, page 51-54. They have been divided by most naturalists into four orders : Chelonians, or Turtles ; Saurians, or Lizard Rep- tiles ; Ophidians, or Serpents ; and Amphibians, or Batrach- ians. First Order. Chelonians, or Turtles. First Division. — Land, Maksh, and River Tortoises. — Let pupils name and describe such of these as they have seen, the common mud-turtles, and jDrobably some others. Also those represented on the Chart, telling size, color, habits, etc. See Fifth Reader, pages 57, 58. Second Division. — Marine and River Turtles. — Let pupils name and describe these also. Have they seen any of them ? Have they eaten turtle-soup ? etc. See Fifth Reader, pages 59, 60. Second Order. Saurians, or Lizard-Reptiles. First Division. — The Lizard Group. — Let pupils name and describe such of these as they have seen, if any. Also those represented on the Chart, telling size, color, habits, etc. See Fifth Reader, page 61-64. Second Division. — The Crocodile Group. — What are the principal families in this group ? Name and describe them : incidents, anecdotes, poetry, etc. See Fifth Read- er, page 64-68. Third Order. Ophidians, or Serpents. What species are represented on the Chart ? Describe each. HoAV many kinds or species of serpents that you have seen can you name ? How many species are found in New York and the New England states ? Li Britain ? In Ireland ? Give Avhat farther account you can of the ser- pents ; anecdotes, incidents, poetry, etc. See Fifth Read- er, page 68-72. FOR OBJECT LESSONS.- 175 Fourth Order. Amphibians, or Batrachians. What are the principal groups of the Amphibians? Frogs, Toads, Salamanders, and Sirens. What is it that gives these animals their chief interest? The curious chano-es which most of them undergo — from the character of fishes in their infancy, when they breathe by means of gills, to the nature and habits of true reptiles at a later pe- riod, when they breathe by means of lungs. Did you ever see tadpoles or pollhoogs ? Describe them. Do you know what they become as they grow older? Did you ever Avatch these changes ? It might be interesting for you to take a young poUiwog, confine it in an artificial pond, and see what changes it passes through. Describe the Am- phibians represented on the Chart. See Fifth Reader, page 72-74. Compositions, — Let pupils write compositions about the Reptiles, one composition for each Order; and after that let them embrace the whole in one composition. Let them write as much as they can of what tliey themselves have seen. Fourth Class of Vertebrates : Fishes. How many kinds or species of fish can each one mention that he has seen ? Write do-svn their names. How many of these can each one describe ? Describe the diflerent Jins of a fish. See Fifth Reader, page 227. What are the three great leading Orders of Fishes ? 1st. Spine-rayed bony fishes ; 2d. Soft-rayed bony fishes ; 3d. Cartilaginous fishes. Very different systems for the classification of fishes have been adopted by different wri- ters. See the classification given by Agassiz, Fifth Read- er, page 227. First Order. Spine-rayed Bony Fishes. What is the largest and leading family, or group, in this Order ? The Perches. What species of this group Iiave you seen ? Describe as many of them as you can, as to 176 iFANL^ATi OF INf'OIlMATION size, color, habit, where found, etc. Mention other groups or families of this Order. Gurnards, Breams, Maigres, Scaly-fins, Mackerel, Gobies, and Blennies. Tell what you can of each group : description, incidents, anecdotes, poet- ry, etc. See Fifth Reader, page 228-242. Second Order. Soft-rayed Bony Fislies. First Division. — Fishes with Abdominal Ventral Fins. — The fishes of this division have ventral fins attach- ed to the abdomen, behind the pectoral fins. What are the leading groups or families in this division ? The Carp, Pike, Cat-fish, Salmon and Trout, and Herring and Pilchard families. What can you tell about the carp family? and what kinds of fish do they embrace ? About the pike fam- ily ? The cat-fish ? The salmon and trout ? The herring and pilchard family ? In Avhat family is the common shad found ? See Fifth Reader, page 242-251. Second Division. — Fishes with Ventral Fins beneath THE Pectorals. — What are the principal groups or fami- lies in this division ? The Cod, the Flat-fish, and the salt- Avater Suckers. Name some of the fish included in the cod family. What can you say of the cod-fish ? Describe the flat-fish, and name some of the species. The salt-water suckers. See Fifth Reader, page 251-256. Third Division. — The Eel Family. — These are some- times called the Apodal division, or " footless" division, be- cause they are without ventral fins ; and the fins in fish are supposed to take the place of feet in the mammalia and rep- tiles, and of wings in birds. Let pupils tell what species or kinds of eels they have seen. Describe those represent- ed on the Chart. See Fifth Reader, page 25G-258. Fourth Division. — Fishes with Tufted Gills. — The fishes of this division are characterized by having the gills in small tufts, instead of being comb-like. Here are found the Pipe-fishes, and that curious fish, the Hippocampus, or Hudson River Sea-horse. Describe them. All the fishes of this division have the body covered with angular, bony plates, so that the body is many-sided. See, also. Fifth Reader, pnges 258, 259. FOR OBJECT LESSO^S'S. 177 Fifth Division. — Fishes with Soldered Jaws. — These fishes are distinguished by a jjeculiarity in having certain bones of the head firmly united, while in other fishes they are separate. They embrace those peculiar fishes, the Bal- loon and Globe fishes. Describe them. See Fifth Reader, page 259. Third Order. Cartilaginous Fishes. The fishes of this order have their skeletons of cartilage, instead of bone. They embrace the Shark, Sturgeon, Chi- msera, Ray, and Lamprey groups, or families. Describe the sharks. The sturgeons. The chimasras. The rays. The lampreys. See Fifth Reader, page 260-267. Now let pupils recapitulate what they have been over ; naming the orders, and their divisions, and pointing them out on the Chart. Describe the Aquarium • the principles on Avhich fish and plants live in it, etc. See Fifth Reader, page 268-271. Compositions. — See the suggestions for compositions about Reptiles. Also, let thera write upon the subject of the Aquarium. CHART No. XIX. BOTANICAL. Forms of Leaves^ Stems, Hoots, and Floxoers. Chart No. XIX. exhibits some of the prominent forms which vegetation assumes. Its study Avill be found well adapted to cultivate in children the powers of observation, as it will present to them numerous but common peculiari- ties in the outward forms of plants Avhich may hitherto have escaped their notice. It will lead them to compare, and contrast, and to notice differences where before they had not observed them ; and it Avill prepare them to de- scribe plants in intelligible language, and to understand the descriptions of others. Moreovei*, the forms here il- lustrated are not only common things which Nature has lavishly spread before us to please the eye, and to cultivate H2 178 MANUAL OF INFORMATION a taste for harmonious variety, but they are such as must constitute, from the very nature of things, the only true and proper introduction to the study of descriptive Bot- any. If children were taught to notice and carefully ex- amine whatever is presented to the eye, and were supplied with words for the ideas thus obtained, they would be found far advanced in science long before the time when they are usually thought fitted to enter upon its study. But the truth is, a very great part of science is such a knowledge of common things as children are delighted to become familiar with, and which they acquire with the greatest ease in the natural and healthful exercise of their faculties. Children of any age may study the forms here present- ed, and understand them ; but while studying them they should be presented, by the teacher, Avith the real objects from nature, that they may readily associate the represent- ation with the reality ; and when the forms have thus be- come familiar to them, they should be accustomed to illus- trate them by similarly-shaped leaves, stems, flowers, etc., gathered by themselves. Children will be found to take a great interest in these forms of the vegetable world, which will supply them with an infinite variety of objects for that cultivation of the perceptive faculties which lies at the basis of all sound and truly practical education. In going over the exercises on this Chart, pupils should describe the forms of the leaves, roots, flowers, etc., and tell Avherein those that are somewhat similar really differ from each other, before theij are supplied loith the words lohich designate these differences. After having experienced the need of such words, they will be the more likely to remem- ber them. This is also in the true order of Nature's teach- ings ; first, the ideas, and then the words to represent them. I. General Forms and Arrangement of Leaves. [Specimens of net-veined leaves, with and without leaf-stalks, and stip '-files.] At A, on the Chart, are shown the parts of a complete net-veined leaf. The leaf part pi'oper is called the Lamina., FOR OBJECT LESSONS. 179 or Blade / the end, tip, or point of the leaf is called the d'-pex ; the middle vein the midrib ^ the branches from it are called veins / and the little branches from the latter, veinlets. These veinlets subdivide again and again, imtil they become so small as to be invisible to the naked eye. Through the fibres of the veins, veinlets, etc., the sap is carried to every part of the leaf. The Pet'-i-ole is the leaf- stalk, connecting the leaf with the branch or stem. Some leaves have long pet'-i-oles, some short, and some have none. Those which have none are said to be ses'-s'ile, or " seated." The stip'-tdes are two little leaves sometimes found at the base of the pet'-i-ole. See Weeping "Willow. Pupils should make drawings of the leaf, as shown at A, and write or print the names of the several j^arts. The leaves brought in as specimens should also be examined by the pupils, and their several parts and appendages j^ointed out and named by them. No. 1. A Lin'-e-ar leaf is narrow, several times longer than wide, and with the sides nearly parallel. Examples : Saifron, Tuberose, Hemlock, Balsam Fir. Let pupils bring in samples for illustration, in every case, if possible. No. 2. Lan' -ce-odate^ or " lance-shaped," is long and ta- pering, as the Weeping AYillow. No. 3. Eldip' 4i-ccd^ is oval-shaped, twice or thrice as long as broad, and with the two ends alike in Avidth. How does it difter from the lan'-ce-o-late leaf? From the o'-vate leaf? No. 4. O'-vdte^ or " egg-shaped," with the broader end downward. China Aster, Flowering Almond, Water Plan- tain. No. 5. Ohdan' -ce-odate, the same as lan'-ce-o-late, except that the tapering end is at the base instead of the apex. No. 6. Ob-o'-vate., the' same as ovate, except that the nar- rower end is downward. White Coxcomb, Smooth Alder, Daisy. No. 7. 'Cu'-ne-dte^ or " Avedge-shaped," tapering down- w.ard to a point, by nearly straight lines, like a Avedge. No. 8. Sag'-it-tate^ or '' arrow-shaped," tapering upAvard \ 180 MANUAL OF INFORMATION to a point with the base two-pointed downward. See most of the species of Sagittavia, or Arrowhead, also Field Bind- weed. No. 9. Au-rlc'-u-late, or "eared," having two blunt pro- jections, or ears, at the base. Ex. Sage ; one species of the Magnolia. No. 10. Has'-tate, or " spear-shaped," with spreading and pointed lobes or projections at the base. Ex. The upper leaves of Bittersweet ; Sweet Potato. No. 11. This is a common form of the o'-vate leaf. This is 2>ointed at the apex ; the other (No. 4) is rounded. Pu- pils can easily find leaves of this form. No. 12. Cord' -ate, or "heart-shaped," having the base strongly notched or rounded in to a point, where the pet'- i-ole or leaf-stalk is attached. Ex. Lilac, Sunflower, Morn- ing-glory, Catalpa. Those Avhich are only partially cordate, as the leaves of the black walnut, sugar-maple, red maple, and apricot, are called si<&-cordate. Oh-cord'-ate is in- versely heart-shaped, that is, having the strong notch at the apex instead of the base. Ex. Catnip, leaflets of Wood- sorrel. l^o.l^. Hen' -i-form, or "kidney-shaped," like the cord- ate leaf, but rounder, and broader than long. Ex. White Snake-root, or Wild Ginger [Asariun Caiiadense), and Blood-root. No. 14. Pelt' -ate, or " shield-shaped," generally roundish, or orbicular, and having the leaf-stalk attached near the centre of the lower surface of the leaf, instead of the base. Ex. Nasturtion, Mandrake, Water-shiekb or Water-target (Brasenia peltatd). Sacred-bean {Nelumhimn luteimi), Cas- tor-oil Plant. No. 15. Lobed and sin'-u-ate, a leaf having rounded in- Cisiojis extending about half Avay from the margin to the midrib. The parts separated by the incisions are called lobes. Ex. Post-oak. The separated parts in the cleft and parted\ea,ves (Nos. 16 and 17) are also called lobes. No. 16 Cleft, when the incisions extend half way down or more, and are sharp. Ex. several species of Oak. The FOR OBJECT LESSONS. 181 radish leaf, which is cleft, is called lyrate, because the end lobe is largest and rounded. No. 17. Parted, when the incisions nearly reach the mid- rib, or the base of the blade, as in No. 28. No. 18. Divided, when the incisions extend quite to the midrib, or to the leaf-stalk, as in No. 29. No. 19. Pin'-nate, or "feathered," having little leaves, called leaflets, arranged on the sides of a main leaf-stalk, in the form of a feather. These are compound leaves, and some of them have an odd leaflet at the apex, some have a tendril there, and some have neither. Ex. Senna, Locust, Rose, Pea, Parsnip. Sometimes the little leaflets them- selves become pinnate ; and the whole may be twice-pin- nate, thrice-pinnate, etc. In the Honey-locust we some- times see the pinnate, bi-pinnate, and tri-pinnate leaves cu- riously combined. Children may find abundant examples of these pinnate leaves, which they should compare, and tell wherein they difler. Ex. Bladder-senna. No. 20. Pal' -mate, or dig'-it-ate, are those in which the leaflets, borne on the very tip of the leaf-stalk, are separa- ted by deep divisions so as to represent the pahn of the hand with the fingers. A palmate leaf is, properly, ^five- fingered leaf, as in the Ohio Buck-eye {^sculus glahxi) ; but the term is also applied to a leaf with any number of divisions. Some Lupines have nine or eleven leaflets, the Horse-chestnut has seven, the Clover three. Monkshood three to five, Hemp five to seven. No. 21. Per-fo' -U-ate leaves are those in which the stem appears to run through the blade of the leaf near one end, as in the Bellwort {Uvidaria 'perfoUaUi). Generally the upper leaves become less and less perfoliate. In some spe- cies of the Solomon's Seal the leaves are clasping around the stem, having at first sight the appearance of being per- foliate. See, also. Opium Poppy. No. 22. Connate-per-fo-li-ate, or doubly perfoliate leaves, are those in which the broad bases of opposite leaves are grown together, so as to represent one round leaf with the stem running through its centre. Ex. The true Honey- suckles. 182 MANUAL OF INFORMATION" No. 23. jEq'-ui-taM^ or straddling^ in which each outer leaf covers the next inner one, hke the leaves of the Iris, or Flower-de-luce. It was from their straddling over each other, like a man on horseback, that the botanist Linnaeus gave them this name. No. 24. Whorled, when there are three or more leaves in a circle or v^liorl, on one joint of the stem. Ex. Red Lily. No. 25. 6*^9/:)0S2'^e, when there is a pai)' of leaves on each joint of the stem, and one is directly opposite the other. Leaves are alternate when only a single leaf appears at each joint ; and in this case the leaves are really arranged in a spiral form around the stem. Nos.26, 27, 28, 29. Three-lobed, Three-deft, Three-jKirted, and Three-divided. These have also the 2^(^drnate form, because the incisions all point to the summit of the leaf- stalk, or base of the leaf, like the fingers of the hand. Those directly above them on the Chart have the pinnate, or feathered form, because the incisions all point toward the midrib, and are therefore similar to a feather in their arrangement. The Red or Soft Maple, and the Sugar-ma- ple have the leaves ]ia\mate,Jive-lobed, and cordate, or sub- cordate, at the base. Spelling. — 1st. The younger pupils, after examining these forms of leaves on the Chart, and noticing their names, may form these names on the frame, with the Type Letter-cards. 2d. Others may write or print them on their slates, or on the blackboard. 3d. These words may also be used for a regular spelling lesson ; the pupils now being required to define them, hav- ing already obtained ideas of their true meaning.* Drawing. — 1st. These forms of leaves Avill furnish good * The practice of requiring:; pupils to spell and define long lists of words, of wiiose meaning and use they are otherwise ignorant, we regard as an inversion of the order of Nature, by placing icords before ideas, and hence opposed to the " development" or "object" method of instruc- tion. We doubt if it is ever desirable, even for advanced students, to learn the meaning of words before there is anv occasion for their use. FOR OBJECT LESSONS, 183 drawing exercises for the younger pupils, while the prac- tice of copying them will do much to fix their outlines in the memory. See page 53. 2d. After a pupil has made drawings of these from the Chart, lie should draw from Nature, selecting similarly formed leaves for his copies. Composition. — Let the pupils write compositions under this head, describing the general forms and arrangement of leaves, and, in particular, describing leaves which they themselves have obtained — where they obtained them, the kind of tree, incidents, etc. II. Forms of the Margins of Leaves. [Leaves to illustrate these forms should be bioiiglit in by the pupils.] Those leaves which have their general outline completely filled out, so that their margin is an even line, as in Nos. 1, 3, 4, 5, 6, etc., are said to he entire. Ex. Quince, Lilac, Lily. No. 30. Ser'-rate, or "saw-toothed," is when the margin is cut into sharp teeth, like those of a saw, and pointing fonoavd. Ex. Thorn, Apple, Pear, Peach, Almond, Hemp, Hickory, many of the roses, etc. No. 31. Dent' -ate., or "toothed," when the teeth point outvmrd instead of forward : as in the Red Beech, Avhere they are coarsely toothed, and in the White Beech, where they are slightly toothed. See, also, Witch-hazel, Hore- hound. Hydrangea, Primrose, etc. If tlie teeth are \0cj fine the margin is said to be den-tic' -ii-late., as in the Pump- kin, Gourd, Squash, Cardinal-flower. If the teeth are them- selves toothed, it is doxibly dentate. No. 32. Cre'-nate, or " scalloped," when the teeth are broad and rounded. The margin of No. 14 is slightly cre- nate. Ex. Hollyhock, Daisy, Cowslip, Scarlet Geranium. When the notches are very small, it is called cren'-u-late. No, 33. Re-pand'., undxdate., or xoavy., when the margin forms a wavy line, bending slightly inward and outAvard. Ex. Deadly Nightshade. No. 34. Sin'-n-dte, or " deep-curved," having deep round- ed openings, as seen in the leaves of the W^hite Oak. 184 MANUAL OF INFORMATION No. 35. In-cis'ed, " cut," or "jagged," when the margin is divided, often irregularly, by deep and sharp incisions. [Spelling, drawing, and compositions, as before directed.] III. Forms of the Apexes, or Ends of Leaves. [Tliese should be illustrated by specimens.] a. Acu'-mi)i-ate, when the apex is prolonged into a nar- rowed or tapering point. b. A-ct(te\ w hen the apex is an acute angle merely — less tapering than the other. c. Ob-tuse\ when the apex is blunt or rounded. d. Trun' -cate^ when the apex appears as if cut off square. Ex. Tulip-tree. e. E-mar' -gin-ate, having a small notch at the end. f. Ob-cord' -ate, inversely heart-shape, so as to resemble a cordate leaf (No. 12) inverted. g. Cusji -i-date, tipped with ji sharp and rigid point. h. Mu' -cro-nate, very abruptly tipped with a short point. Ex. Wild Senna, Balsam Fir, Willow Oak. Yarro^o has the marginal divisions linear, toothed, and mucronate. 17. Curiosities of Leaves. For the pitcher-shaped leaves and their uses, and the leaves of the Venus's Fly-trap, see Fourth Reader, })agcs 194, 195. For the magnified section of a leaf — the breath- ing, pores, etc. — see page 193. There are two strata or layers of veins in a leaf, the one belonging to the ujiper, and the other to the under surface. The veins of the up- per stratum convey the sap from the stem (see Fourth Reader, page 181) into the blade of the leaf, for the pur- pose of having it there brought in contact with the air, and formed into the different materials which are required in the growth and nourishment of the tree ; and the veins of the lower stratum convey the sap into the harJc, through which it is carried wherever needed. If the leaves of a tree be stripped off, so that this process of suitably j:)?vj5a?'- ing the nourishment can not be carried on, the tree will soon starve to death. On this subject the teacher should read the lesson on "Cell Life," Fourth Reader, page 178, FOR OBJECT LESSONS. 185 V. Frequent Forms of the Stems of Plants. [Let pupils bring iu as many varieties of these forms as possible.] All these forms of the stems of plants exist in nature ; but it will perhaps be sufficient for pupils to learn their names as they tincl similar stems, and compare them with the figures here given. When a stem rises vertically, it is said to be erect. When it grows horizontally upon the surface, it is said to he procumbent, C7'eepin(/, trailmg, etc. A stem is climbing, or scandent, when it rises by clinging to other objects for support — whether by tendrils, as do the pea and grape- vine, by their tioining leaf-stcdks, like the morning-glory, or by rootlets, like the ivy. The stem, like the root, is a7i- mial, when it lasts but one season. An annualjierb flowers in the first year, and dies, root and all, after ripening its seed. Ex. Mustard, Buckwheat, etc., and a great variety of flowering plants. A biennial herb grows the first season without blossom- ing, survives the Avinter, flowers and ripens its seed the second season, and then dies, root and all. Ex. Turnip, Carrot, Beet, Cabbage, etc. A perennial herb lives and blossoms year after year, but dies down to the ground, or near it, annually. A stem is said to be herbaceous when it dies down to the ground every year. All trees, herbs, shrubs, etc., are called plants, in botan- ical language. A shrub is a small i^erennial plant, having a woody stem which divides into branches at or near the ground. A tree is a larger perennial plant than a shrub, with a woody stem, or ti'unk, which does not divide into branches near the ground.* * On this subject of the "Stems of Plants," see Fourth Reader, page 18G-191 ; Gray's " How Plants Grow," pages 5, 23, 27 ; Gray's Lessons in Botany, pages 21, ZG, 37; Wood's Botany, page 30-41, etc.; and Lindley's Elements, page 20, from which our diagrams are taken. 186 .MANUAL OF INFOKMATIOJST VI. Forms of the Roots of Plants. Fig. 1. A sprouting seed. See Fourth Reader, page 183. Fig. 2. A sjjroutiug seed — the corn — farther advanced, with a single rootlet. Fig. 3. The sprouting corn still farther advanced, having a cluster o{ fibrous or thread-like roots. Fig. 4. A seedling of the maple, natural size. At a is shown the tip or end of the root magnified. Fig. 5. A tu'-ber-oiis root. A tuber is defined to be a " thickened portion of a root&tockr Botanists, therefore, call the tuber of the potato a part of the subterranean or imderground stem of the plant. Tliis i)art of the stem is provided with buds called eyes., from which new plants arise the succeeding year. Fig. G. A cbn'-ic-al root is one tliat thickejis most at or near the crown, and tapers regularly downward to a point, as in the common beet, parsnip, and carrot. Fig. v. A txirmp-sliaped^ or nd' pi-form root, is one that is very much thickened above, and abruptly slender below. Fig. 8. A S2nnclle-shaped, ov fu' -si-form root, is thickest at the middle, and tapering at both ends. Ex. Radish. Fig. 9. The clustered tuberous roots of the dahlia. Fig. 10. The cor^n, or solid bulb., though commonly con- sidered a root, is merely a short and thick rootstock. These rootstocks grow more in width than in length, and send out buds or bi;lblets, which in time grow into new bulbs at the expense of the old one. The real roots of these bulbs, or rootstocks branch out below them. Ex. Crocus, Tulip, Hy- acinth, Leek, Onion, Indian Turnip. Fig. 11. A runner is a slender and prostrate branch, rooting at the end, or at the joints. Ex. Strawberry. VII. Forms of Flowers. [Flowers to illustrate all of these forms can usually be obtained in the summer season.] Fig. 1. Sal' -ver-shcqyed^ (sav'-er-shiipt), having a slender tube which spreads suddenly into a flat border, as in the phlox and cypress vine. ' The botanical term is luj-po-ci-a-ter'-i-form. FOR OBJECT LESSONS. 187 Fig. 2. Wheel-shaped, or ro'-tate, same as sar-ver-shaped, except that there is no tube, or ouly a very short one. Ex. Potato, Bittersweet. Eig. 3. Fan' -nel-shaped,'^ shaped like a funnel, or tunnel; when the tube opens gradually into a swelling border. Ex. Tobacco, Morning-glory. Fig. 4. Bell-shaped,^ when the tube is Avide for its length, and the border a little spreading, like a bell. Ex. Canter- bury Bell, Harebell. Fig. 5. Cross-shaped^ consisting of four petals" spread- ing at right aiigles to each other. This is a large class of flowers. Ex. Mustard, Radish, Sweet Alyssum, Candy-tuft, Water-cress, Rocket, Wall-flower, Stock, Cabbage, Turnip. Fig. 6. Pink-shaped,'^ a co-rol'-la'' consisting of petals, each having a long claw inserted in a tubular calyx." Fig. 1. Lily-shaped,^ like the lily, consisting of six parts, each gradually bending outward, so as to resemble the " bell-shaped." (In the bell-shaped the corolla is entire, or mon-o-pet-al-ous — of one petal : in the lily-shaped it con- ,sists of several petals.) Ex. Lily, Tulip, Crown Imperial. Fig. 8. Butter fly -shaped,^ a curiously-shaped co-rol'-la of five dissimilar petals, which has been likened to a butter- fly ; but the resemblance is not very obvious. At b is an- other of the same kind, but a little differently shaped. Ex. Pea, Bean, Locust, Vetch, etc. A large class of plants. Fig. 9. Lip-shaped,' having the co-rol'-la deeply cleft into two irregular parts called lips. Ex. Catnip, Sage, Horse- mint, Snapdragon, Toad-flax, Monkey-flower, etc. If the lips are widely separated they are said to be rin'-gent, or " grinning," as in the monkey-flower ; if they are pressed together they are said to be per'-son-fite, or " masked," as in the snapdragon. Fig. 10. T'ti'-iu-^ar, or trumpet-shaped, when simply form- ' In-fun-dih' -ti-li-form. - Cam-pan' -u-late. ^ Cm' -ci-form. * Car-y-o-phyl-Ia -ceons. ^ Lil-i-a'-cemts. ^ Pa-pil-io-na -ceous, ' Ld'-hi-ate. * *"= The teacher should by this time explain what is meant by p6t'- als, co-rul'-la, and ca'-Iyx. See Fourth Eeader, pages 218, 219. 188 MANUAL OF INFORMATION ing a tube in the shape of a trumpet, without the swelling border which characterizes the funnel-shaped corolla. Ex. Trumpet-creeper, Trumpet-honeysuckle, the Bignonias. VIII. Forms of Flower Stems. [Specimens of as many of the following tiower-clusters as can be obtained sliould be provided for the examination of the pupils.] Fig. 1. A ra-ceme' is a flower-cluster with single-flower- ed flower-stalks% arranged along the sides of a general flower-stem\ Ex. Currant, Lily of the Valley, Choke-chei-- ry. Barberry, Shepherd's Purse, Hyacinth. A raceme whose flower-stalks branch into additional flower-stems, is called Oi 2>cm' -i-cle. Ex. Oats, Chess, most of the grasses. Fig. 2. The cur'-ymb is a flower-cluster in which the flower-stalks originate at difierent points along the main stem, and elevate all the flowers to about the same height. Ex. Wild Thorn, Hawthorn. Fig. 3. A S2nke is a flowei'-cluster like a ra-ccme', except that the flowers are ses'-sile — that is, have no stems or pecV- i-cels. They are seated along the main flower-stem. Ex. Mullein, Plantain. Fig. 4 is a sjnke also, in Avhich the ses'-sile flowers are more conspicuous ; but the arrangement is the same in both. Fig. 5. A cat'-Tcin^ or dm'-ent, is a spike, each of Avhose flowers is covered with a scaly leaf or hract, as in the Wil- loAV, Poplar, and Birch. Fig. 6. An tim'-hel is a flower-cluster whose flower- stalks, or ped'-i-cels, of nearly equal length, spring from the same, or nearly the same, point, so as to resemble, when spreading, the rays of an umbrella, whence the name. When the ped'-i-cels branch out at the top, so that each becomes the support of a smaller um'-bel, these smaller uni'-bels are called iun' -hel-lUs, and the whole a compound um'-bel. Ex. Carrot, Parsnip, Cicuta, Celery, Caraway, Onion, Milkweed, Primrose, Fennel, Sweet Cicely, Corian- =» These single-flowered stalks are called ped'-i-cels. ^ This general flower-stem is called a pe-dun'-cle. FOR OBJECT LESSONS. 189 der. (Let the pupil examine these, and tell which are sim- ple and which are compound umbels.) Fig. Y. The um'-bel of the Carrot. Fig. 8. The um'-bel (slightly irregular) of the English Cowslip. CHAET No. XX. BOTANICAL : THE CLASSI- FICATION OF PLANTS. We have already given, in connection with Chart No. XIX., representations and desci'iptions of the forms of leaves, stems, roots, and flowers — of the latter, however, only as respects the general forms of their pUals or flower- leaves. It is now desirable for pupils to carry the " ob- ject" system of investigation in plants still farther, by a more minute examination of the several parts which com- pose a complete flower, as a knowledge of these parts is required before they can understand either of the leading systems which have been adopted in the classification of plants. In no other department of science can the " ob- ject" or Development system of instruction be carried out more satisfactorily than in the study of the Vegetable Kingdom ; and this study, as here directed to be pursued, will be worth all the time devoted to it for the mere culti- vation of the perceptive faculties alone. We have selected, on the Chart, for an illustration of the several parts of a complete flower, a species of the Evening Primrose {(Eiiothera fruticosa)^ as it has a flow- er complete in all its parts, and is found growing wild, in sterile soils, from New England and the Western states to the Gulf of Mexico. Several species of the common Prim- rose [CEnothera biennis) are cultivated in gardens, as an annual, flowering from June to August ; and these also may be used for illustration, as they do not differ in im- portant particulars from the one we have selected. As many of them, however, blossom in the evening and wither the next day, they should be gathered for examination ear- 190 MANUAL OF INFORMATION ly in the morning. Each pupil should have, if possible, a flower of the primrose to examine, while also referring to the illustration on the Chart. If the primrose can not be obtained, take some other flower, even if the petals, sta- mens, and pistils are not the same in number as in the primrose. Calyx. — In the Primrose there is a green calyx., or cup., which incloses the yellow flower-leaves. This calyx is foui--cleft. Where the calyx has several separate leaves, each is called a sepal.* On the Chart the calyx is repre- sented as divided into four green sep'-als, which are turn- ed down. In the primrose the calyx early falls off", and is therefore said to be deciduous. Let pupils examine flow- ers, and point out the calyx, and tell Avhether it is entire, or cleft, or composed of several separate sepals. In a few flowers there is no calyx, as in the Tulij), Lily, Adder- tongue, Tuberose, and Hyacinth. Petals. — The primrose has four yellow pet'-als or flower leaves. These are seen on the Chart, at the left, most of the green calyx having been taken oft' to show the petals the better. Let the pupils take oflf the petals, one by one, from the real flower. Within these petals are seen other organs. Let pupils examine other flowers, and see wheth- er the corolla (flower) is entire, or consists of several pet- als. Stamens. — In the stalk represented on the right the ca- lyx is turned down, and the petals are removed, so as to present a better view of the central organs of the flower. Here are eight slender stalks orfilaments, each of which has at its summit a little knob called an anther. The an- ther and filament taken together constitute what is called the stamen. A stamen, enlarged, is shown at the extreme left of the flower. It will hereafter be seen that the num- * Webster prefers the pronunciation s6p'-al, Worcester se'-pal. In like manner lexicographers differ as to the pronunciation of petal, some giving p6t'-al, and others pe'-tal. We prefer both sCp'-al and pSt'-al, because the compounds are invariably pronounced with the short sound of the vowel — mon-o-s6p'-al-ous, pol-y-pgt'-al-ous, etc. / FOR OBJECT LESSONS. 191 ber of stamens varies greatly in difterent j^lants. Let pu- pils examine flowers of diti'erent plants, and comit their stamens. Pistils. — It will be noticed that within the stamens of the primrose is a central and stouter stalls, having its summit four-cleft. This is called the j^istil. The top of it is called the stigma, and the slender stalk which supports it is call- ed the sti/le. In the case of the primrose this style extends down below the calyx, through the stalk of the plant, to the vessel or pod which contains the seeds. The seed-vessel or ovary, the style, and the stigma all make up the pistil, as is shown in the separate figure of the pistil on the Chart. The number of pistils difters in difterent orders of plants. Under the head of the several Linnasan classes, on the Chart, we have generally presented but o?ie pistil to each class, in order to make the distinction plainer between jDistils and stamens. The ovary or seed-vessel is in most plants within the ca- lyx, at the bottom of the flower. It is sometimes only one- celled, and sometimes many-celled, to correspond with the number of styles. The top of the stfm^en, called the anther, is almost always yellow, and contains a fine yellow powder, called pollen. The little grains of the pollen, when magnified, present dif- ferent forms in different plants. A representation of the magnified pollen of the primrose is shown on the Chart. (For a farther account of the several parts of the flower, see Fourth Reader, pages 217-220, 223, 224.) I. THE LINN^AN SYSTEM OF CLASSIFICATION. In the system of classification of plants adopted by the cel- ebrated Swedish botanist Linnceus, the classes are found- ed upon the circumstances of the number, position, relative length, and union of the stamens. These classes are then subdivided into orders. The orders of the first 12 classes are determined by the number of styles (or stigmas when the styles are wanting) ; of the 13th class, by the covering or nakedness of the seeds; of the 14th, by the shape of the 192 MANUAL OF INFORMATION pods ; of the 15th, 16th, 18th, 19th, and 20th, by the num- ber or union of the stamens; of the 1 7th, by pecuUarities in ihe florets of the compound flowers. The classes only, and not the orders, are represented on the Chart. Although the Linnajan system has now, in great part, given place to the natural method /or the classification of plants, yet every botanist must understand all the several parts and all the characteristics of plants, Avhich the Lin- nrean system so beautifully i;nfolds ; and in no way can they be better learned than by going through the Linnaean system in regular order, where the materials are at hand for that purpose. Moreover, for the great ends of "object" teaching — the formation of habits of .close observation, nice disci'imination, and searching analysis — the Linntean sys- tem of studying plants is invaluable. It is also the jiroper introduction to those grander beauties and harmonies of the vegetable world which are unfolded in the natural method of classification. Pupils should commence the study of the several pai'ts of flowers with the Chart before them, and with the real flowers also, and both should be made use of by the teach- er for illustration. It is not necessary to take up the Lin- naean classes in order j but the teacher should commence with such classes as he can obtain flowers to illustrate. By proceeding in this manner he may be able to go over most of the classes in one summei*. The teacher should not ob- ject to introducing his pupils to this study because he him- self may know nothing of botany ; for the course pursued here is one of observation merely, and not of dictation : it is to be expected that he can observe, and remember, and learn as well as his pupils ; and where ^e thus goes along with them in their studies, he may perhaps be the better enabled to stimulate their zeal and secure their confidence. He may perhaps be so ignorant of flowers as to know but very few of those whose common names we have given ; but as in every neighborhood, and especially in the coun- try, some flowers are cultivated, and some wild flowers are so common that every body knows them, the pupils will be FOR OBJECT LESSONS. 193 likely to bring m a considerable number of such as may be easily referred, by their names only, to their respective classes. With such the study can be commenced ; and once commenced in childhood, it will be apt to be continued through life. Class I.* One Stamen. — To illustrate this class obtain, if possible, specimens of some of the following plants in blossom : arrow-root, gin- ger, water chickweed or starwort, blite, samphire, tick-seed. Some of these have one pistil, and belong to the first order in this class ; others have two pistils, and, consequently, belong to the second order. Plants of this class are not numerous. On the Chart the stamens are colored yellow ; the pistils have a darker, or orange color. Both pistils and stamens of plants in the same class differ much in form, and a variety of these forms is given on the Chart. The anthers of stamens difter much in shape; and sometimes a pistil has no apparent stigma, and sometimes it has a stigma only, and no style. Whatever plants the pupils bring in as specimens, let them examine and describe, first, the calyx, and tell whether it is entire or merely cleft, or whether it consists of many sqxils ; .2d, let them describe the corolla (or flower), and tell whether it is entire, or consists of several 2?ttals. Class II. Tivo Stamens. — It will be easy to obtain specimens of this class: such as lilac, catalpa, sage, jessamine, fringe-tree, rosemarj', American olive, speedwell, horse-balm, prim, etc. All those mentioned are of the first order — that is, have only one pistil. The figure on the Chart represents the pistil coming up between the stamens. This is be- cause the stalk of the plant is cut away below the bottom of the flower. The pistils and stamens are not united. Call the attention of pupils to the fact that all the flowers which we have mentioned in the second class are one-pet- aled ; and also let them see that the petals are inserted at the very base of the pistil, and helow the ovary. Petals thus situated are spoken of as being inferior.\ These * The first twelve classes are named by prefixing Greek numerals to andria, a Greek derivative used metaphorically for stamens. Although these names are given on the Chart, it is not necessary, nor desirable, that young pupils should learn them at present. It is suiRcient for them now merely to name the classes, by numbers, and tell their character- istics, leaving the Greek names of the classes and orders to be learned at a later period in their studies, if they should then find it desirable. t By some the Greek word hy-pog'-y-nous (g soft) is used, from hu'jio, "under," and ^M'?(e, "pistil" — "under the ])istil." I 194 MANUAL OF INFORMATION things may appear ■unimportant in themselves, hut they will lead pupils to examine carefully, and notice small dif- ferences, thus forming the habits of the scientific investi- gator. Class III. Three Staviens. — This is a much larger class than the second, and embraces such plants as the gladiolus, crocus, iris, valerian, wheat, rye, oats, barley, millet, Timothy grass, red-top, sugar-cane, broom- corn, etc. Here is a great A^ariety for examination and comparison. Some, like the wheat, have their flowers in spikes, and have no proper corolla.* In many of them, also, as in the illustration on the Chart, the pistil is short and knob-like, and has no style. In the wheat the pistil becomes the berry. Class IV. Four Stamens. — Obtain, for illustration, some of the fol- lowing jilants : teasel, Venus's pride, partridge-berry, scabious, madder, dog-wood, which have their flowers superior — apparently inserted ujwn the ovary, and are of the first order; witch-hazel, of the second order; holly, and pond-weed, of the fourth order. Class V. Five Stamens. — This is a very large class of plants. Among those of the first order (that is, those that have but one pistil), having one-petaled'^owevs, are lungwort, stone-seed, hound-tongue, borage, bu- gloss, comfrey, primrose cowslip, mullein, morning-glory, tobacco, phlox, Greek valerian, azalea, potato, red pepper, lobelia, trumpet honeysuckle, and four o'clock. Among the Jive-petaled flowers of the first order are jewel-weed, violet, spring beauty, bachelor's buttons, grape, currant, and gooseberry. In the second order (two pistils) will be found gentian, ginseng, carrot, sweet cicel}-, dill, fennel, caraway, celery, parsley, cori- ander, and the elm-tree. In the third order (three pistils) are snow- ball, elder, and sumach ; and in the fifth order are spikenard and flax. Some of these ])lants have their corollas inferior, some superior ; and some have their flowers in umbels. This class will therefore open to pu- pils an extensive field for investigation. Some of the flowers are small, and will require very close attention. Class VI. Six Stamens. — In the first order of this class are spider- wort, pappoose root, barberry, amaryllis, leek, garlic, onion, cives, pick- erel-weed, snowdrop, jonquil, daffodil, lily, adder-tongue, bellwort, Sol- omon's seal, asparagus, hyacinth, tulip, yucca, crown imperial, and sweet- flag ; in the second order is rice ; in the third order are false wake-robin, dock, and field-sorrel. Class VII. Seven Stamens. — This is a very small class, and we can mention only a few common plants that belong to it, such as chick win- ter-green, a little plant three or four inches high, and little buck-eye and horse-chestnut, trees thirty or forty feet high. All of these belong to the first order. Class VIII. Eight Stamens. — Among those that belong to the first * A corolla is not an essential part of a flower, as a flower, botanically speaking, can consist of stamens and jiistils alone, and as these are all that are necessary for the production of the seed. See Fourth Keadcr, page 218. FOR OBJECT LESSONS. 195 order in this class are scabish or tree primrose, willow-herb, cranberry, fuchsia or ear-drop, clarkia, maple-tree, heath, mezereon, and nasturtion. In the third order are water pejsper, buckwheat, heart's-ease. Class IX. Nine Stamens. — A small class. In the first order are sas- safras, spicc-bush, and camphor-tree. In the second, several species of eriogonum. In the third, rhubarb. The rhubarb has no calyx. Class X. Ten Slamens. — In the first order are cassia, wild indigo, Judas-tree, and rhodora, which hawa papilionaceous flowers (see page 187, Fig. 8) ; prince's pine, Labrador tea, rue, pride of China, mahogany-tree, and Venus's fly-trap, which have many-petakd flowers ; and beaiberry, whortleberry, trailing arbutus, laurel, and rhododendron, which have one- petakd flowers. In the second order are hydrangea, saxifrage, soap- wort, pink, and sweet William ; in the third order are bladder campion, catch-fly, and starwort ; in the fifth order are mouse-ear chickweed, cockle, wood-sorrel, and live forever ; and in the tenth order is the Phy- tolacca, or poke-weed. This latter plant, therefore, has ten stamens and ten pistils. Class XI. Over Ten Staiiiens inserted on the Calyx. — Here will be found a new character for classification — the position of the stamens. By pulling off' the calyx the stamens will be found adhering to it. Among the plants of this class, and in the first order, will be found the numerous cactus plants, the cheny. plum, peach, apricot, pomegranate, and myrtle. In the fifth order — that is, hay'ingjive pistils — will be found the common thorn-bush, mountain ash, the pear, apple, and quince, and those beauti- ful flowering shrubs the spirceas. In this class are also found the rose, in its numerous varieties, the strawberry, blackberry, raspberry, and the potentillas or five-fingers. Some botanists include these in the t/iirteen/k order of this class, as all of them have a great 7HaH^ pistils. Where these pistils are, are afterward found the little seed berries that make up the large berry or fruit. The rose, in its natural or wild state, has only five petals, but these aye greatly multiplied by cultivation, the numerous stamens of the wild flower being changed by culture into pCtals. See Fourth Header, page 223. Class XII. Many Stamens, inserted on the Receptacle ; that is, on the summit of the flower-stalk which supports the pistil or pistils. See Chart. — In the first order of this class are found the bass-wood, portulacca or purslane, celandine, blood-root, water lily, pond lily, cohosh, poppy, tea, orange, lemon, the common mandrake, and the curious side-saddle flow- er. In the second order is the larkspur; in the third are the mignon- ette and peony ; in the fifth are monk's-hood, wild columbine, and St. John's wort ; and in the thirteenth order — having a great many pistils — are the clematis or virgin's bower, American cowslip, hellebore, mag- nolia-tree, tulip-tree or white-wood, ranunculus or crowfoot, etc. Class XIII. Four Stamens ; Tivo long, and Tiro short. — In some plants of this class two of the stamens are abortive — mostly or wholly wanting. The plants of this class are also peculiar in having labiate or lip-shaped flowers. See page 187, Fig. 9. In this class are two orders : gymnosperms, or naked-seeded plants ; and angiosperms, or those which have covered seeds. In the first order will be found spearmint, pepper- mint, pennyroyal, blue gentian, hyssop, catmint, horehound, ground ivy,' motherwort, lavender, savory, marjoram, skullcap, thyme, balm, and ver- vain. In the second order are yellow coxcomb, eye-bright, beech-drops. 196 MANUAL OF INFORMATION figwort, bignonia or trumpet-flower, blue-hearts, snapdragon, monkey- flower, toad-flax, gerardia or false foxglove, and digitalis or garden fox- glove. Class XIV. Six Stamens ; Four long, and Two short. — All the plants in this class are pod-bearing, and have cruciform or " cross-shaped" flow- ers. The class has two orders : 1st Order, siliculosa, length and breadth of pod nearly equal ; 2d Order, siliquosa, pod much longer than broad. In the first order are sea-rocket, shepherd's purse, pepper-grass, horse- i-adish, water radish, honesty or satin-flower, woad, and candy-tuft. In the second order are tooth-root, wall-cress, tower mustard, water rad- ish, wall-flower, stock-judy-flower, rocket, radish, mustard, cabbage, and turnip. Class XV. Filaments of the Stamens united in one Set, surrounding the Pistil, and often a])pearing attached to it. — The orders in this class depend upon the number of stamens. In the third order are blue-eyed grass, tamarind, and tiger-flower ; in the fifth are passion-flower and stork's-bill ; in the seventh, pelargonium or stork geranium ; in the tenth, crowfoot geranium or crane's-bill ; in the thirteenth (having many stamens united), common mallows, marsh-mallows or hibiscus, holly- hock, and common cotton. Class XVI. Filaments of the Stamens nnlted in two Sets. — The or- ders depend upon the number of stamens. In the fifth order is corydalis or colic-weed ; in the sixth are dielytra, fumitory, snake-root, and flow- ering winter-green ; in the tenth are the common pea, sweet pea, vetch, wistaria, locust-tree, bladder senna, indigo, liquorice, clover, and bush clover. The lupine, dyer's broom, furze, and peaimt are usually placed in the sixteenth class, but their numerous stamens are united in one set. Class XVII. Anthers united; Flowers compound. — The filaments of the stamens are usually five, and separate. As these are usually small flowei's clustered together in heads, it requires close examination to ob- serve the several parts of any one little flower. There are two kinds of flowers or florets in a single head of these compound flowers — the outer being called 7-ai/ florets, and the inner disk florets. Of these compound flowers there are the five following orders : 1st Order. Equalis (or "equal"), having perfect florets; that is, each floret, whether in the ray or the disk, having both pistils and stamens. In this order are succory or endive, dandelion, lettuce, vegetable oyster, burdock, thistle, artichoke, and boneset. 2d Order. Snperfl.ua ("superfluous"), having the disk florets perfect (both stamens and pistils), while the ray florets contain only pistils. In this order are tansy, artemisia, wormwood, life everlasting, elecampane, aster, golden-rod, ox-eyed daisy or chrysanthemum, garden daisy, mari- gold, May-weed, chamomile, and yarrow. 3d Order. Friistranea(^^ frustrated" or useless), having the disk florets perfect, while the ray florets have neither stamens nor pistils. In this order are sunflower, bur marigold, coreopsis, bluebottle, rudbeckia, and the numerous centaury plants. 4th Order. Necessaria, the disk florets having stamens only, and the ray florets having pistils only. In this order ai'e ragged-cup, leaf-cup, pot marigold, and ragwort. 5th Order. Segreyata ("separated"), each floret, whether in disk or FOR OBJECT LESSONS. 197 ray, having its separate calyx. In this order are elephant-foot and globe- thistle. Class XVIII. Stamens on the Style of the Pistil. — The orders de- pend on the number of stamens. In the first order are the orchis, scrof- ula-weed or rattlesnake-leaf, snake-mouth, tway-blade, coral-root, and the arethusa — the latter a low beautiful plant of a puqjle color, found in wet meadows and swamps. In the second order is the cypripedium or lady's slipper. In the fifth order are the common milkweed, dwarf milkweed, butterfly weed, dogbane, and milkvine. In the sixth order is birthwort ; in the tenth is wild ginger or white snake-root. Class XIX. Stamens and Pistils in separate Flowers on the same Plant. — The orders depend on the number of stamens. Some of these plants have no calyx, some have no corolla, and some have neither ca- lyx nor corolla. In the first order are found wild caper and spurge, sea eel-grass, and river nymph ; in the third order are the common cat-tail or reed-mace, bur reed, sedge, sweet fern, and Job's tear ; in the fourth are pipewort, alder, nettle, mulberr}', and box; in the fifth, false spurge, the amaranths and coxcombs, and the common hogweed or pigweed. The latter has no corolla. In the thii'tcenth order (many stamens) are arrow-head, Indian turnip, water arum, burnet, and the following trees : oak, hazel, beech, birch, chestnut,. hornbeam, button-wood, hickorj', but- ternut, and black walnut. Belonging to this same class, and having their stamens nnited in one, two, or three sets, are the cucumber, musk- melon, water-melon, gourd, squash, pumpkin, the castor-oil plant, and the pine, cedar, and arbor-vitaj trees. Class XX. Stamens and Pistils in separate Flowers and on different Plants. — The orders depend on the number of stamens. In the second order are the numerous species of willow, ash, and horn-bush ; in the third is the fig-tree ; in the fourth, the bay-berry and mistletoe ; in the fifth, the prickly ash, common hop, hemp, and spinach; in the sixth, sarsaparilla, common green-brier, yam-root, and honey locust ; in the eighth, poplar, balm of Gilead, and date plum ; in the Ji/teentli, in which the stamens are nnited in one set, red cedar and yew. Class XXI. The plants of this class, which have no visible flowers, are divided into six natural families or orders, as given under the Nat- ural Method of Classification. They are, 1st, Ferns ; 2d, Liverworts ; 3d, Mosses ; 4th, Lichens ; 5th, Fungi ; 6th, Algtc, or Sea-weeds. Compositions. — Let pupils write descriptions, from time to time, of the plants which they have obtained and exam- ined : let them describe their floral organs ; color of the flower ; time of blossoming ; whether fragrant or not ; height of plant; where foitnd — whether in the open fields or woods, on dry and high lands or in wet jilaces ; whether cultivated or wild ; if any use is made of it ; whether climb- ing or trailing, or a shrub, or a tree, etc. ; and let them con- nect with their notices of the places where they found them, descriptions of scenery, incidents, etc. 198 MANUAL OF INFORMATION Pupils should very early begin the collection oi herbari- mns — dried specimens of jjlants. For directions, see page 201. II. THE NATURAL METHOD OP CLASSIFICATION. These Lessons are designed more particularly for those pupils who have read, or are reading, the Botanical Part of the Fifth Reader. They will also be found useful to the teacher, as guides and suggestions, with the aid of the Chart, in giving a series of Oral Lessons on Plants, even to the younger jDupils who have not read so far, or to the whole school. [Chart No. XX. before the pupils : on the teacher's desk pieces of oak, ivalnut, or some other coarse-grained wood, sawed across, to show the circles of yearly growth, to illustrate the Exogenous plants ; pieces of corn-stalk, ratan, ' .stems of lily, and grass- es, for the Endogenous ; and, for the Cryptogamoris, ferns, pieces of toad-stool, and puff-balls, moss from the woods, and lichens from old wooden rails and rocks, all of which may be obtained at any season of the year. The pupils also sliould obtain and bring in specimens.] 1. Let some pupil go to the Chart and show how plants are arranged in three great divisions, in the Natural Meth- od of Classification. Let another similarly arrange the specimens on the table. Describe Ex-og'-en-ous^ plants, En-d6g'-en-ous3 ^gg^ Fourth Reader, pages 176 and 187, and Fifth Reader, i:)ages 144 and 186), Cryp-tog'-a-mous (Fifth Reader, pages 144 and 196). FIRST DIVISION. EX-OG'-EN-OUS PLANTS. [Have specimens on the table.] 2. The general character of Exogenous jDlants being now well understood, let some one point out on the Chart the two classes of these. Let another divide the specimens on the table into these two classes, another name them, an- other describe the An'-gi-o-sperms,'* and another the Gym'- no-sperms.^ (See Fifth Readei-, page 144, verse 2.) ' The ratan, from which walking-sticks are made, and other species of reeds, growing in great variety in India, belong to the Palm family. ^ From the Greek exo, on the outside, and genao, to produce. ^ From the Greek endon, within, and genao, to ])roduce. * From the Greek oggeion, a vessel, and sperma, a seed. ^ From the Greek gumnos, naked, and sperma, a seed. FOR OBJECT LESSONS. 199 CLASS T. ANGIOSPERMS (COVERED SEEDS). [Specimens of Polypetalous, Monopetalous, and Apetaloua plants on the table.] [For specimens of the An'-gi-o-sperms take the various pods, and any other cover- ed seeds, and for the Gym'-no-sperms take cones of the pine, hemlock, larch, etc. In the larch and pine, each of the scales of the cone, when ripe, may he seen to have, on its inner face, next the base, two or more ovules, or seeds. The scales of the cone are the real pistils of the plant] 3. Let one pupil go to the Chart and point out and ex- plain the first division of Exogenous plants (the Polypeta- lous,^ Fourth Reader, page 219, and Fifth Reader, page 150, Def). Let another point out and explain the sec- ond division (the 3Ionopetalous^ Fourth Reader, page 219, and Fifth Reader, page 167, Def.). Let another point out and explain the third division (the Apetalous^ Fifth Read- er, page 178, Def.). Let another arrange, and similarly explain, the specimens on the table. Let the teacher con- tinue the exercise by handing various specimens to the pupils, and requiring them to describe them. Thus, one says, " This is ^polypetalous plant, because each flower has many petals." "This is j;io?iOjjetoi(9W5, because each flow- er has but one jDetal." " This is apetalous, because its flow- er has stamens and pistils only, and no petals." Then give them a sunflower, thistle, aster, or marigold, etc. (of the composite family), and see if they can tell whether the flowers are polypetalous or monopetalous. They will be apt to call them polypetalous. Show them (or, better still, let them find out) .that each flower-head is composed of a great many flowers, or florets, and that each one of these is inonopetalous (Fifth Reader, page 164). Having thus ex- amined some one plant in this family, let them select oth- ers, and see if they can find the separate florets. While doing this they will probably observe that most of the flower-heads contain tioo hinds of florets, or they may have learned the same in connection with the Linnasan classes : tell them the central are called disk florets, and the outer ' Polypetalous, from the Greek, ]}olus,AnAnv, and petalon, a pStal. ^ Monopetalous, from the Greek, vionos, one, and joetafon, a petal. ^ Apetalous, from the Greek, a, which gives a negative meaning, and petalon, a petal. 200 MANUAL OF INFORMATION" ones ray florets. Let them tell to which order each plant belongs, in accordance with the Linncean system. (See page 154.) This is a good exercise to cultivate close ob- servation. Let a pupil point out on the Chart, and name the seven families of Polypetalous plants there represented. The six families of Monopetalous plants there represented. The four of the Apetalous.* 4. As it would be attended with too great expense to color, in the Fifth Reader, the numerous species of plants represented there, and as the colors add much to a correct understanding of them, the same species are represented colored on the Chart, to which the pupil can refer, so that he may thereby have all the advantages of the coloring. And although the figures may be thought to be too small to be seen hy the class at a distance, yet if they have pre- viously read over the descrijitions in the Fifth Reader, or studied the names, color, and height from the Chart, the colored figures, though small, will answer very Avell, espe- cially when specimens also are i;sed. 5. For example: su2:)pose the lesson of the day is about the Composite family. Have some specimens of that fam- ily on hand, if possible ; but w^hether you have or not, send a pupil to the Chart, and let him point out and name No. l,the Tall Thistle. The next pupil in the class tells its height ; the next, the color of the flower ; the next, why it is monopetalous ; another, why it is exogenous ; another, why it belongs to the class angiosperms ; another, to what Linntean class it belongs, and why. Let another jjupil then go and point out some other species (taking up the real flower also, if you have it), and go through in this, or a similar manner, with as many plants as you have time for. Then call upon the class for any facts which they can re- member about the plants of this family ; poetry, etc. The following abbreviated lessons are given as merely a general guide to the teacher after these suggestions. They will answer, also, as a synopsis for oral lessons to the * These are by no means all the families that belong to these diri- sions, but the most prominent ones. FOR OBJECT LESSONS. 201 younger pupils Avho Lave not yet advanced to the Fifth Reader. 6. We would here suggest the importance of teaching pupils to preserve plants, and collect Herbariums of their OAvn. A quantity of old newspapers, two boards, each about one foot wide and 18 inches in length, and a heavy stone for a weight, are all the apparatus needed. Upon several thicknesses of paper lay down several plants, with the leaves and flowers neatly spread out ; then additional paper and plants, in successive layers, upon these ; place the whole between the boards, with the stone upon the up- per board to press them. They will require fresh j^aper daily for a week; after that, as they become drier, they will not require changing so often. The plants should be labeled, with their names (if they can be obtained), and the time when they were gathered ; and after they are thor- oughly dried they should be attached to sheets of white paper. These preserved specimens will be found useful in conducting the following exercises when fresh specimens can not be obtained. It would be an easy matter for every teacher to collect, during a single season, an Herbarium of several hundred species. For the method of ascertaining their names^ where they are not already known, we must refer to such works as Wood's, Lincoln's, Eaton's, or Gray's Botany, etc. Each person should collect several specimens of each plant, tliat he may enlarge his collection by exchanging with others. 1. Polypetalous Plants. — Point out and name the spe- cies of the Rose family represented on the Chart, tell their ordinary height, and color of their flowers.* Do you know any other species in this family ?f To Avhat class in the * The Fifth Reader gives, additionally, the scientific name of each plant, the time of flowering, and native country. These facts should be required, except in a few instances, from advanced pupils only, who have paid special attention to the study of Botany. t Such as Michigan or prairie rose, eglantine or sweet-brier, yellow rose, dog rose, wliite rose, tea rose, etc. ; also strawberry, blackberry, raspberry, potentilla or cinquefoil, etc. T 2 202 MANUAL OF INFOKMATION Linniean system do all of these plants belong ? Eleventh class. Let the puj^ils examine and tell if they can, and why. Over ten stamens on the calyx. Mention some facts about the Rose family. (Fifth Reader, pages 147-150.) Some poetry. (See Fifth Reader ; or the selections may be made from any other book.) Who wrote that poetry ? 8. Point out and name the species of Common Fruits of the Rose family rejDresented on the Chart — tell their height, color of flowers, etc. To what class in the Lin- nrean system do they belong ? Eleventh. Why ? What other sjJecies of fruits of this Rose family can you men- tion ?* Facts about the " Common Fruits." (Fifth Reader, page 151-153.) Poetry. Who wrote it, etc. 9. What very important plant in the Camellia family ? Tea-plant. Facts about it. Important plant in the Mal- low family? Cotton-plant. Facts about it. Point out and name the fruits of the Citron- family represented on the Chart — their height, color of flowers, etc. To what Linmean class do the Camellias belong ? Fifteenth. Why? The Mallow plants ? Fifteenth class. The Citron plants? Twelfth. Why ? Because the flowers have over ten sta- mens on the receptade; that is, they come out directly frcm the top oftheflowei'-stem. See Chart. Poetry about either of these families. 10. Point out the Cactus family on the Chart. To what division does it belong? Exogenous. Why? To what class in the Exogenous division ? Class of Angiosperms. Why ? To what division of the Angiosperms ? The Poly- petalous division. Why ?•{• Point out and name the species of Cactus plants repre- * Wild black cherry, choke cherry, and numerous varieties of the En- glish cherry ; many kinds of plums, peaches, apples, pears, etc. Let pu- pils name as many kinds of apples as they can — which are winter apples, etc. — which they like best — describing their qualities. For the manner in which new kinds are pi'oduced, and favorite kinds preserved by bud- ding and grafting, see Fourth Reader, page 213. Give statistics of the apple crop in the county, state, etc. See Census Reports. t Similar questions should occasionally be asked about the several families, until the divisions and classes are well understood. FOR OBJECT LESSONS. 203 sented on the Chart — tell their height or length, and color of flowers. To what class, in the Linnsean system, do they belong ? Eleventh. Why ? (See Chart.) Same class as the Rose family. Mention some facts about the Cactus family. (Fifth Reader, page 158-160.) Poetry, names of authors, etc. 11. What are Leguminous plants? (Fifth Reader, page 1Q3, Def.) Point out and name tlie plants of this family represented on the Chart, and tell their ordinary height, and color of their flowers. What other plants of the Legumin- ous family can you mention ? (See Fifth Reader, page 161. Specimens should be exhibited.) To what Linnaean class do the Lupine, Corol-tree, and Locust-tree belong? Six- teenth class. Why? Because the stamens are united in two sets. See Chart. To what Linnsean class does the Sensitive-plant belong? Fifteenth. Why? What facts can you mention about any of these Leguminous plants ? (Fifth Reader, pages 162, 163.) Poetry. Who wrote it ? etc. 12. What are Umbelliferous plants"? (Fifth Reader, page 163, Def.) Point out and name the plants of this family represented on the Chart, and tell their ordinaiy height, and color of their flowers. To what Linnaean class do they belong ? Fifth. What other plants of this fam- ily can you mention?* To what family does the Ivy be- long? Facts about the Umbelliferous plants. Poetry. Who wrote it. 13. MoilOpetalous Plants. — What are the llonojyetalous plants? (Fifth Reader, jjage 167, Def) Name the fami- lies of this division represented on the Chart. Point out and name the sijecios of the Composite fam- ily represented on the Chart, and tell their ordinary height, and color of their flowers. To what Linnfean class do they belong? Seventeenth. Why? What other species of this family can you mention ?f Facts about these plants. (Fifth Reader, page 164-167.) Poetry. * Parsley, caraway, fennel, sweet cicelj', coriander, ciciita, anise, gold- en Alexanders, etc. t A large number : golden-rod, A-egetable oyster, burdock, eupatorium, 204 MANUAL OF INFORMATION 14. Point out and name the species of the Jessamine family represented on the Chart, and tell their ordinary height, and color of their flowers. Linnfean class ? Sec- ond. Facts about this family. (Fifth Reader, page 168.) Poetry. 15. Point out and name the species of the Honeysuckle plants, height or length, color of their flowers. Linnsean class? Fifth. Facts. Poetry. (Fifth Reader, pages 168, 169.) Describe the upper leaves of the Trumpet Honey- suckle. ( Connate-perfoUate.) 16. Point out and name the species of the Heath plants, height, color of flowers. To what Linna3an class do the Heaths proper belong ? Eighth. Facts. Poetry. (Fifth Reader, page 169-171.) IV. Point out and name the species of the Labiate plants represented on the Chart, their height, color of flowers. To Avhat two Linna^an classes do these plants belong? Second and thirteenth. Why are these called Labiate plants? (Fifth Reader, page 172.) Other species of La- biate plants.* Some facts about the Labiate plants. (Fifth Reader, page 172.) Poetry. 18. Point out and name the species of the Trumpet- flower plants represented on the Chart, length or height, color of flowers. Linnajau class. Thirteenth. Facts about this family. As the most conspicuous of the Trumpet- flower plants are the Bignonias, all the plants of this fami- ly are sometimes called Bignoniads. ApetaloUS Plants. — What are Apetalous plants ? (Fifth Reader, page 178, Def., and verse 1, Les. XVI., same page.) Name the families of this division represented on the Chart. 19. Point out and name the sjiecies of the Oak family boneset, asters, daisies, zinnias, elecampane, ox-eye, chamomile. May- weed, yarrow, feverfew, coriopsis, bur marigolds, groundsel, wormwood, tansy, life everlasting, firewced, pigweed, bachelor's button, saffron, gar- den artichoke, succory, endive, hawkweed, dandelion, etc. * Spearmint, peppermint, blue gentian, common sage, rosemary, sweet marjoram, summer savory, hyssop, pennyroyal, skullcap, catnip, ground ivy (Gill-over-the-ground), motherwort, etc. FOR OBJECT LESSONS. 205 _ represented on the Chart, and tell their ordinary height.* Linuiean class. Nineteenth. Facts about the trees of this family. (Fifth Reader, page 175-178.) Poetry. 20. What tree of the Elm family is represented on the Chart, and to what height does it grow '? To what Lin- na^an class does it belong? Fifth. "What other trees of the Elm family can you mention ?f Facts about the Elms. (Fifth Reader, pages 179, 180.) Poetry. 21. Point out the trees of the Willow family represent- ed on the Chart, and tell their ordinary height. To what Linnoean class do the Willows and Poplars belong ? Twen- tieth. What other trees and shrubs of the Willow family can you mention? J Facts about the Willow family. (Fifth Reader, pages 180, 181.) Poetry. 22. Point out the two species of the Birch family rep- resented on the Chart, and tell their ordinary height. To what Linnasan class do they belong ? Nineteenth. What other species of the Birch family can you mention ?§ Facts about the Birch family. (Fifth Reader, pages 181, 182.) Poetry. What is the shape of the leaf of the Canadian Poplar ? Cordate or sub-cordate. Of the Weeping Wil- low ? Lanceolate ; also acuminate or pointed, and serrate, or notched like the teeth of a saw. Shape of the leaves of the English Elm? Ovate, with serrated edges. Draw specimens on the blackboard. j] * The name mast is given to the fruit of the forest trees generally — such as nuts, acorns, etc. t White elm or American elm, slippery or red elm, river elm, and the Southern or Wahoo elm. For a full account of the elms, see Brown's Ti-ees of America, page 479-513. J They are numerous — such as basket willow, white willow, shrub willow, creeping willow, rose willow, bog willow, black willow, gray wil- low, shining willow, yellow willow, heart-leaf willow, etc. ; and of the poplars, the common Lombardy poplar, white poplar or American aspen, birch-leaf poplar, cotton-wood, etc. § Yellow birch, GO to 80 feet high ; red birch, 30 to 50 feet ; canoe birch or paper birch, 60 to 70 feet high — referred to in Longfellow's Hia- watha ; and several species of dwarf birch — mere shrubs. See Wood's Botany, page G4S. II Be careful, in a serrated leaf to make the notches point forward to- ward the apex of the leaf, as the teeth of a saw point forward. 206 MANUAL OF INFORMATION CLASS II. GYMNOSPEEMS (nAKED SEEDS). What name is given to the second class of the Exogenous plants? Why? (Fifth Reader, page 185, Def.) What large family composes this class ? The Cone-bearing family. Point out and name the sjjecies of the Cone-beaeing family represented on the Chart, and tell their ordinary height. To what Linnrean class do most of them belong ? Nineteenth. Why ? To what Linnajan class do the Red Cedar and common Yew belong? Twentieth. Why? Some facts about the trees of this family.* (Fifth Reader, page 182-184.) Poetry. SECOND DIVISION. ENDOGENOUS PLANTS. [Specimens of numerous varieties should be exhibited.] What are Endogenous plants ? Plow do they grow ? etc. (Fourth Reader, pages 176, 187, and Fifth Reader, 144, 186.) Describe the two classes into which they are divided. (See Chart, and Fifth Reader, pages 190, 195, Def) What families are included among the aglwnaceous plants? (Chart.) Aiwowq the glumaceousf (Chart. Spec- imens should be placed on the table, and the pupils should classify them.) CLASS I. AGLUMACEOUS. Point out and name the species of the Ieis family repre- sented on the Chart. Tell their height, and color of their flowers. To what Linnoeau class do most of them belong ? Thii'd. To what class does the Tiger-flower belong ? Fif- teenth. Why ? Facts about the plants of the Iris family. (Fifth Reader, pages 186, 187.) Poetry. Repeat it or de- scribe it, and tell who wrote it. Species of Lily family represented on the Chart ; height ; color; Linntean class (Sixth). Other plants that belong to the Lily family. f Facts (Fifth Reader, p. 187-8). Poetry. * The cone or fruit of the pines is called a stroh'-ile. t Besides numerous s]ieeics of the lily and tulip, the tuberose, garlic, onion, hyacinths, asphodel, Solomon's seal, asparagus, etc. FOR OBJECT LESSONS. 207 Species of the Palji family represented on the Chart ; ordinary height. To what several Linnaean classes do they belong? Sixth, Nineteenth, and Twentieth. Facts con- cerning the Palms. (Fifth Reader, page 188-190.) CLASS II. GLUMACEOUS. [Specimens may be obtained at any season.] What are included in the Glumaceous class ? Sedges, Grasses, and Cereals. What are cereals f The cereals are the edible grains — such as Wheat, Rye, Barley, Oats, Maize, Rice, and Millet. Point out and name the four species of Sedge plants represented on the Chart, and tell their ordinary height.* What species of sedge are common in this country ?t Facts about these plants. (Fifth Reader, pages 190, 191.) Grasses represented on the Chart ; their height. Facts about the Sedges and Grasses. (Fifth Reader, p. 1 90, 1 91 .) Poetry. To what Linurean class do they belong ? Third.J Point out and name the Cereals represented on the Chart, and tell to what height they grow, etc. (Specimens should be exhibited, and the pupils should name them.) To what Linna^an class do the Cereals belong ? Third. Facts about the Cereals. (Fifth Reader, page 192-194.) Poetry.§ * Specimens may be obtained at almost any season of the j-ear. They may be readily distinguished from grasses by having the sheath at the base of the leaves dosed up — not slit. See Fifth Reader, page 90. t Yellow sedge, slender sedge, showy sedge, red-root sedge, horsetail rush, robin's clubrush (in water some of the stems are as fine as hairs), mountain rush, lake bulrush, sea bulrush, cotton grass, bogrush, white bog rush, whip grass, etc. More than two hundred species are common in this country. X The teacher should inquire of pupils what grasses they are familiar with, etc. ; and he should obtain statistics about the hay crop in the sev- eral states, and in his own county and town. § The teacher should be able to add numerous facts of his own gath- ering, such as the kinds of wheat, and of other grains cultivated in the country around — which are liked the best, and why ; what summer fal- lowing is ; times and modes of sowing and harvesting ; implements used ; quantity of grain per acre ; prices per bushel ; standard weight 208 MANUAL OF INFORMATION THIRD DIVISION. CRYPTOGAMOUS PLANTS. [Specimens of Ferns, Mosses, Lichens, and Fungi should be exhibited.] What is the third great division of plants ? Cryp-tog'- a-mous. See Chart, and Fifth Reader, page 196. What is meant by cryptogamous ? Concealed fructification ; hav- ing those i^arts, such as the pistils, stamens, etc., which produce the fruit, either concealed^ or different from other plants. Into what two classes are the Cryptogamous plants divided ? (Chart.) What are the leading peculi- arities of each? (Fifth Reader, page 196.) CLASS I. ACROGENS (ac'-RO-GENS).^ (Specimens of Ferns and Mosses on the table. It may be difiicult for pupils to distinguish liverworts from mosses, but see Fifth Reader, j^age 198.) Point out and mention some of the Ferns, and tell their height ; their general col- or. Some of the Liverworts. Some of the Mosses. Some facts concerning ferns. (Fifth Reader, page 1 96-1 98.) Con- cerning mosses. (Fifth Reader, page 199-201.) Poetry concerning ferns. Concerning mosses. CLASS II. THALLOGENS (tHAl'-LO-GENS).^ What are Thallogens ? (Fifth Reader, page 196.) The three leading divisions of Thallogens ? (Chart.) Lichens. — (Specimens of Lichens and fungous i:)lants can be obtained at any time, and in all parts of the country. Beautiful collections of lichens in great variety may be ob- tained from old wooden rails, rocks, etc., and by the aid of a little glue may be neatly arranged on thin pieces of of a bushel; amount of flour per bushel; miller's toll; weight of barrel of flour ; the process of bread-makmg ; flour of diflbrent grams — what used for; statistics of amount of wheat and other grains produced in the county, state, and United States ; amount and value of exports of each, etc., etc. See Census Reports, Agricultural Reports, and other means of information. From the Greek — akros, at the end, or top, and gennao, to produce, to grow. Hence, ])lants which grow from the end ; summit growers. ' From the Greek — thallos, a young branch, and gennao, to produce. FOR OBJECT LESSONS. 209 board. We have seen tliem used for covering picture frames. Algfe, or Sea-weeds, may be obtained any -where on the sea-coast.) Point out and name some of the Li- chens represented on the Chart, and tell their height, etc. Facts concerning them. (Fifth Reader, page 202-205.) Poetry. If the teacher knows the names of any of the plants brought in, he should tell their names, and let the pupils label and preserve specimens. So of all other speci- mens of plants. Fungous Plants. — What are Fungi., or fungous plants ? (Fifth Reader, page 206.) Point out and name some of the species represented on the Chart, and tell their height, etc. Some facts concerning the Fungi. (Fifth Reader, pages 206-208.) Poetry. AlgcB., or Sea-weeds. — What are Algae, or Sea-weeds? (Fifth Reader, page 209.) Point out, name, and tell the length of some of those represented on the Chart. Facts concerning the Algje. Poetry, etc. Compositions. — Not only each class in the three great divisions of plants, but each family also, will furnish abund- ant materials for a separate composition, even though the pupils may have taken only a general view of plants repre- sented in each. After Avhat has already been said as to the many particulars which may be mentioned in connection with plants, it would seem that no farther directions need be given. CHART No. XXI. ECONOMICAL USES OF PLANTS. The descriptions which are here given, of certain import- ant portions of the Vegetable Kingdom, under the head of " Economical Uses of Plants," are designed to carry for- ward still farther the " object" system of instruction, in a practical continuation of the subject of Botany. It is de- signed that these descriptions shall aid the teacher in his familiar and instructive " object lesson" talks with the pu- 210 MANUAL OF INFORMATION pils, upon the subjects of the several fruits mentioned. With this view, in connection with the questions, explana- tions, suggestions, and direct information imparted, the Linnaean class and order, and the leading divisions of the Natural Method also, are given, that the teacher may, if he think it desirable, have his pupils constantly reviewing the ground Avhich they have already gone over, and repeating and verifying their observations upon the characteristic features of plants. Thus, in the case of the aj^ple^ which is put down as being in the eleventh class and fifth order of the Linnjean system, the teacher should require the pupil not only to tell the class and order, and xchy it is so, but also, if the flower be at hand, to shoio Avhy it is so. So, likewise, as to its place in the natural system, the pupil should show why it is an exogen ; why it is an angio- sperm ; and why it belongs to the natural order of Rose- worts. These suggestions may answer,for all the plants described. Other important plants or fruits not described here, the teacher may take up, and treat in a similar manner. I. Our Common Fruits. What fruits are represented in the First Division of this Chart ? Name them. 1. The CoMMO^f Apple {Py'rus ma'lus, Lin. S., xi., 5 ; Nat. M., Ang. Exog., ord. Moseworts*) is the most popular of all the fruits of the temperate zones. No other fruits can be brought to so high a degree of perfection with so little trouble ; and of no other are there so many excellent * The parenthetical description reads that the scientific name of the common apple is Pi/rus ma'lvs ; that in the Linmvan System it is of the eleventh class and Ji/tk order; and that in the Natural Method of classifi- cation it is an Angiospermoxis exogens, of the order of Roseicorts. This parenthetical description is for the teacher's special benefit. The bota- nist Lindley has separated the apple, pear, quince, medlar, etc., from the Roseworts proper, and called them Ajipleworts ; and he has also taken the almond, peach, nectarine, plum, clierrj', etc., and classed them as an order of Almondworts. The term xcort, which originally meant a plant or herh, is now used only in compounds. Roseworts are, therefore, merely plants of the Rose order. FOR OBJECT LESSONS. 211 varieties in general cultivation, adapted to almost every soil, situation, and climate. • Describe the Apples represented on the Chart. Name as many parts of the apple as you can. The skin, the stem, the eye, the flesh, the core, the seeds. What do we mean by the Jfavor of an apjDle? Name and describe as many kinds of apples as you can.* Mention the various pur- poses for which apples are used. Ordinary prices per bush- el, and barrel. Times of ripening and gathering. How winter apples should be gathered.^ Natural and grafted fruit, and how to obtain new kinds. (See Fourth Reader, page 213, and Fifth Reader, page 151.) To which kind of flower clusters does the flower of the ap- ple belong ? The cor'-ymb — sometimes almost a complete * In doing this, give size, form, and color; tlien describe the flesh and the flavor. The following descriptive terms, which we find in a work describing numerous varieties of the Apple, may be of some aid to the teacher. Many of them will also apply to other fruits. Form. — Round, roundish, conical, obtuse-conical, flattened, oblong, oblong-ovate, unequal-sided, angular. Skin Avarty, scabbed, tender, tough, thin, thick, wax-like, etc. Color. — Red, dull red, lively red stripes, blotched with red, striped with red on the sunny side, crimson, blush cheek, blush, pink, russet, russet inclining to brown, golden russet, yellow, deep yellow, pale yellow, straw color, greenish-yellow, orange, green, yellowish-white, yellowish- green, greenish-white, etc. Flesh. — White, yellowish, veined with red, pinkish near the surfiice, tender, crisp, firm, tough, juicy, diy, mellow, mealy, fine-grained, coarse- grained, melting, etc. Flavor. — Acid, mild, mild acid, sprightly, sub-acid, sharp acid, tart, sour, rich, sweet, sugary, aromatic, spicy, rose flavor, ri.ch vinous, etc. Among the varieties in cultivation may be mentioned : 1. Summer Apples. — Early harvest, sweet bough, red Astrachan, sum- mer rose, early strawberry, summer pippin, William's favorite. 2. Full Apples. — Pearmain, Porter, Gravenstein, fameuse, mother, Jersey sweeting, maiden's blush, Hawley, fall pippin, Dyer, Vandervere, pound sweet. 3. Winter Apples. — Nonsuch, minister, Rhode Island greening, Bald- win, red Canada, Swaar, Northern spy, ladies' sweeting, Boston russet, Newtown pippin, Jonathan, rambo, seek-no-farther, Danvers sweet, Ort- lej, Hurlbut, Chandler, golden russet. Carle, wine apple, lady apple, Pry- or's red, Wood's greening, Janet, winter blush, winter queen, nickejack. 212 MANUAL OF INFORMATIOISr iim'-bel. Can you describe the form of the leaf of the ap- ple ? It is o'-vate, a-cute', or short a-cu'-min'-ute, ser'-rate, and jDet'-i-o-late. Give the reasons for each. Are both sides of the leaf alike ? Examine. What is the color of the flowers ? Usually a delicate pink. Of the fruit ? Red, yellow, green, and russet, with all imaginable shades and interminglings of these colors. 2. The CoMMOisr Pear {Py'rus commu'nis^ Lin. S., xi., 5 ; Nat. M., Ang. Exog., ord. Moseworts) is a fruit next in pop- ularity and value to the apple. Among the numerous cul- tivated varieties may be mentioned the Bartlett, duchess, Madeline, Bloodgood, Dearborn, vergaloo, seckel, Julienne, Tyson, vanilla, Canandaigua, Stevens's Genesee, Dunmore, Flemish beauty, Maria Louisa, Dix, Onondaga, Beurre, win- ter bell and many others. Let pupils name and describe as many as they can. How does the pear generally differ in shape from the apple ? Name as many parts of the pear as you can. For what are pears used ? Ordinary prices per bushel, or bar- rel. Describe the form of the fe(/' of the pear. It is o'-vate- lan'-ce-o-late, partially ser'-rate, and a-cute'. Are both sides of the leaf alike ? It is smooth above, and downy beneath. Color of the flower? White. Of the fruit? Similar to the ap2:)le. 3. The CoisrMOjr Quince [Py'nis cydo'nia, or Cydo'nia vulga'ris, Lin. S., xi., 5 ; Nat. M., Ang. Exog., ord. Mose- worts) is a rough-flavored astringent fruit, unfit for eating in the raw state, but admirable for stewing and making preserves. The two principal varieties are the ai^ple-quiuce, and the pear-quince. On what does the Quince grow ? How does the quince generally differ in shape from the pear ? Wider at the base than the pear ; but, like the pear, its form is oJovate. Can you describe the skin of the quince ? It is yellow when ripe ; and is clothed with a coat of short, entangled, and matted hairs, very different from the smooth skin of the apple. This kind of covering is called td-7ne7i-tdse' . For what are quinces most used ? For jellies and preserves. FOR OBJECT LESSONS. 213 What is the color of the flower of the quince ? "White, with a tinge of purple. What is the shape of the leaves ? Ovate, acute, and entire. Observe that the margin is not toothed or serrate as in the apple and pear. Are both sides of the leaf alike ? The leaf is smooth above, and downy beneath. 4. The Peach {Amy g' dolus per' sica or Per'sica vnlga'- ris, Lin. S., xi,, 1 ; Nat. M., Ang. Exog., ord. Hoseioorts) is the most exquisitely delicious of our common fruits — more gi*atifyiug to the palate by its mass of juicy pulp than the grape, and more delicate than the melon. On what does the Peach grow? On a tree, or shrub, from eight to fifteen feet high. How does the peach difier in shape from the fruits before described ? It is more nearly round or orbicular. What is its size ? From one to two inches in diameter. The two classes into Avhich this fruit is divided ? Freestones and Clingstones. Color and flavor of the fruit ? The white peaches, the yellow, and the red-fleshed. The finer white-fleshed varieties are of a sugary flavor, the choice yellow-fleshed are of a vinous or wine flavor, and the red-fleshed are generally quite tart or acid. Describe the construction of the fruit, and tell wherein it difters from the apple. Like the apple, it is cov- ered by a skin ; but the skin itself, unlike that of the apple, has a downy covering ; the flesh is more pulpy than that of the apple ; instead of a co7'e, the peach has a stone-like chamber, which contains the seed. The stone containing the seed is often called the 2)it. Purposes for which the peach is used. Describe the leaf. It is lan'-ce-o-late and serrate, from three to five inches long, one third as wide, smooth on both sides, and has short pet'-i-oles. Color and odor of the flowers. Rose-color, with the odor of Prussic acid. Which appear first,^ the flowers' or the leaves^ ? (For account of the nectarine, see Fifth Reader, page 152.) Let pupils tell the kinds of peach with Avhich they are ac- quainted, time of ripening, etc. 5. The Common Plum [Pru'nus domes'tica, Lin. S., xii., 1 ; Nat. M., Ang. Exog., ord. lioseworts) is a pleasant and 214 MANUAL OF INFORMATION" useful fruit, growing on a cultivated tree or shrub about fifteen feet in height. Among the numerous cultivated va- rieties may be mentioned the damson, Ottoman, peach- plum, Duane's purple, green gage, Bleecker's gage, Colum- bian gage, Orleans, scarlet, imperial gage, purple gage, long blue, golden-drop, late red, Ickworth, Jefferson, etc. About 150 varieties are published in the catalogues of American gardeners. Describe the Plum. It is ovate in form ; fleshy, like the fruits before described ; smooth ; varying in size and color ; the 2iii is smooth, while that of the peach is deeply chan- neled. What uses are made of the plum? AVhat are prunes? A species of dried plums, imported chiefly from Southern France, where this fruit is Tery abundant. Name and describe as many kinds of plums as you are acquainted with. Are their flowers all of the same color? Yes: white. 6. The Apricot {Artnenia'ca vulga'ris or Pru'nus Ar- menia' ca, Lin. S., xi., 1 ; Nat. M., Aug. Exog., ord. liose- toorts) is an early and pleasant fruit, blossoming immediate- ly upon the opening of spring, but liable to be injured by early frosts. What can you tell about the Apricot? The apricot is intermediate in size and character between the peach and the plum, having a skin, flesh, and pit, combining the char- acters of both. The tree is tender in this climate. It is usually budded on plum stocks^ and trained against a wall with a southern exposure. It grows wild in Central and Southern Asia, and the mountains of the Caucasus are said to be covered with it. There are fifteen or twenty varie- ties cultivated. The fruit of the common apricot is a jiur- plish yellow ; the black apricot is of a dark purple color when rij)e. Flowers white ; leaves ovate, acuminate, some of them sub-cordate, smooth, and on long pet'-i-oles. 7. The Grape ( Vi' tis, J^in. S., v.,1 ; Nat. M., Ang.Exog., ord. Vineioorts) is said to be among fruits what wheat is among the cereal grasses, or the potato among farinaceous roots ; and, like them, in every country where it will grow, FOR OBJECT LESSONS. 215 it is cultivated witli pre-eminent care. Grapes are berries^ which grow on Avoody vines in clusters, and on that kind of a ra-ceme' called ^pan'-i-cle (see page 188). The flow- ers are green ; berry globular in form, purple, green, or red, and usually five-seeded ; seed sub-cordate. Let the pupil name as many kinds of grapes as he can. Isabella, Cataw- ba, red and Avhite Muscat, black Hamburg, fox or frost grape, etc. Wliat are plantations of vines called ? (See, also, a lesson on grapes, Second Reader, page 29.) For what are grapes used ? Used chiefly as a dessert- fruit ; also for drying, when they form the raisins and cur- rants of commerce ; and for making wine. The raisins are produced from various species of vines, and derive their name partly from the place where. they grow, as Smyrnas, Valencias, etc., and partly from the species of grape of which they are made, as muscatels, blooms, sultanas, etc. Tlje muscatels, from Malaga, are in the highest estimation. A small species of grape, largely cultivated in Greece and the Grecian islands, produces the dried currants of com- merce, which are largely used in cakes and puddings. What is xcine f^ Wine proper is the fermented juice of the grape only, although we speak of currant-wine and oth- er kinds of wine. The varieties of grape produced by cul- tivation are very numerous ; and the kinds of wine depend not only on the kind of grape, but also upon the soil and climate. The well-known Isabella and Catawba grapes are natives of America. They have a purple color, and have as luscious a taste as the best gi-apes of Europe. The principal kinds of wine are I*ort (from Oporto, Por- tugal, whence its name), which is of a dark purple or inky color ; Sherry, from the vicinity of Cadiz, Spain — of a deep amber color; Claret, the red wines of the Gironde, in France ; Champagne, so called from the province of Cham- pagne, in France ; Burgundy, mostly red wines, from the old province of Burgundy ; Madeira, so called from the island of that name ; Malmsey, a Madeira wine, made from grapes grown on rocky grounds exposed to the full influ- ence of the sun's rays ; Teneriffe, so called from the island 216 MANUAL OF INFORMATION of that name; and Tokay, ^o called from a town of that name in Hungary — said to be the finest of all the wines. There are also German wines, the Sicilian white wines, American wines, etc. Most of the American wine is of the kind called white wine. Brandy is mixed with nearly all foreign imported wines, and especially with the Port wine shipped from Oporto; and, indeed, so extensive and so varied are the adultera- ^tions that pm'e unmixed Avine of any sort is exceedingly rare. The best wines are also extensively imitated, and sometimes without containing any of the juice of the grape. It is said that more of the so-called " Tokay''' wine is sold annually in New York city alone than is produced from all the vines of Tokay. The acid of grapes is chiefly the tar- taric. The sugar contained in grapes differs slightly from common sugar in composition, containing a smaller quan- tity of carbon. 8. Currant. — The common Red Currant {Ri'hes ru'- hrum, Lin. S., v., 1 ; Nat. M., Ang. Exog., ord. Ourrant- v'orts), is a one-celled berry, filled with pulp, in which are contained numerous seeds. The cnrraut-steni is a good example of the ra-cerae'. The leaves are from three to five- lobed, smooth above, slightly downy beneath, mucronately serrate,* and sub-cordate at the base. 9. The Filbert ( Cor'yhis avella'na, Lin. S., xix., 12 ; Nat. M., Ang. Exog., ord. Jlast-worts) is the well-known fruit of the cultivated European hazel-nut. It belongs to that oi*- der of plants called mastworts, which includes the oak, the beech, and the Spanish chestnut. It groAvs on a shrub * Leaves of the red citrrant should be laid before the pupil, who should be led to notice all these little particulars in their forms, and then, if possible, find terms descriptive of them — either terms of his own, or such as we have above given. He has already learned what a serrate leaf is, and that when the leaf is tipped with a little point it is said to be niii - cro-ndte. But here the serratures themselves are slightly mi;cronate. It may be thought that this is a small particular ; but the child who can be led to notice it of his own accord, and to find a term descriptive of this peculiarity, will have already entered upon that course of close ob- servation which characterizes the scientific discoverer. FOR OBJECT LESSONS. 217 from two to ten feet in height. Observe the resemblance between this nut and the acorns and beech-nuts. The three well-known varieties of the filbert are the red, the frizzled, and the white. The latter is the kind most com- monly cultivated. The husk which incloses the nut of the filbert is the ca'-lyx of the flower. It will be seen, from the engraving, that it is cam-pan' -ii-late^ or bell-form, spreading at the apex, and torn-toothed. The American hazel-nuts, like the wild hazel-nuts of Brit- ain, grow on small shrubs from two to five feet high, found in thickets and borders of fields. They are excellent, but are inferior to the cultivated European nut. They might, perhaps, become equal to it by long-continued cultivation. (Let children bring in specimens of acorns, beech-nuts, and common hazel-nuts, to describe, and compare with the filbert. The latter, also, which may be had at almost any country store, should be obtained.) 10. The English or Garden Gooseberry {Bi'-bes gros- sula'ria^ Lin. S., v., 1 ; Nat. M., Ang. Exog., ord. Currant- worts) is a well-known, cultivated, globe-like (globose) fruit, of a lively but pleasant acid taste, and belonging to the same family as the currant. The branches are prickly; some kinds have smooth berries, othei*s hairy ; leaves roundish, from three to five-lobed, hairy beneath, and on hairy pet'- i-6les. Observe that the little green ca'-lyx which incloses the flower of the currant and gooseberry is bell-form and five-cleft, and that the cor'-ol and sta'-mens are inserted on the ca'-lyx. These are not too small particulars for chil- dren to notice. There are now several hundred varieties of the gooseberry produced by cultivation, with red, white, green, and amber fruit. Gooseberries are sometimes raised of monstrous size for exhibition, by leaving on the bush only a few berries, and supj)orting them so that they do not hang by their stems, but rest and fatten. In our climate the gooseberry is very subject to mould or mildew. Ask the children if they know what mould is. Describe it. (See Fourth Reader, page 172, verse 3 ; and Fifth Reader, page 206, Fig. 11, and verses 1 and 2.) K 218 MANUAL OF INFOEMATION 11. The Garden Raspberry {Hu'bus idee' us, Lin. S., xi., 13 ; Nat. M., Ang. Exog., ord. liosetvorts) is a well-known native berry, growing wild in all parts of the country, but greatly improved by cultivation. It is of a somewhat acid taste, but, like the strawberry, it is one of tjae few fruits that does not undergo the acetous fermentation in the stomach. There are numerous varieties. (Pupils should name and describe as many as they can.) Besides the common black and red varieties that are found growing wild, there are the red and yellow Antwerps, Franconia, FastoltF, etc. The berry is composed of numerous pulpy one-seeded grains (called ac'-i-nes or ac'-i-ni by botanists), situated on a dry receptacle. Pujiils should be led to examine these pulpy grains, and to take them off carefully to see how they are arranged on the receptacle. Let them notice, also, that the little green cup (cfi'-lyx) inclosing the flower is five-cleft, and that the flower is five-j^et'-aled. 12. The High Blackberry {Ru'bus villo'sits, Lin. S., xi., 13 ; Nat. M., Ang. Exog., ord. Hoseivorts), which is a thorny shrub, growing wild, from 4 to 6 feet high, in all parts of the country, is beginning to be cultivated as a garden fruit. Of the cultivated varieties, the " New Rochelle" and " Law- ton" have thus far been the most popular. Let pupils bring in portions of stem, leaves, and fruit, and describe them. It will be found that the blackberry has an angular stem ; leaflets from 3 to 5, ovate, acuminate, serrate, hairy on both sides. The pet'-i-oles are prickly; petals white. Calyx and flower similar to those of the raspberry. The fruit, which ripens in August and September, is collected into an ovate or oblong head. Let pupils examine and tell wherein it differs from the raspberry. 13. The English Strawberry {Fraga'ria ves'ca, Lin. S., xi., 13 ; Nat. M., Ang. Exog., ordi. Hoseworts) excels all other fruit-bearing herbaceous plants in the excellence of its fruit. It grows wild in great abundance in many parts of the coun- try ; but the cultivated varieties are much the largest and best flavored. The fruit is sometimes an ounce or more FOR OBJECT LESSONS. 219 in -weight. The strawberry has five petals, but the stamens and pistils are very irregular. It frequently happens that the strawberry is deficient either in stamens or pistils ; and when this is the case, if those of one kind only are planted together, they will not bear fruit. The runners which take root, and send up independent plants, are called stolons by botanists. The leaves are in threes, downy ; flowers white ; berry similar to the blackberry in shape. Let the pupils name the varieties with which they are acquainted, and describe them as to color, size, shape, weight, etc., as well as they can. Among the prominent varieties the large early scarlet, Longworth's prolific, Wil- son's Albany, Genesee, Walker's seedling, Jenny Lind, and some others, have perfect flowers, and bear fruit when planted alone. Hovey's seedling, crimson cone, Burr's new jjine, M'Avoy's superior, Monroe scarlet, Moyara en- sing pine, Jenny's seedling, and some others have imper- fect flowers, and are comparatively unfruitful unless plant- ed with varieties that have either perfect or staminate flowers. Other common fruits and vegetables, not represented on the Chart, but which may be mentioned in this connection, and described by the pupils, are cherries, cranberries, pump- kins, squashes, cucumbers, water-melons, muskmelons, egg- plants, tomatoes, peas, beans, salsify or vegetable oyster, mushrooms, etc. Some of the pupils will doubtless be able to describe several kinds of many of these. Among nuts, the hickory-nut or walnut, black walnut, butternut, chestnut, etc. Among garden edibles not men- tioned are artichoke, asparagus, kale, cabbage, cauliflower, leek, celery, cives or chives, garlic, pepper-grass, lettuce, cress, spinach, parsley, mustard, horse-radish, mint, thyme, sage, marjoram, balm, nasturtion, etc. The pupils may easily make collections of the seeds of these, of those represented on the Chart as " Our Common Fruits," and already described, and also of many other plants of value, including the " Common Root Plants ;" and in this manner, and by a system of exchanges with 220 MANUAL OF INFORMATION each other, they may form private cabinets of seeds, and also a handsome and vahiable cabinet for the school-room. Pupils should learn to distinguish these seeds, and to name them at sight; and they should know the proper times and modes of sowing them, their proper cultivation, the dangers to which they are liable from insects, worm-s, blight, drouth, etc. ; and they should describe the various uses of the plants themselves. What a field for investiga- tion, and for early education upon the Development or " Ob- ject" system, is here opened! Early cultivation of the perceptive faculties, which gives the best of mental disci- pline, and the acquisition of useful knowledge, may here be harmoniously combined. Cabinets of Seeds for the school-room, which are de- signed to aid in carrying out the principles of instruction herein developed, are now in course of preparation.* They ai*e designed to embrace not only the seeds of most of the plants represented on Charts XXI. and XXII., but also a considerable variety of others that are of value in cultiva- tion — such as different kinds of corn and grain plants, grasses, and fruits from temperate and tropical climates. It is supposed that one such collection in one school of a town or neighborhood, will not only greatly aid in carry- ing out the admirable system of instruction by lessons on objects^ but that it will be the means of awakening a great degree of interest in the subjects of agriculture, horticul- ture, gardening, etc. Pupils will be able to greatly enlarge such a collection from their own resources, and neighboring schools will be incited to get up collections of their own. II. Common Root Plants. The Radish {Ha'phamcs sati'vus, Lin., xiv., 2 ; Nat. M., Ang. Exog., ord. Cnicifers)^ which belongs to the large or- der of plants having cruciform or cross-shaped flowers, is a well known salad root, originally from China. There are two principal varieties of this root — the one spindle-shaped, * July, 1862. At the office of the " American Educational Bureau," New York City. FOR OBJECT LESSONS. 221 and the other turnip-shaped or globular, as represented on the Chart. There are also sub-varieties arranged as spring, summer, autumn, and winter radishes. All are of easy- culture and rapid growth. The most common radishes have roots of a purple color ; there are also white, scarlet, rose-colored, and black radishes. (Let pupils tell the kinds with which they are acquainted; color and size of seed; time of sowing ; soil best adapted to them ; how long after sowing before the roots are fit for eating ; how they are eaten, etc.) The stem of the radish grows from two to four feet high ; is very branching, bearing white flowers, or tinged with purple, succeeded by long, thick, fleshy, two to three-sided, acuminate pods, which contain the seed. (Pupils should examine the construction of these pods when ripe, and notice how they open, etc., and how they differ, in this respect, from many other pods. Let them notice the shape of the lower leaves, which are pinnately cleft. See Chart No. XIX. They are also called lyrate leaves, or lyre-shaped, because they have the end lobe largest and rounded.) The Sweet Potato {Convol'vulus hata'ta, or JBata'ta ed'ulis^ Lin. S., v., 1 ; Nat. M., Ang. Exog., ord. Bindiceeds)^ which is extensively cultivated for its root in tropical cli- mates, and in the United States as far north as New Jer- sey, is an herbaceous, perennial plant, which sends out round, pale-green, trailing stalks, extending six or eight feet every way. In a genial climate these put forth at their joints roots which grow to be very large tubers, so that from a single plant forty or fifty large potatoes may be produced. The leaves are angular, cordate at the base, and on long pet'-i-oles. Flowers showy, rose-purple, and campanulate or bell-shaped, similar to those of the morn- ing-glory ; potato brownish yellow. The Common Potato {&ola'num tubero'sum^ Lin. S., v., 1 ; Nat. M., Ang. Exog., ord. Nightshades*) is a biennial * This order of Nightshades includes not only the wholesome potato and tomato, but also some virulent poisons used in medicine, such as the deadly nightshade or belladonna, henbane, stramonium or thorn-apple, 222 MANUAL OF INFORMATION herbaceous plant, a native of South America, where it still grows wild in the elevated regions of the tropics. It is believed to have been first introduced into England in the year 1586. The sweet potato was known in England be- fore that period. What is eaten as the " potato" is not the root of the plant, bi;t the tubers of its subterranean stem. The flowers are white, or of a purple tinge ; corolla five-cleft, and somewhat bell-shaped ; the stem or stalk is what is called wing-angled. The fruit, containing the seeds, is the well-known '■'•potato balV that grows on the stalks. New varieties are often obtained by planting the seeds. When the potato itself is planted, it sprouts from what are called the eyes, each of which contains the germ of a future plant. The potato is a very economical article of food ; and it has been estimated that an acre i:)lanted Avith jDotatoes will produce more than double the quantity of nutriment than when soAvn to wheat. Two hundred bushels of potatoes to the acre, at sixty pounds weight to the bushel, is only a moderate average. Some of the varieties cultivated are the Mercers, Mashanocks, jjink-eyes, Carters, kidneys, blue- noses. Western reds, eai-ly Junes, etc. (Let pupils tell the kinds they are acquainted M'ith, time of planting, of gath- ering, prices per bushel, etc.) The Common Onion {Al'lhim ce'pa, Lin. S., v., 1 ; Nat. M., Agl. Endog.,* ord. Lilyioorts) is strongly-scented, bulb- ous, biennial plant, universally cultivated in gardens. It is visually raised from the seed, which, sown early in the sea- and tobacco. An extract from the leaves of the common potato is a pow- erful narcotic. It is only the tubers of the potato that are wholesome when cooked. The genus capsicum, whose ground seeds are known as Cay- enne pepper, also belongs to this order. Quantities of the common po- tato, in a state of putrefaction in a dark place, have been known to give out a most vivid light, sufficient to read by. * The plants previously described on this Chart belonged to the great division Exogens ; but this is an Endogens, or an Endogenous jilant. See Fourth Reader, page 176, and Fifth Eeader, pages 144 and 186. It also belongs to the Aglumaceous class of the Endogens — for wliich see Def. page 190, Fifth Reader. FOR OBJECT LESSONS. 223 SOU, produces the bulb fit for eating in the summer and fall. If the bulb be planted in the succeeding spring, it sends up a straight, smooth, stout, hollow stalk, frona three to four feet high, bearing at top a large round umbel of greenish-white flowers. The large, old, and refuse onions are called scallions. The leaves, Avhich are radical — that is, growing from the root — are fistular, like the stem : that is, holloio, or tubulous. Of the common Black-seed Onions, the red, white, and yellow are the principal varieties. There are, also, the red, white, and yellow Top Onions, which produce small onions, as the common kinds yield their seed, in a ball at the top of the stalk. Still another kind, the Potato or Hill Onion, produces a number of bulbs in a hill just below the surface of the ground. There is also the Welsh Onion, which resembles a large scall- ion, and is used only while green. It is said that those onions which have a tinge of red or purple are more pungent than those which are white ; and that those which have the rind, or outer membranous cov- ering of the bulb, thin and transparent, are always of mild- er flavor than those which have it thick. The Common Turnip {Bras' sica ra'pa, Lin. S., xiv., 2 ; Nat. M., Ang. Exog., ord. Cmcifers), which has long been cultivated in gardens and in fields, both for the table and for cattle, is a biennial plant, most of the kinds having a depressed (somewhat flattened) globose root, contracted below into a slender radicle. In the second season after sowing a flowering stem shoots up, from two to four feet high, bearing yellow flowers, and having the four petals ar- ranged in the form of a cross, and therefore called cruci- form. The radical or root leaves are rough, deep green, and lyrate in form, like those of the radish ; the cauline or stem leaves are cut or jagged, and the upper leaves are entire. There are numerous varieties of the common turnip, va- rying in color and shape, among Avhich are the early red- top or purple-top, early Dutch, early stone, long or tankard, yellow Aberdeen, yellow globe, etc. (Let pupils name and 224 MANUAL OF INFORMATION describe the kinds with which they are acquainted.) The hardy Swedish turnip, or ruta baga, which sometimes grows to an enormous size, and is cultivated chiefly as food for cattle, has a yellowish root. The turnip furnishes a surprising example of rapid growth. A seed of the common turnip has been estimated to weigh the fourteen thousandth part of an ounce ; and, assuming its growth to be always uniform, it has been cal- culated that a turnip-seed may increase fifteen times its own weight in a minute. By actual experiment made on very rich soil, turnips have been found to increase by growth 16,000 times the weight of their seeds each day they stand upon it. The average of a turnip crop, whether ruta baga or the common turnip, is estimated at ten tons to the acre. The Common Paksnip (Paslina'ca sati'va^ Lin. S., v., 2 ; Nat. M., Ang. Exog., ord. Umbelliferous Plants) is a bien- nial, with a sweet-flavored, fusiform or spindle-shaped root, usually larger than the carrot. In the second season it sends up a smooth, erect, furrowed, and branching stem, about three feet high, producing small yellow flowers on a large umbel. The leaves are pinnate, downy beneath, and smooth above. There are several varieties, such as the Guernsey, round, yellow Siam, and long white — the latter sometimes running three or four feet into the ground in a sandy soil. The parsnip grows wild abundantly in fields, by fences, etc., where its root is small, hard, bitter, and poisonous. When the parsnip grows upon well-tilled poor land it is more sweet and agreeable than when raised in richer soils. As it is but little injui^ed by being frozen, it may remain in the ground through the winter. The average yield is ten tons per acre. (Let the pupil describe the kind of parsnip with which he is acquainted — its color, size of root, shape, manner in which it is cooked, etc.) The Cakkot {Dau'cus caro'ta, Lin. S., v., 2 ; Nat. M., Ang. Exog., ord. TTmhelliferous Plants) is also a biennial, having a fusiform or spindle-shaped root. In the second season it FOR OBJECT LESSONS. 225 sends up a branching stem from two to three feet high, bearing small white flowers, nearly all summer, in a termi- nal umbel. The leaves are pale green, very numerous, pin- nate, having the divisions or leaflets narrow, linear, and acute. The seeds are oblong, hispid or bristly, and con- tained in a roundish pod having bristly ribs. It is said that the seeds do not retain their vegetative powers more than a year. Of the cultivated carrot there are many va- rieties — such as the early horn, long orange, Altringham, long purple or blood, long white, etc. The early horn and long orange are the only kinds desirable for garden cul- ture. Average produce per acre, ten tons. Let the pupil tell for what purposes the carrot is used — boiled, fried, in soups, etc., and as food for cattle. Eight hundred bush- els of carrots per acre have been obtained. For sowing the seed, which is very light, it is best to mix them thor- oughly with fine sand, in the proportion of four or five pounds to the bushel of sand ; let the whole lie in heaps, and occasionally water for two weeks before sowing. A light, but rich, and deep, and mellow soil, mixed with sand, is the best for all long-root plants; for if the ground is hard, the roots will grow forked, and shoot out lateral branches. The Common Beet {Be'ta vulga'ris, Lin. S., v., 2 ; Nat. M., Ang. Exog., ord. Chenopods* or Goosefoots) is a bien^ nial cultivated root, having the form of the carrot, but thicker in proportion to its length. The root is most com- monly of a red coloi-, very juicy, and when wounded bleeds freely. The leaves are large, long, acute, and smooth, green or purplish, and having a long pet'-i-ole ; flowers greenish- white, sessile or seated, heaj)ed together, and arranged on slender spikes. The beet root is much used as a pickle, and the tender leaves are boiled and eaten as greens. The root is sometimes preserved as a confiture or sweetmeat ; and some dry and grind the root, and make it a substitute for coffee. The juice also makes a good varnish. * From the Greek ch'en, a goose, and poxis, a foot, from the similarity of the leaves to the webbed feet of a water-fowl. K 2 226 MANUAL OF INFORMATION By long culture this valuable root has run into many va- rieties, among which are the early blood turnip-heet^ with a short and thick root like that of the turnip ; the long Uoocl-beet^ the best for winter use ; the lohite sugar-beet, or early lohite scarcity / the rnangel-iourtzel or red scarcity, which is a red-skinned beet, but white inside, growing much out of the ground ; and the yelloio sugar-beet. "If the long beets are raised for a series of years in ground not deeply plowed and well pulverized, and the seed sown from them is annually resown, they will become shortened in growth, or form a habit of growing much above ground, and thereby deteriorate in quality for the table." The white sugar-beet is largely cultivated in France, Belgium, Germany, and Russia for the sugar obtained from it. The best beets yield from six to eight per cent, of pure sugar. France annually jDroduces about 60,000 tons of beet sugar, about half the quantity that is used in the king- dom. The average yield of beets is estimated at from ten to fifteen tons per acre. In Germany, 100 tons of the mangel-wurtzel have been raised on an acre. III. The Cereals, or Corn Plants. The grain-bearing or corn plants are called cereals, from Ceres, whom the ancients regarded as the goddess of corn and harvests. (See Fifth Reader, page 194.) That one among the cereals upon which any people depends chiefly for its food is called by that people corn — as wheat in En- gland, oats in the northern Lowlands of Scotland, rye in the sandy districts on the southern shores of the Baltic Sea, and maize or Indian corn in some parts of the United States. Common Wheat [Trit'icuni vidga're, Lin. S., iii., 2 ; Nat. M., Glu. Endog., ord. Grasses) is both an annual and a bi- ennial, having the culm (the name given to the straw of grasses) terete or round, and smooth, from three to five feet high, bearing at the X.o\i the head of wheat, which belongs to the kind of flower-stem called a spike. (See Chart No. XIX.) The spike is somewhat four-sided, and is crowded FOR OBJECT LESSONS. 227 with spikelets (little spikes), which are usually about four or five flowered, aud which coutam the grains or kernels of wheat, although not often more than two perfect ker- nels are contained in a spikelet. Notice the glumes, husks, or c7iajf, which inclose the grains. The pupil will see, by examining a head of wheat, that at the base of each spike- let are two of these husks or chaft-leaves. These are call- ed, in botany, glumes. The inclosing husks or chafl'of each separate kernel are ur'ga, Lin. S., FOE, OBJECT LESSONS. 251 v., 1 ; Nat. M., Ang. Exog., ord. Bindioeeds)^ so named from Jalapa, in Mexico, whence it is chiefly imported, is a pow- erful cathartic medicine, the root of a climbing or creeping plant, which grows about ten feet in length. It belongs to the same order of plants as our Morning-glory, Cypress- vine, Bindweeds, etc. The Jalap plant has a tuberous perennial root (as repre- sented at b on the Chart), the taste of which is exceeding- ly nauseous, accompanied by a sweetish bitterness ; it has a smooth, twining, annual stem ; a salver-shaped, red corol- la, with a long cylindrical tube. The leaves, which are cordate-ovate, resemble those of the ivy. The flowers open only at night. The root, when brought to this country, is in thin slices. The dark, heavy, and resinous roots are the best ; but in- ferior Tiinds are often ground up with the genuine drug. The powder is of a yellowish-gray color. It is estimated that 200,000 pounds of the pure Jalap, from Jalapa, are an- nually exported from Vera Cruz. . The root of a single plant rarely exceeds a pound in weight. The Poppy {Papa'ver somoiif erum^ Lin. S,, xiL, 1 ; Nat. M., Ang. Exog., ord. Poppy loorti)^ from which the dru§ called opium is obtained, supposed to be a native of Asia, but now found growing wild throughout Southern Europe, is an annual herb, with a stem growing from two to four feet high ; leaves large, gashed, clasping the stem, and re- sembling those of the lettuce ; flowers white, with four petals in the wild state, but increasing in numbers by cul- tivation, and resembling the flowers of the tulip ; flower- buds nodding, but erect in flower and in fruit. The seeds, which are small, but very numerous, are produced in a large roundish capsule, which has openings at the top when ripe. All parts of the poppy contain a white, opaque, narcotic juice ; but as this juice abounds most in the capsules, these are the parts of the plant from which the drug is obtained, by the following process. When the capsules are half grown, longitudinal incisions are made, through their outer 252 MANUAL OF INFORMATION coating only, at sunset, and in the morning the juice which has flown from them is scraped from the capsules by wom- en and children. This juice is afterward worked in the sunshine until it has attained a considerable degree of thickness, when it is formed by hand into cakes, and far- ther dried, in which form it is sold as opium. The best opium is of a reddish-brown or fawn color ; it has a strong, heavy, narcotic odor, and a bitter taste, accompanied by a sensation of acrid heat, or biting on the tongue and lips, if it be well chewed. The opium-poppy is very extensively cultivated in Brit- ish India, Persia, and Turkey. It grows readily in the middle and southern United States also, but, on account of the high wages of labor here, its cultivation for the sake of the drug would not seem to be profitable. From the seeds is obtained a Avholesome oil, which possesses none of the narcotic properties of the drug. Olive-oil is often adultei*- ated with it. As a medicine, opium acts at first as a powerful stimu- lus, soon followed by narcotic and sedative efiects, destroy- ing the irritability of the stomach, and allaying jDain in the most distant parts of the body. In moderate doses it in- creases the fullness, force, and frequency of the jDulse, aug- ments the heat of the body, quickens respiration, and in- vigorates both the corporeal and mental functions, exhila- rating even to intoxication ; but by degrees these efiects are succeeded by languor, lassitude, and sleep, and, in many instances, by headache, sickness, thirst, tremors, and other symptoms of debility, such as follow the excessive use of ardent spirits. In very large doses the pulse is at once diminished ; drowsiness and stuj^or immediately come on, and are followed by delirium, heavy breathing, cold sweats, convulsions, apoplexy, and death. But, notwithstanding these efiects, opium is extensively used in Turkey, India, and China, both in chewing and in smoking, for the purjiose of exhilarating the spirits ; but it is found necessary, in order to produce the same agreeable effects, gradually to increase the quantity taken. Hence the great danger arising from its habitual use. FOR OBJECT LESSONS. 258 The peculiar sedative principle of the opium is found in ai*crystallized salt called morphine^ which is extracted from the drug. The total amount of opium imported annually into the United States is about 150,000 pounds, valued at about 480,000 dollars. Senna ( Cas'sia Orien' talis, Lin. S., x., 1 ; Nat. M., Aug. Exog., ord. Leguminous Plants^, well known as a mild ca- thartic, is an annual plant, growing from three to five feet high, with pinnate leaves jn five j^airs, as shown on the Chart, and bright yellow flowers, succeeded by legumes or pods similar to those of the bean. This is the true senna, imported chiefly from Western Asia and Eastern Africa; but the senna of the shops consists of several species, all possessing similar qualities. The Cas'sia marilan' dica, a species found growing wild in this country, in dense masses in alluvial soils, and often cultivated in gardens, is also used as a cathartic. The up- per leaves and flowers are gathered for this purpose. This species is ^perennial, and has the pinnate leaves generally in eight pairs ; flowers of five bright yellow petals ; legumes or pods curved ; and from twelve to twenty-seeded. Ipecac, as it is generally called, but, more properly, Ipe- cacuanha {^Cephae'lis ipecacuan' ha, Lin. S., v., 1 ; Nat. M., Ang. Exog., ord. Cinchonads), is a little, half-herbaceous, perennial plant, found in damp shady forests in Brazil. The root of this plant holds the first rank among emetics. It is also sudorific (producing perspiration) and expecto- rant. This plant has a weak creeping stem two or three feet long, from which it sends out roots, as seen on the Chart. The roots are contorted, from four to six inches long, and about as thick as a goose-quill. There are several varieties of this root, denominated, from their color, the white, gray, and brown, which are imported in bales from Rio Janeiro. The entire root is inodorous; but the powder, in which form it is used, has a faint disagreeable odor. The taste is bitter, and exceedingly nauseous. Helvetius, who first gave this root celebrity in France, in the time of Louis 254 MANUAL OF INFORMATION XIV., received, as a reward from that monarch, a gift of five thousand dollars. * Gentian ( Gen'tiana lu'tea^ Lin. S,, v., 2 ; Nat. M,, Ang. Exog., ord, Gentianworts) is a plant which grows about four feet high, having broad ovate leaves, opposite and ses- sile, and a yellow axillary corolla, usually five-cleft, whorled, and rotate or wheel form. The thick root, which is of a yellowish-brown color, and very bitter taste, is a powerful tonic, and the principal European bitter used in medicine. In Switzerland and Germany this plant occupies extensive tracts of ground i;ntouched by any cattle. The gentian brought to this country comes chiefly from Germany. A species of gentian having blue flowers is often used as a substitute for the yellow species. The gentians are a large order of beautiful plants, found in nearly all parts of the world, and many of them culti- vated in our gardens for ornament. They present a great variety of colors — red, blue, yellow, and white, with many of the intermediate compound tints, Peruvian Baek ( Cin'chona condamin' ea^ Lin. S., vi., 1 ; Nat. M., Ang. Exog., ord. Cincho7iads), much used in med- icine as a powerful febrifuge, is obtained from several spe- cies of plants, of the genus Cinchona, found in Peru. This genus derived its name from the Countess of Cinchon, who was cured of a fever by the use of this plant. The flowers of the kind most used in medicine are pink, and the seeds are contained in a long yellow capsule. Three kinds of the Peruvian bark, obtained from different species of Cinchona, are found in our drug-stores — the pale bark, the red, and the yellow. All are exceedingly bitter to the taste, and used for the same purposes. The medicinal properties of the Peruvian bark, and of most of the plants of the genus Cinchona, depend upon the presence of two alkalies, cinchonia and quinia. The latter, extracted from the bark, and pojiularly known as quinine., is much used in the treatment of agues. The Castor-oil Plant {Hi'cinus commu'nis, Lin. S., xix., 15 ; Nat. M., Ang. Exog., ord. /Spurgeioorts), though an an- FOR OBJECT LESSONS. 255 nual and herbaceous plant in our gardens, becomes in warm- er climates a tree of several years' standing. In our gar- dens, when started early in a hotbed, it makes a magnifi- cent border annual, often attaining a height of ten or twelve feet. The leaves of this plant, which are from four inches to a foot in diameter, and on long petioles, are peltate, palmate, and serrate, with lanceolate lobes ; flowers greenish-yellow ; lower stem has a frosty or mealy appearance, with branches of a light bluish-green color. The capsules (as represented at d on the Chart) containing the seeds or beans are prickly. The castor-oil of commerce, noted as a mild and safe ca- thartic, is obtained from the seeds or beans, either by boil- ing them in water or by pressure ; but the latter method is the best. The oil is thick and heavy, nearly inodorous, insipid, and of a very pale straw-color. The castor-oil plant has been raised extensively in South- ern Illinois. It is planted in the spring, when there is no longer danger of frosts, much in the manner of Indian corn, with the excej)tion that but one seed is put into each hill, and that at every fourth row a space is left sufficiently wide to admit of the passage of a team for the purpose of gath- ering the crop. The plant bears at the same time flowers and fruit, continuing to blossom, in our climate, as long as warm weather continues. The I'ipening commences in Au- gust, and the crop is gathered at intervals from this time until the plants are destroyed by frost. From sixteen to twenty-five bushels of the beans are obtained to the acre. The oil is manufactured extensively in St. Louis. During the fall of 1854 one establishment in St. Louis manufac- tured 32,000 gallons of castor-oil. The wholesale price of the oil has varied from sixty cents to $1 25 per gallon, sold in quantities by the barrel. Castor-oil would be very valuable for lubricating machinery if it could be produced at a sufliciently low price. 256 MANUAL OF INFORMATION VI. Plants used for Beverages, "Various artificial drinks," says Professor Johnston, in his Chemistry of Common Life, " are prepared, both in civ- ilized and semi-barbarous countries, and are in daily use among vast multitudes of men, such as tea, coffee, and co- coa, beer, wine, and ardent spirits, the preparation and ef- fects of each of which are connected with interesting chem- ical considerations, " These drinks agree iu being all prepared from, or by means of, substances of vegetable origin, and in being gen- erally classed among the luxuries rather than the necessa- ries of life. The mode in which they are prepared, how- ever, naturally divides these drinks into two classes. Tea, coffee, and cocoa are roasted and i^repared before they are infused in water, and the infusion is then drnnk without farther chemical treatment. These are simply mfused beverages. Beer, wine, and ardent spirits are prepared from infusions which, after being made, are subjected to important chemical operations. Among these operations is the process of fermentation, and hence they are properly distinguished Vi?, fermented liquors. The infused beverages are drunk hot ; fermented liquors are usually taken cold." Among the infused beverages, the teas, coffees, and cocoas are the most important. Teas are infusions of leaves ; cof- fees are infusions of seeds; while cocoas are, properly, soups or gruels, made by diffiising, through boiling water, the entire seeds of certain plants previously ground into a paste. The Tea Plant of China [The' a vir'idis, Lin. S., xii., 1 ; N"at. M., Ang. Exog., ord. Theads) is a hardy, evergreen, bushy shrub, from three to six feet high ; leaves numerous, lanceolate, serrate, flat, three times as long as broad, and on short and thick channeled footstalks ; blossom white, with yellow style and anthers. At c, on the Chart, is shown the pistil of the plant and one of the stamens; at b is the pistil farther advanced, with the seed-vessel at the bottom ; at d the seed-vessel or boll ; and at a the same FOR OBJECT LESSONS. 257 fully ripe and opening. The leaves, which are the valuable l^art of the plant, have been used as a beverage in China from very remote periods, and their consumption is now enormous. The total annual produce of the di'ied leaves in China alone is now estimated at more than a million of tons! Large quantities are also produced in Japan Corea, Assam, and Java. Although we have various kinds of black and green teas in the market, yet, botanically considered, the tea-plant is a single sj^ecies ; the green and black, with all the diversities of each, being mere varieties, like the varieties of the grape, produced by diiference of climate, soil, locality, age of the crop when gathered, and modes of preparation for the market. The tea-plants are raised from seeds, which are planted three or four in a hill, the hills being about four feet apart, and the same distance between the rows. A tea-plantation in China is said to look, at a little distance, like a shrubbery of gooseberry bushes. The leaves are not collected until the plants are three years old ; and after the plants have grown nine or ten years they are cut down, in order that a new plantation may then be made, or that young shoots from the old roots may spring up. The first gathering, in China, commences about the first of March, when the leaves just begin to unfold from the bud. These furnish the most costly of the " green" teas, and are said never to be exported, and to be used only by persons of the highest rank in China. A second gathering of the " green" teas, about a month later, furnishes those known as imperial and young hyson skin ; at later gatherings are obtained the hyson, hyson skin, and gunpowder teas ; and lastly, in June, the "black" teas, such as souchong and Congo, until they reach the latest crop and lowest in qual- ity, called by us "bohea," and by the Chinese large tea, on account of the maturity and size of the leaves. The process of gathering the tea is one of great nicety and importance. Each leaf is plucked separately from the twig, mostly by Avomen and children, and great care is taken to have the hands of the gatherer kept clean. In 258 MANUAL OF INFORMATION collecting some of the finer sorts that are used by the Chi- nese nobility only, it is stated, upon reliable authority, that the gatherer is obliged, for some weeks previous, to abstain from all gross food, lest his breath or persiDiration might injure the flavor, to wear fine gloves while at work, and to bathe two or three times a day during this period. After the gathering of the tea, the opei-ation of drying and rolling is performed, the object being to expel the moisture from the leaves, and, at the same time, to retain as much 'as jDossible of their aromatic flavor. For this pui'- l^ose the leaves are thrown into shallow, heated roasting- pans, kept constantly in motion, and, when sufiiciently moist and wilted, are placed upon a table, and rapidly roll- ed with the hands. After properly drying, the tea is win- nowed, and passed through sieves of diflferent sizes, in oi*- der to get rid of the dust and other impurities, and to di- vide it into the difierent grades, which have their respect- ive names. By various processes of heating, rolling, etc., difierences of flavor and color are produced. And yet it has been ascertained that the beautiful blue tinge which our finest teas possess is given by dyeing them with Prus- sian blue — a well-known poison ! The Chinese do not use such teas, but say that they color them in this manner be- cause they thus better suit the taste of the " foreign bar- barians !" (For a further account of tea, tea-drinking, etc., see Fifth Keader, page 155. It would be well for pupils to describe the process of making tea, the kinds with which they are acquainted, or which are kept in the stores^ prices per pound, etc.) Effects, — Tea exhilarates, by acting on the nervous sys- tem, without sensibly intoxicating. Hence it excites the brain to increased activity, and jDroduces wakefulness, and is therefore a popular beverage with those who are obliged to keep awake nights, and to persons who perform much mental labor. It also soothes and stills the vascular sys- tem (the system of the blood-vessels), and hence its uses in inflammatory diseases, and as a cure for the headache. FOR OBJECT LESSONS. 259 Green tea, when taken strong, acts very powerfully i;pon some constitutions, producing nervous tremblings and other distressing symptoms, acting as a narcotic,-!«lfd in inferior animals even producing paralysis. Black tea, made from more mature leaves than green tea, is the least injurious, because it does not contain so much of the volatile oil as the green varieties. The quantity of tea consumed in Great Britain annually is about seventy millions of pounds, or two and a half pounds to each individual; while the United States now consume about thirty-two millions of pounds annually, or but little more than a pound to each individual. The quan- tity consumed annually in the whole world is estimated at 2240 millions of pounds, and it is said to be used by 500 millions of mankind. The Coffee-tree ( Coffe'a Ara'hica^ Lin. S., v., 1 ; N"at. M., Ang. Exog., ord. Cinchonads), a native of Ethiopia and Abyssinia, but first brought to notice from Arabia, is an evergreen from fifteen to twenty feet high ; stem four or five inches in diameter, w^ith a light-brown bark ; op- posite, oblong, wavy, shining, light-green leaves ; flowers white, in clusters at the base of the leaves, deeply five-cleft, with spreading divisions, and of a grateful odor, but of short duration. When the tree is full grown it much re- sembles one of our apple-trees, with the lower branches bent nearly to the ground. In almost all seasons of the year blossoms and green and rijDC fruit may be seen on the tree at the same time. When the blossom falls off there remains in its room, or rather springs from each blossom, a small fruit, green at first, but which becomes red, or of a reddish-orange color, as it ripens, and is not unlike a large cherry, and is very good to eat. Under the flesh of this cherry, instead of the stone is found the bean or berry we call coffee, wrapped round in a fine thin skin. The berry is then very soft and of a disagreeable taste, but as the cherry ripens, the berry in the inside grows harder, and the dried up fruit, being the flesh or pulp of it, which was before eatable, becomes 260 MANUAL OF INFORMATION a shell or i^od of a deep brown color. The berry is now solid, and of a clear transparent green in some varieties, and a brownish or pale yellow in others. Each shell con- tains one berry, which splits into two equal parts. When the fruit is sufficiently ripe to be shaken from the tree, the husks are separated from the berries, and are used in Arabia by the natives instead of the berries, while the berries are exported for the European markets. The leaves, when cured in the manner of tea, are said to possess all the vir- tues of the berry itself The full-grown fruit, and one with the berry exposed, are represented on the Chart. In extensive coffee plantations the plants are put out about eight feet apart ; they are then topped and stunted to about five feet in height, for the convenience of having the fruit within reach of the gatherer. Thus dwarfed, they extend their branches until they cover the Avhole ground. They begin to yield fruit the third year ; by the fifth, sixth, or seventh, they are at full bearing, and continue to bear for upward of twenty years. The different kinds of coffee found in our markets — such as Java, Mocha or Arabian, La Guayra, Ceylon, etc. — are all of the same original kind, but changed somewhat in appearance and quality by differ- ences of soil, climate, and cultivation. Before the berry is available for use it undergoes a process called roasting ; and the valuable properties of the coffee depend very much on the manner in which this process is performed. It is said that, " If coftee be under- done in roasting, its virtues will not be imparted, and it will load and oppress the stomach ; if it be ovei'done, it will yield a flat, burnt, and bitter taste, its virtues will be destroyed, and in use it will heat the body and act as an astringent." The effects of coftee are thus described by Professor Johnston. " It exhilarates, arouses, and keeps awake ; it allaj^s hunger to a certain extent, gives to the weary in- creased strength and vigor, and imparts a feeling of com- fort and repose. Its physiological effects upon the system, so far as they have been investigated, appear to be that, FOR OBJECT LESSONS. 261 while it makes the brain more active, it soothes the body generally, makes the change and waste of matter slower, and the demand for food in consequence less." It must be admitted, however, that a less favorable opinion of the ef- fects of coffee upon the system is given by many other writers. Coffee is cultivated to a considerable extent in the West Indies, but very lai'gely in Brazil. The entire annual pro- duction of coffee in the world is now estimated at six or seven hundred millions of povmds, and probably more than half of this quantity is raised in Brazil. One hundred mil- lions of mankind are believed to use it. It is estimated that more than two hx;ndred and twenty millions of pounds are annually consumed in the United States alone, while only forty millions of pounds are consumed in Great Brit- ain. We are, therefore, as a people, the greatest coffee- drinkers in the world. (If we now number thirty millions of people, how much coffee, on an average, is annually consumed by each indi- vidual? Calling the price paid 14 cents per pound, what would the sum thus paid for coffee amount to ? What kinds of coffee are the pupils acquainted with? What kinds are found in the stores, and what are the prices per pound ?) The Paeaguay Tea-plant, or Mate {Tlex Paraguay- en' sis, Lin. S., iv., 3 ; Nat. M., Ang. Exog., ord. Hollyioorts), is a shrub or small tree, from ten to fifteen feet high, grow- ing spontaneously in the forests of Paraguay. Flowers white, berries reddish-orange. The leaves, four or five inches long, when dried, and rubbed to powder, are exten- sively used throughout nearly all South America, for mak- ing a tea called mate. These leaves contain the same ac- tive ingredients as Chinese tea, and the beverage made from them produces similar effects ; but excessive use of it is attended with more dangerous consequences, as it is apt to induce diseases similar to those which follow the exces- sive use of ardent spirits — producing intoxication, and lead- ing even to delirium tremens. The quantity of the dried 262 MANUAL OF INFORMATION leaves used in South America is very large, as five or six millions of pounds are annually exported from Paraguay. The entire consumption of this plant, annually, is believed to be about twenty millions of pounds. Ten millions of people in South America make it their common beverage. Mankind seem to have almost a natural taste for stimu- lating, intoxicating, and narcotic drinks ; as in all coun- tries, civilized and savage, drinks of some of these kinds are common. The Cocoa-tree {Theobro'ma caca'o, Lin. S., xii., 1; Nat. M., Ang. Exog., ord. Hyttner'iads), or Chocolate-tree, is the tree that produces the seeds from which the well- known beverage called coco'a, or chocolate, is produced. This tree, which is from tAvelve to sixteen feet high, grows spontaneously in Mexico and Central America, and forms whole forests in Demarara. In general appearance it re- sembles, both in size and shape, a blacJc-heart cherry. The leaves are lanceolate-oblong, bright green, entire ; flower small, reddish, inodorous ; and the fruit, which, like the fig, grows directly from the stem and principal branches, is of the form and size of a small oblong melon or thick cucum- ber, and about three inches in diameter at the thickest part. Tliis fruit is smooth, yellow, red, or of both colors externally, having a yellowish fleshy rind, near half an inch in thickness ; within this rind is a whitish or cream-colored spongy pulp, and imbedded in this latter are from six to thirty beans or seeds, of the size of large almonds. At cl on the Chart is represented one of the fruits, with a part of the rind removed, and showing the beans or seeds in rows. These seeds are of a flesh-color when fresh, but they become of a dark brown, both externally and inter- nally, when fully ripe and dry. They taste like a rich nut, but are slightly astringent, and decidedly bitter before be- ing roasted. The cocoa-tree begins to bear in its third year, producing, after this period, leaves, flowers, and fruit, all the year through. A tree yields from two to three pouuds of seeds annually. The seeds or beans are usually roasted like coffee, then FOR OBJECT LESSONS. 263 ground or pounded, and mixed Avitli water, so as to form a thick paste ; sugar, vanilla, and- sometimes cinnamon and cloves, and some other ingredients, are then added, with, usually, the reddish-yellow vegetable dye anotta to color it ; and when the paste thus formed has become hardened into cakes, it forms the chocolate of the shops. What is properly cocoa is the pure cocoa mixed with water, and hardened in cakes, but without the additional ingredients generally used in chocolate. The purest cocoa is obtained by removing the shell of the bean, and using the interior portions only. Cocoa or chocolate is used in different ways. Some- times the cake is eaten in a solid state, as a nutritious arti- cle of diet; sometimes it is scraped into powder, and mixed with "boiling Avater or boiling milk, when it makes a bev- erage somewhat thick, but agreeable to the palate; and sometimes the unmixed and pure cocoa is boiled in water, with which it forms a dark brown decoction. With sugar and milk this makes an agreeable drink, better than the ordinary chocolate for persons of weak constitutions. Cocoa is said to produce exhilarating and soothing ef- fects, like tea and coffee, and, like them, to diminish the or- dinary Avaste of the system. But it is remarkably distin- guished from tea and coffee by containing a large propor- tion of oily matter, known as cocoa-butter, which amounts to more than half the weight of the shelled or husked bean. Hence it is a very rich article of food ; and for this reason it not unfrequently disagrees with delicate stomachs. It also contains a considerable proportion of starch and gluten — substances which form the leading con- stituents of all the more valuable varieties of vegetable food. The botanist Linnaeus was so fond of cocoa that he gave to the tree the generic name of Theobroma., a com- pound Greek word which means " food of the gods." The total annual consumption of cocoa is estimated at one hundred millions of pounds ; and it is believed to be in general use as a beverage among fifty millions of man- kind. 264 MANUAL OF INFORMATION Chiccort {Cicho^riuni inty'hus^ Lin. S., xvii., 1 ; Nat.M., Aug. Exog., ord. Composite plants), also called Succory and Endive., is a wild weed found growing abundantly in most countries of Europe, where it is also often cultivated. It has been introduced into this country, and is cultivated in Westchester County, near New York, and in some other places. In a Avild state the stem, which is round and rough, grows from one to three feet high ; but when culti- vated, it shoots up five or six feet : flowers sessile, bright blue, large and showy, with the corollas flat and five-tooth- ed; the upj^er leaves cordate and acuminate; but the lower ones have that peculiar form called runcinate, as shown on the Chart. A runcinate leaf is one that is pinnatifid (see page 181), and that has the segments pointed and curved backward. The root of this plant, which is large, Avhite, or brownish, parsnip-shaped, and which increases in size when the plant is subjected to cultivation, abounds in a bitter juice, which has led to its use as a substitute for cofiee ; and for this purpose the plant is extensively culti- vated in Prussia, Belgium, and France. The root is taken up before the plant shoots into flower, is washed, sliced, and dried ; a little lard is then put in, and the root is roasted imtil it is of a chocolate color, after which it is ground, and packed in papers for use. When steeped in hot water it imparts to the water a dark color, and a sweetish-bitter taste ; but it has not the pleasant odor and flavor of genu- ine cofiee. To many it is not only disagreeable to the taste, but nauseous in a high degree ; yet others become very fond of it, and it is probable that its bitter principle possesses a tonic or strengthening property. It is said, however, that " prolonged and frequent use of it produces heartburn, cramp, and acidity in the stomach, loss of appe- tite, weakness of the limbs, tremblings, sleeplessness, a drunken cloudiness of the senses, etc., etc." Chiccory is used very largely to adulterate ground cofiee, as it is found that a little of the roasted chiccory gives as dark a color to water, and as bitter a taste, as a great deal of cofiee. As evidence of the extent to which it is used, FOR OBJECT LESSONS. 265 English statistics show that, in the year 1845, 2000 to)is of chiccory "vvere imported into Great Britain alone from the Continent, and it is known that since that period its use has greatly increased. The presence of chiccory in ground coffee may be detected by putting the coffee into cold Ava- ter, as chiccory will impart a brownish-yellow color to the water, which pure coffee does not. Those Avho would guard against such imposition should buy the coffee in the kernel, and grind it themselves. The Hop {Hu'niulus lu'pulus, Lin. S., xx., 5 ; Nat. M., Ang. Exog., ord. .Z?^w?^>ic'or^s) is a perennial plant, with an annual stem, rough, and twining Avith the sun, found AA-ild in hedges, and extensively cultivated both in Europe and in this country for its flowers or scaly aments, Avhich are used in the manufacture of beer. This plant, like all oth- ers of the tAventieth Linna;an class, bears its pistillate and staminate floAvers on different individuals; and it is the fe- male or pistillate plant, therefore, containing the seeds or fruit, that is chiefly cultivated. The leaves are very rough, generally three-lobed, deeply cordate at the base, and on long petioles. For the shape of the floAvers of both kinds, see the Chart. The scales of the fertile flower, Avhen ar- rived at maturity, are covered Avith yellowish resinous at- oms, forming a fine poAvder, which is distinguished by the name of lupidin. It is this powder chiefly Avhich contains the bitter, tonic, narcotic, and aromatic properties Avhich render the plant valuable. A tea made of hop floAvers is not only tonic, but it soothes also and tranquillizes, allays pain, reduces the pulse, and in a slight degree induces sleep. The chief use of the hop in brewing is to prevent the beer from becoming sour, and this it does by checking the fer- mentation before all the sugar becomes converted into al- cohol. It also imparts to the beer its own peculiar narcotic and tonic properties, BetAveen fifty and sixty thousand acres are devoted to the raising of hops in England alone ; and the people of Great Britain consume about forty millions of pounds of hops annually. England consumes more hops than all the M 266 MANUAL OF INFORMATION world besides ; and it is thei'efore very evident that the En- gUsh people are the greatest beei'-driukers in the world. From two to three millions of pounds of hops are now raised annually in this country — two thirds of this quantity being produced in the State of New York. In the year 1 850 the breweries of this state produced 645,000 barrels of ale. Numerous bitter plants have been recommended and oc- casionally used in beer, to replace or supplant the hop — Buch as horehound, wormwood, gentian, quassia, chamo- mile, fern leaves, broom tops, ground-ivy, dandelion, chic- cory, and even that most deadly of poisons, strychnine. Strychnine is an intensely bitter substance contained in the seeds of the nux vomica, a tree growing in various places in the East Indies, and j^roducing a fruit similar to the a,])- ple. Loudon, speaking of the seeds of the nux vomica, says, "They are employed in the distillation of country spirits, to render them more intoxicating." The introduc- tion of these seeds in English breweries is prohibited un- der heavy penalties ; but it is believed that they are used, nevertheless. Strychnine is so intensely bitter that its taste can be detected when dissolved in 600,000 times its weight of water. Beer, wine, and brandy drinkers little know the many poisons which are smuggled into their systems under the guise of " beverages." VII. Plants used for Manufactures. Herbaceous Cotton {Gossyj^'tum Jt,erba'ceum,'Lin.^.^ XV., 13 ; Nat. M., Aug. Exog., ord. 3Ialloimcorts), the kind mostly cultivated in the United States, is an annual, which grows from two to five feet high, with dark green, blue- veined leaves on long petioles, the lower leaves being five- lobed, and the upper often but three. The flower is hand- some, about three inches broad, of a pale yellow color, with one pistil, and five petals, which are purj^lish at the base. On the falling of the flower, a pod of triangular shape, about the size of a small walnut, is developed. This pod or capsule enlarges, and in course of ripening bursts, disclosing a snow-white or yellowish ball of down in tliree FOK OBJECT LESSONS. 267 locks, inclosing and tightly adhering to the seeds, which resemble those of the grape, though of several times the size. The cotton is, therefore, this vegetable down, which consists of beautifully fine fibres, of exquisite softness. The cotton fibre, however, when examined by the microscope, is found to have two sharp sides, to which are ascribed the irritation and inflammation of wounds and ulcers when dressed with cotton instead of lint. Some ten species of cotton are enumerated by botanists ; but of these there are only three really dififerent kinds — the herbaceous, shrub-cotton, and tree-cotton. Varieties of these three are numerous. Thus an important variety of the herbaceous is the exquisitely fine, long, and strong- stapled sea-island cotton, which is produced only on the low sandy islands along the coast of South Carolina and Georgia. The cotton-seed is planted in the spring — in the Caro- linas and Georgia about the beginning of April — in rows five or six feet apart, the distance between the holes in which the seeds are deposited being about eighteen inches. Much care in weeding, thinning, and pruning is required during the process of culture. A field of cotton at the gathering, when the globes of snowy wool are seen among the glossy dark leaves, is singularly beautiful. The cotton- bolls begin to open about the middle of July, and continue opening until the appearance of frost, from the middle to the end of October. The ^yicking is done by hand ; after which the cotton is joassed through a cottoipgin machine to free it from the seeds. It is then packed in large bales or bags for the market, by the aid, generally, of cotton press- es. The weight of the bale, however, is by no means uni- form, varying in difierent countries, and in diflerent sec- tions of the same country, at different periods, and accord- ing to the different kinds or qualities of the article. In the year 1855 a reliable publication gave the average of the Virginia, Carolina, Georgia, and "West India bale at from 300 to 310 pounds ; that of New Orleans and Alabama at from 400 to 500 pounds; Brazilian at from 160 to 200 pounds; and Egyptian at from 180 to 280 pounds. 268 MANUAL OF INFORMATION The value of the annual cotton crop in the United States is about 150 millions of dollars; and, indeed, the main de- pendence of the world has hitherto been on this country, Avhich, in the year 1857, furnished 3,500,000 bales out of a total product of 4,200,000. The price of American cot- ton per pound during the ten years ending with 1855, av- eraged a fraction over nine cents, the highest average for any one entire year being 12.11, and the lowest 6.4. The manufacture of cloth from cotton had its origin, at a very early period, in Southern and Western Asia, where the cotton-plant is indigenous, and where the climate ren- ders a light and absorbent fabric a suitable clothing for the people. Throughout the southern half of Asia and por- tions of Africa the clothing of the people is almost exclu- sively of cotton. The cotton manufacture of China is of immense amount, but it is carried on almost entirely for home consumption. It is only about three hundred years since the manufacture of cotton was first attempted in Eu- rope, and then it Avas chiefly by tedious hand-labor ; but in place of the one-thread wheel then used for spinning, and each requiring the labor of one person, we now some- times see seventy or a hundred thousand spindles whirling away in one building, the whole driven by machinery, and requiring the attention of perhaps not a dozen persons. The names given to the various kinds of cotton-goods are almost innumerable. The following may be given as some of the principal groupings. 1st, Ginghams, which consist of stout cotton, in which threads of two or more colors are woven together into stripes ; 2d. Fustians, hea- verteens, velveteens, moleskins, etc., which are woven on the same principle as velvet, with a nap or pile, which is either cut or left uncut ; 3d. DatnasJcs, huckabacks, diapers, ticks, and cambrics, Vfhich are cotton imitations of the similarly- named flaxen goods ; 4th. Quilts and coxinterpanes, which have downy tufts to increase the thickness and softness ; 5th. Shirting, sheeting, and printing calicoes, etc., which ai'e varieties of plain, serviceable cotton goods, varying in stoutness ; 6th. Chintz, which is a stout calico, afterward FOR OBJECT LESSONS. • 269 printed in several colors; Vth. Corduroys, jeans, quilting s^ etc., which are very strong cotton goods, mostly twilled ; 8th. ITicslifis, of which there are almost innumerable varie- ties, such as book-muslins, jaconet, bishop lawn, tarlatan, Scotch lawn, Victoria, India and Swiss, leno, striped, lap- pet, sprig-muslins, etc., etc., etc. The foregoing will, we trust, give some little idea, at least, of the vast importance to mankind of the famous Cot- ton Plant, which we have represented on the Chart. The Hemp ( Can' nobis sati'va, Lin. S., xx., 5 ; Nat. M., Ang. Exog., order Hempicorts) is an annual plant, growing ordinarily from six to eight feet high, springing up spon- taneously in hedges and waste grounds ; stem pilose (with erect thin hairs) ; leaves palmate, lower ones from five to seven-leafed, with the leaflets lanceolate, serrate, from three to five inches long, and one fifth as wide, the middle one the largest ; flowers small, green, solitary, and axillary in the staminate plants, but in spikes in the pistillate plants. (The male and female flowers in the 20th class are always on difterent plants.) The hemp plant is extensively cultivated in Central Asia, in many countries of Europe, particularly Russia and Po- land, and in difterent parts of North America, for its fib- rous covering or bark, which is used in the manufacture of coarse and stout cloths, canvas, cordage, etc. It is said that moi'e than 180,000 pounds of rough hemp are used in the cordage of a first-rate man-of-war, including rigging and sails. In the year 1850 35,000 tons of hemp were raised in the United States — the larger portion in Ken- tucky and Missouri.* But the common hemp has also been used among East- * What is called Manilla, or Manilla hemp, from which the stoutest of cordage is made, consists of the fibre of a species of wild banana, which grows in vast abundance in the Philippines and Spice Islands. What is known as punny cloth, or gunny bags — the bags or sacks in which nearly all the rice, paddy, wheat, sugar, pepper, coffee, etc., are exported from the East Indies — is made of the fibre of two plants which are extensively cultivated in Bengal. It is often called Indian hemp, but is a plant totally different from the common hemp. 270 ' MANUAL OP INFORMATION ern nations, almost from time immemorial, as a beverage^ for its narcotic virtues. Its narcotic properties reside in a resinous substance which is contained in the sap. In cold countries very little of this resinous substance is found in the plant ; but in warm countries it is so abundant as to exude naturally from the flowers, twigs, and young leaves. What is also singular, the fibre of the plant is worthless in warm climates. Among the Turks and Arabs, and gen- erally throughout Syria and Egypt, the preparations of hem]3 in common use are known by the name of hasJiish, and it is prepared in various forms for smoking, chewing, and drinking. When taken in moderation this narcotic produces increase of appetite and great mental cheerful- ness ; but in excess it causes a peculiar kind of deliriurn and catalepsy — the latter being a kind of spasmodic dis- ease, in which there is a sudden suspension of the action of the senses and of volition, while the heart continues to pulsate. A physician in India has given the following ac- count of one of his experiments with an Indian patient : " At two P.M. a grain of the resin of hemp was given to a rheumatic patient ; at four P.M. he was very talkative, sang, called loudly for an extra supply of food, and declared himself in perfect health. At six P.M. he Avas asleep. At eight P.M. he was found insensible, but breathing with perfect regularity. His pulse and skin were natural, and the pupils freely contracted on the approach of light. Hap- pening by chance to lift up the patient's arm, the profes- sional reader will judge of my astonishment when I found it remained in the posture in which I placed it. It required but a very brief examination of the limbs to find that, by the influence of this narcotic, the patient had been thrown into the strangest and most extraordinary of all nervous conditions, which so few have seen, and the existence of which so many still discredit — the genuine catalepsy of the nosologist. We raised him to a sitting posture, and placed his arms and limbs in every imaginable attitude. A waxen figure could not be more pliant or more stationary in each position, no matter how contrary to the natural influence FOR OBJECT LESSONS. 271 of gravity ! To all impressions he was, meanwhile, almost insensible." After a time, as it appears, the effects of the narcotic passed off entirely, leaving the patient apparently uninjured. Common Flax {Li'nuim usitatis' simum, Lin. S., v., 5 ; Nat. M., Ang. Exog., ord. Flaxworts) is an important plant, that has been cultivated from the earliest ages in some European countries ; its bark of strong fibres being manu- factured, and its seed crushed for oil. Flax is an annual, and was introduced into this country from England. It has a stem from one to two feet high, branching above ; leaves alternate, three-veined, linear-lanceolate, and acute ; flowers blue, having the sepals of the calyx, the petals, the stamens, and generally the styles, five in number. The flax is gathered by pulling it up by the roots when the seeds (contained in round bolls about the size of a pea) are ripe ; the seeds are next thrashed out, after Avhich the fibrous is separated from the woody portion, sometimes by spreading the plants upon the grass and leaving them there until the woody portions become rotten, when they are broken up and removed by an instrument called a brake, and sometimes by steeping the stems in hot watei\ and then applying the brake. The long unbroken fibres are next thoroughly hatcheled^ to remove the coarse portions of the fibre called the tow^ after which the flax is ready for spinning, preparatory to its being woven into cloth. The cloth is called linen, from the Celtic word lli7i, a thread, the Greek word linon, and the Latin linum. Hence the oil from the seed is called linseed oil — an oil used extens- ively in mixing paints, printer's ink, etc. Flax is largely manufactured into cloth in England, more than a million hundred weight of it being imported into England annually to be made into cloth in English facto- ries. Li the year 1850, 562,000 bushels of flax-seed were raised in the United States, and nearly 8,000,000 pounds of flax. Yet this only partially supplies the demand, for we annually import linen thread and linen cloth to the amount of six or eight millions of dollars. 272 . MANUAL OF INFORMATIOX The White Mulberry {Mo'rus cd'ba, Lin. S., xix., 4 ; Nat. M., Ang. Exog., ord.Morads), noted as being the tree on whose leaves the silk-ioo7'm best Ukes to feed, is usually cultivated wherever the silk-worm is reared. It is a tree, sometimes growing to a height of thirty or forty feet, with a trunk from ten to twenty inches in diameter, although when cultivated it is usually kept down as a shrub, for the greater convenience of gathering the leaves. It is readily distinguished from the black mulberry, even in winter, by its more numerous, slender, upright-growing, and white- barked shoots. The leaves are from two to lour inches long, acute, generally cordate and entire, but .sometimes lobed, and always deeply serrated. The flowers, Avhich put forth in May, are green, in small roundish spikes or heads, and are succeeded by an abundance ofichite fruit when the tree is in its native state; but cultivation has produced nu- merous varieties in the color of the fruit, such as ash-col- ored, purple, and even black. The variety called multicau- lis is black-fruited; so that we have, literally, a "white mulberry" that is hlacJc. The leaves of the mulberry abound in a milky juice, which is found to possess more or less of the properties of caoutchouc or India-rubber, according to the climate in which the tree is grown. It is doubtless owing to this property in tlie leaves of the mulberry that the threads of the silk-worm have more tenacity of fibre than those of any other insect that feeds on the leaves of trees. The leaves gathered from trees growing on a poor and dry soil, and in warm clim-ates, are better for the silk-worms, and pro- duce better silk, than those from a rich soil and cold cli- mate. The eggs from which the silk-Avorm is hatched are of a yellowish color (see Chart), about the size of a small pin- head. They are laid by a kind of grayish-colored moth (see Chart), which most persons would doubtless call a but- terfly. These eggs are hatched at the season of the year when the mulberry begins to put forth its leaves ; and the yonng are at first small black worms, about the size of a FOR OBJECT LESSONS. 273 small aut. Feeding on the tender mulberry leaves, the silk-worm grows rapidly, and comes to maturity in about four weeks. When from two to three inches long it is of a milky or pearl color, or blackish ; these latter are esteem- ed the best. Its body is divided into seven rings, to each of which are joined two very short feet. One of these silk- worms, of the natural size, is represented on the Chart as feeding on a mulberry leaf. When arrived at maturity, the silk- worm stops eating ; it begins to diminish in length, and to increase in thickness, and soon proceeds to inclose itself in an ovaUshaped yellowish ball or cocoon^ which is formed of an exceedingly slender and long thread of fine yellow silk. This silky cocoon is the silk-worm's shroud, which it proceeds to put on pi*eparatory to its burial. The silk is formed in the stomach in two little masses, and is spun from a small point, like a little thorn, near the extrem- ity of its body. By the time the cocoon is finished, the silk-w^orm has be- come transformed into an oblong roundish ball, and it then appears to be perfectly dead. This is called its chrysalis or 2nfpa state. Three of these chrysali are represented on the Chart, of the natural size. Many animals may often be seen in this state, and somewhat resembling a bean, ad- hering to old boards, the outsides of houses, etc. The worm remains in its chrysalis state, shut up in the cocoon, several days, perfectly motionless, and seemingly dead; after Avhich the cocoon bursts, like an Qgg hatching, and what was the silk-worm comes forth a dull-looking moth, with wings, such as we first described ; but these wings it never uses for flying, and it only crawls slowly about in the place where it was hatched. In this, the last stage of its existence, the insect tastes no food, but in a few days the female lays from 300 to 500 eggs, and then dies. And this completes its " strange eventful history." In order to preserve the silk, the moth is killed in the eocoon, and not allowed to come forth, otherw-ise the threads of silk would be broken. What is called raw silk is produced by winding off, at the same time, on a com- M2 274 MANUAL OF INFORMATION mon reel, the threads of several of the balls or cocoons. Without the mulberry for the silk-worm to feed upon, no silk of any value would be produced. The silk-worm is reared very extensively in China, from which country there are annually exported to England alone from two to four millions of pounds of silk. The worms are also reared throughout the British East Indies, Turkey, Greece, Sardinia, Italy, France, etc. ; and some at- tention has been paid to the silk culture in the United States. The total value of the annual production of silk in the world is estimated at tioo hundred tnillions of dollars/ Surely the little worm that creates all this value is not to be despised ; and it is very plain that the tree on which it feeds is, next to the worm itself, an article of vast import- ance to mankind. How many of the " gay belles of fash- ion" ever reflect, as they exult in their silken finery, that they are decked in the shroud which a worm wove for its own burial ! VIII. Miscellaneous. Tobacco {Nzcotia^na taha'cum, Lin. S., v., 1 ; Nat. M., Ang. Exog., ord. Nightshades) is a plant found growing wild in North America, but which succeeds well, and is extensively cultivated in most parts of the Old World. It belongs to the order of Nightshades, in which are found those virulent medicinal poisons, nightshade or belladonna, henbane, and stramonium. Tobacco is an annual plant, growing from four to six feet high, with stem and branches viscid or glutinous, and downy ; leaves from one to two feet long, lanceolate, ses- sile, and decurrent or partially clasping ; corolla pink, fun- nel-shaped, having the mouth inflated, and five-lobed ; and it has five stamens and one pistil. The fresh leaves of tobacco possess very little odor or taste ; but when dried their odor is strong, narcotic, and somewhat fetid ; their taste bitter, and extremely acrid. When well cured, they are of a yellowish-green color. When distilled, they yield an oil, on which their virtue de- FOR OBJECT LESSONS. 275 pends, and which is a virulentjDoison. The leaves are used in various ways, being chewed, smoked, and ground and manufactured into snufi'.* According to the census returns for the year 1850, the whole number of acres devoted to the cultivation of to- bacco in the United States was four hundred thousand ; product, at six hundred pounds to the acre, 240 million pounds; estimated value, fourteen millions of dollars; num- ber of tobacconists and cigar-makers in the United States, 10,823. Virginia is the greatest tobacco-growing state, next to which is Missouri. British writers state that about twenty-six thousand tons of tobacco are annually consumed in Great Britain, and Ire- land, and that more than half of this quantity is smuggled into the country, on account of the excessive duties (up- wai'd of 1000 per cent.) levied on the article. These du- ties amounted, during the year ending January 5th, 1853, to nearly twenty-three millions of dollars. Tlie revenue which the French government derived from the tobacco imported into France during the first nine months of the year 1857 amounted to more than twenty-five millions of dollars ! The United States supplies about two fifths of all the tobacco consumed in Europe. It is said that tobacco is, next to salt, probably the arti- cle most universally" consumed by man. In one form or other, but most generally in the form of fume or smoke, there is no climate in which it is not consumed, and no na- tionality that has not adopted it. To put down its use has equally baffled legislators and moralists ; and, in tlie words of Pope on a higher subject, it may be said to be partaken of " by saint, by savage, and by sage." A Ger- man writer has preserved the titles of a hundred volumes * The late Col. Stone, editor of the Commercial Advertiser of New York city, in one of his lectures against the vise of tobacco, describes a sign which was placed upon a store occupied by three brothers, dealers in tobacco. It read as follows : "We three, brothers be, in the same cause; Jim snuffs, Jo puffs, and I chaws." 276 MANUAL OF INFORMATION which have been Avritteu ggainst tlie use of tobacco. Among these books is that of James Stuart, King of En- gland, who describes the smoking of tobacco as " a cus- tom loathsome to the eye, hateful to the nose, harmful to the brain, dangerous to the lungs, and in the black stink- ing fume thereof nearest resembling the horrible Stygian smoke of the pit that is bottomless." Medical writers have generally condemned the use of tobacco in the strongest language ; and, as Professor John- ston says, "It is remarkable how very few persons can state distinctly why they began, and for what reason they continue the indulgence." The botanist Lindley thus de- scribes the properties and eifects of tobacco: "It is a pow- erful stimulant narcotic, employed medicinally as a seda- tive, and in vapor to bring on nausea and fainting. When chewed, it appears to impair the appetite, and induce tor- por of the gastric nerves. Although, if smoked in mod- erate quantities, it acts as a harmless excitant and sedative, yet it is a frequent cause of paralysis when the practice is indulged in to excess. Oil of tobacco, which is inhaled and swallowed in the process of smoking, is one of the most violent ^f knoAvn poisons. The Hottentots are said to kill 'snakes by putting a drop of it on their tongues ; and the death of these reptiles is said to take place as instantane- ously as if by an eleqtric shock." There is very little doubt, when we consider the enor- mous extent to which tobacco is used throughout the world, viiat it actually produces more disease, suffering, and death than ardent spirits themselves. Such is the tes- timony c" eminent medical men and physiologists. Coc'cuLUS In'dicus (Anamir'ta cer'rulus, or Metiisper'- nnim cer ridus, Lin. S., xx., 10 ; Ang. Exog., ovd. 3fenis2)er' mads) is a twining East Indian plant, a narcotic poison, with large, orbicular, and sub-cordate leaves ; flowers green and yello«7, producing clusters of berries like grapes, but smaller, fi>'st white, then red, and finally blackish-purple. In the E.-oC Indies these berries are made up into a paste, and used to intoxicate fish, birds, and different sorts of FOR OBJECT LESSONS. 277 vermin / but in civilized countries they are largely used to adulterate ale and beer, and to poison and intoxicate men aiid loomen. Professor Johnston says : " The bruised seeds of this plant impart to beer an intensely bitter taste, and can thus be substituted cheaply for about one third of the usual quantity of hops, without materially affecting the flavor of the beer. They give a fullness and richness in the mouth, and a darkness to weak and inferior liquors. In these respects a pound of Cocculus indicus is said to be equivalent to four bushels of malt ; hence disreputable brewers are tempted to use it largely." The English gov- ernment has imposed a heavy penalty upon brewers Avho use it, and upon druggists who sell it to them ; but yet an extract from this poison, called Pereira., is extensively em- ployed in the breweries of England, and probably in those of this country ; and writers on brewing give plain direc- tions for using the drug. Such facts should be a caution to ale and beer drinkers. Vanilla ( Yanilla aromat'ica^ and also Manilla "plani- folia, Lin. S., xviii., 1 ; Nat. M., Agl. End., ord. Orchids), Avhich furnishes one of the most delightful of aroraatics known, is a species of vine, extensively cultivated in Mex- ico, and in some countries of South America. It rises to the height of eighteen or twenty feet, shoots out roots at every joint, like the ivy, by which it clings to the bark of trees; its leaves are ovate-oblong; flowers of a greenish- yellow color, surrounded by the long and wavy sepals of the calyx ; fruit a pulpy pod, eight or ten inches long and scarce an inch broad, of a yellow color when gathered, but changing to a dark brown or black. This fruit is wrinkled on the outside, and full of a vast number of seeds, like grains of sand, having a peculiar and delicious fragrance. Not only these seeds, but the pods also, when properly prepared, are used in the manufacture of chocolate, and in various drinks, ice-creams, candies, etc., etc., to give them an agi'eeable flavor. The pod, when ripe, is said to yield from two to six drops of a liquid, which has an exquisite odor, and which is known as balsam of vanilla. This bal- 278 MANUAL OF INFORMATION sam, however, is seldom seen. The dried pods constitute most of the vanilla of commerce. The amount of vanilla imported into and consumed in this country is believed to exceed 5000 pounds per annum, valued at from $20 to $30 a pound. The Varnish-teee {Melanorrhoe! a usita'ta^ Lin. S., xx., 1 ; Nat. M., Ang. Exog., ord. Anacards or Terebinths) is introduced on the Chart as the representative of a class of trees and shrubs having a resinous, gummy, caustic, or milky juice, often poisonous, and from some of which an excellent varnish is obtained, much used by Eastern na- tions. Among these vai'nish-trees are the Cashew-nut, the Marking Nut-tree, the Semecarpus, the tree from Avhich the Japan lacquer is obtained, several trees which produce the copal varmsh, and the one we have represented on the Chart, called, by way of distinction, the Varnish-tree. This is a large tree, a native of Hindostan, China, etc., having blunt, obovate leaves, in whorls of six, and deep red flow- ers. The varnish-drug is the sap of the tree, and it is used extensively for painting river craft, and for varnishing ves- sels destined to contain liquids. Among some of the East- ern nations, every article of household furniture destined to contain solid or liquid food is lacquered over with it. The drug is also used as a glue-sizing in the process of gilding ; the Burmans use great quantities of it in gilding their idols, and also for their religious writing upon ivory, palm- leaves, and metals. FiSH-roisoN {Tephro' sia toxica' ria^ Lin. S., xvi., 4 ; Nat. M., Ang. Exod., ord. Legximinous plants) is introduced on the Chart as the representative of quite a number of plants which are used, in different countries, for stupefying fish. The plant here represented is nearly allied to the Indigo plant, and is cultivated in some of the West Lidia islands. It is also found growing wild in South America. It is about three feet high, with oblong-lanceolate, blunt, and ash-colored leaves ; purple flowers, in a long terminal ra- ceme ; pods long, round, and spreading from the stalk. The leaves, branches, and pods, well pounded, and thrown FOR OBJECT LESSONS. 279 into a river or pond, very soon affect the water and intox- icate the fish, so as to cause them to iioat on the water as if dead. Most of the large fish recover after a short time, but nearly all the small ones perish. The Cocculus indicus is used for the same purpose, also the Brazilian Phyllanthus, Angostura and Cinchona bark, the Chaubnoogra of the Hindoos, the evergreen Took or Hydrocarpus, and many other plants. IX. Plants used for Coloring. The Indigo Plant {Indigo' f era tincto'ria, Lin. S., xvi., 4 ; Nat. M., Ang. Exog., ord. Legtcminous plants) is exten- sively cultivated in the East Indies for the drug which yields the beautiful blue dye known by the name of indi- go. It has a woody stem, from three to six feet high ; leaves pinnate and oblong ; flowers purple, and papilio- naceous or butterfly-shaped ; the fruit a long, round, curv- ing pod, containing the seeds or beans. The indigo is obtained by cutting the plant before it comes into flowei-, and thoroughly steeping it in water un- til it has parted with its coloring matter, which, when drained off, is foimd to be a thick substance; and this dries, and becomes hard on exposure to the air. It is an article in very general use, and is found in most country stores. A species of the indigo plant is also cultivated in Cen- tral America and Venezuela ; and it may be raised without difiiculty in the southern United States. The consumption of indigo in England amounts to about two railHon pounds per year, most of it obtained from the East Indies. The United States use about three quarters of that amount. The ordinary kinds may be bought for about 75 cents per pound, but the best indigo is usually worth two dollars per pound. Befoi-e indigo came into use in Europe, the blue coloring matter used was obtained from a plant called woad., which was extensively cultivated. The ancient Britons and Picts colored themselves with the juice of the woad. Indigo is 280 MANUAL OF INFORMATION almost the only dye-stuff noAV used for giving a blue color to cloth ; yet several plants yield it in small quantities be- sides the one we have described. A blue is sometimes given to silk by means of verdigris and logAvood, but it possesses little durability. Saffro:n^. — The substance called saffron consists of the dried stigmas of the Fall Crocus {Cro'cus sati'vus, Lin. S., iii., 2 ; Nat. M., Agl. End., ord. Irids), which is a well- known perennial, bulbous plant, of the Iris order. The Fall Crocus grows about six inches high ; leaves radical (starting from the root) and linear; flower with a long, white, slender tube, extending down nearly to the bulb, and having the segments above purple ; stigma long, three- cleft, projecting beyond the flower, and of a rich, deep or- ange-red color, or what is called saffron. Saffron, Avhich is one of the richest yellows, is much employed by painters and dyers ; it was formerly much used in medicine, and it is now often used to color butter and cheese, sauces, creams, biscuits, conserves, etc. It is a harmless substance, which is more than can be said of most of the coloring matter used in confectionery and in the kitchen.* LoGAVOOD {IIcBmatox'ylon Canipechia' nxim^ Lin. S., x., 1 ; Nat. M., Ang. Exog., ord. Leguminous Plants), which is very extensively used as a dye-wood, is a crooked-stemmed low tree, Avhich grows in gi-eat abundance, and attains its highest perfection, in the forests of Campeachy, in the West * Among other plants used for coloring yellow, we may mention, 1st. Dter's Weed (Rese'da luteo'la), which affords a most beautiful dye for cotton, woolen, mohair, silk, and linen. The yellow color of the paint called Dutch Pink is obtained from this plant. 2d. Fcstic-wood {Mo'- rus tincto'ria), a species of the mulberry-tree. 3d. Catechu, a name given to several plants. 4th. Anotta, obtained from the berries of Bix'a orella'na. 5th. Quercitron Bark (Quer'cus tincto'ria), the bark of the North American black oak. 6th. Dyer's Broom {Genista tinc- to'ria). 7th. Turmeric (Ciir'cuma lon'ga); and, 8th. Chamomile (.4n- the'mis tincto'ria), which yields a faint yellow ; also a species of Cartha- mus, often called saffron. The flowers of Car'thcfimis tincto'rius are ex- tensively used by the Chinese, in connection with different acids, to give some of the fine rose, scarlet, purple, and violet colors to their silks. The Carthamus is cultivated in many parts of Europe. FOK OBJECT LESSONS. 281 Indies. This tree resembles the white thorn, but is much larger. It has abruptly pinnated leaves, with obcordate leaflets, and yellow flowers on a terminal spike. The inner bark and wood are red ; the latter dark, and very red. This wood is imported in logs, which are afterwai'd cut intqjiue chips; and these chips, which impart their color to water and alcohol, are used for coloring. A section of the stem is represented on the Chart. Among other plants used for coloring red are the Bra- zil wood, or Pernambuco wood of commerce (used in mak- ing red ink), madder, and camAvood, the latter yielding a brilliant red color, but one that is not permanent. Cam- wood is very much used for staining pine and white wood coffins; and the dark red seen in the English bandana handkerchiefs is produced by it, rendered deeper by sul- phate of iron. (The cochineal used for dyeing crimson, and also some of the scarlet hues of red, consists of small insects., of which there are about 70,000 in a pound. This cochineal is a powdery-looking substance, scraped from the leaves of a cactus plant, and so small are some of the insects that it requires the microscope to detect them.) Madder [Ru'bia tmcto'runi^ Lin. S., iv., 1 ; Nat. M., Ang. Exog., ord. SteUates, or Star Flowers), a native of the south of Europe, Asia Minor, and India, is a trailing or climbing plant, the root of which is extensively used by clothiers and caltco-printers for dyeing the scarlet reds. What is called Turkey red is produced by the madder from Turkey. The roots are nearly half an incli in diameter ; they strike deep into the ground, and grow to the length of three or four feet. They are dried, and then pounded or ground. What is sold under the names of mull., gameen, crops, and garance, is pounded madder. The madder has an annual, herbaceous, quadrangular stalk, covered with prickles, which give it support in climb- ing ; leaves mostly in whorls of six ; flowers yellow ; and fruit a double-celled drupe or berry, as represented on the Chart, with a part of the flower at J, and the double ker- nel at c. 282 MANUAL OF INFORMATION In the process of dyeing cloths, some substance must gen- erally be used to fix or set the color — that is, to make it durable, and prevent it from washing out. Thus, when cotton cloths are to be colored with madder, they are gen- erally steeped or boiled previously in alum Avater, The substance or jireparation which is used to fix the color is called a mordant. The principal mordants are alum, tin, tartar, some of the oxides of lead and copper, and nut-galls. We have thus described, briefly, the plants used in dyeing the three primary colors, red, yellow, and blue. The tints, hues, and shades of these are produced by various mix- tures, on the principles explained in the article on colors, I3age 107, and also by the use of various mordants. What is called broion proper, hoAvever, Avhich has in it a shade of yellow, and is called by the Yvench faicn color {Jaime), is obtained without mixtures from several vegetable sub- stances, the principal of which are sumach, the peels which constitute the green covering of the nut of the common walnut, or shell-bark hickory, the bark of the common white birch, and sandal 'wood. X. Spices. Allspice, Pimento, or Jamaica Pepper, is the fruit of a beautiful tree {Ilyr'tus 2n7nen'ta, Lin. S., x., 1 ; Nat. M., Aug. Exog., order Myrtlehlooms), which groAvs in great abundance on hilly lands on the north side of the island of Jamaica. The tree grows about tAventy feet high, Avith a smooth broAvn trunk ; leaves of a shining green, oblong- lanceolate, and acuminate ; flowers fragrant, white, very abundant, and in panicles ; berries round, pulpy, purple, becoming reddish-brown or nearly black Avhen ripe. The berries are gathered before they are ripe, when they soon become wrinkled, as they are seen in the shops. They have an agreeable, aromatic, and somcAvhat astringent taste, resembling that of a mixture of cinnamon, cloves, and nutmegs: hence they have been called "Allspice," from their taste being thought to resemble a composition FOR OBJECT LESSONS. 283 of all other spices. The yield of the pimento is abundant, a single tree having been known to produce, in one season, 150 pounds of the raw, or 100 pounds of dried fruit. During the year 1856 the imports of the pimento into the United States were nearly five millions of pounds, val- ued at 352,000 dollars. The average price in the market may be set down at fourteen cents per pound. The buds and berries of the common myrtle {Myr'tus commu'nis) Avere eaten as spices by the ancients, and are still used, instead of pepper, in Tuscany. Among the Myr- tleblooms are the pomegranate, cloves, the guava fruits (from which guava jelly is made), the rose-apples of the East, and some very hard-wooded trees, the most famous of which is the lignum vitm of New Zealand. Ginger is the dried root of a plant {Zin'ziber officma'le, Lin. S., i., 1 ; Nat. M., Agl. End., ord. Gingerioorts) which is a native of the East Indies and China, but which is now cultivated in great quantities in the West Indies. The ginger plant has perennial, creeping, tuberous roots, from which arise green, reed-like, annual stalks, about two feet and a half in height, having narrow and lanceolate leaves. The flowering stalk ends in an oblong scaly spike, as represented on the Chart, and from each of these scales a single red or purplish flower is produced. The roots of ginger are taken up when the stalks fade. The best are then washed with care, scraped, and dried in the sun, and these produce the white ginger of commerce ; the poorer roots are scalded before being dried, and these produce what is called black ginger. What is known as preserved ginger consists of the root taken up before it is full grown, scalded, and preserved in sirup. The amount of ginger annually imported into the United States is val- ued at about 65,000 dollars. Ginger is used not only as a spice in cooking, but also as a medicine. Dried ginger has a pungent, aromatic odor, and a hot, biting taste. It makes a stimulating drink, use- ful in colic, debility, and laxity of the system. (Among the Gingerworts, which are mostly aromatic. 28-i MANUAL OF INFORMATION tropical, herbaceous plants, and generally of great beauty, are numerous species used as spices ; the warming carda- mom seeds of the druggist ; grains of Paradise, used to give a pungent flavor to spirituous liquors ; several which yield a starch-like arroAV-root, and the turmeric used in dyeing yellow.) The Cinnamon of commerce is the bark of the cinnamon- tree {Lau'rus cmnamo'miim, Lin. S., ix., 1 ; Nat. M., Ang. Exog., ord. Laurels), a native of Ceylon, where it grows in abundance, and also of Cochin-China, and perhaps of some other countries. The cinnamon-tree grows to the height of about twenty feet, has a smooth ash-colored bark, a short, erect trunk, and Avide-spreading branches ; leaves of a bright green above, pale beneath, white-veined, ovate-ob- long, and tapering at the aj^ex ; flowers green and yellow, iu panicles, and inodorous ; fruit the size of an olive, soft, insipid, and of a deep blue, inclosing a nut. The inner bark, Avhich is taken from branches of two or three years' growth, is considered the best. There are several species of cinnamon from Avhich the bark is obtained. Good cin- namon has an agreeable, Avarm, aromatic flavor, and a mild, SAveetish taste, not so pungent but that it may be borne on the tongue Avithout pain. Oil of cinnamon is obtained from the leaves, and oil of camphor from the roots. What are called cassia-huds are mostly the fleshy recejitacles of the seed of the true cinnamon-tree. (Most of the numerous species of the Jjaurd order are more or less aromatic and fragrant. Our sassafras belongs to the same order. The true cassia bark and buds {Lcm'- ms cas'sia) are used for the same purposes as cinnamon ; and most of the camphor of commerce is obtained, by dis- tilhation, from the roots and smaller branches of one of the Laurels {Lau'rus cam'p/wra^, usually called camphor-tree, although the cinnamon-trees also produce camphor.) The XuTMEG-TREE {Myris'tica moscha'ta, Lin. S., xx., 13 ; Nat. M., Ang. Exog., ovd. Nutmegs) is a native of the East Indies, Avhere it is extensively cultivated, especially in the Molucca Islands and Sumatra. It grows to the height FOR OBJECT LESSOIS^S. 285 of thirty feet ; leaves oblong, acuminate, of a fine green on the upper surface, and gray beneath ; flowers small, white, bell-shaped, and without any calyx f^ the fruit a smooth, fleshy, reddish berry, about the size of a small peach, but more pointed at both ends. The outer pulpy part of the fruit is nearly half an inch thick ; but this dries up when ripe, and forms a coriaceous (leather-like) crust, which opens and discovers a second covering, of a fine reddish-yellow, somewhat like the thin skin of an orange. This second covering or skin, which is taken ofl'by itself, and used as a spice, is what is common- ly called Mace. It has a pleasant aromatic smell, and a warm, bitterish, pungent taste. Within this covering of mace is a nut, having a hard black shell, and containing a round, heavy, brightish-gray kernel, which is the nutmeg of commerce. There are several varieties of the nutmeg-tree, but that denominated the green nutmeg, which bears a small round nut, is the best. During the year ending June 30th, 1856, there were imported into the United States about 600,000 pounds of nutmegs, valued at 326,000 dollars. During the same year there were imported about 45,000 pounds of mace, valued at 24,000 dollars. The nutmeg can be used safely in small quantities only. In excess it produces oppression of the chest, intense thirst, headache, and even delirium and fatal apoplexy. The Clove-tree ( CaryophyVlus aromat' reus., Lin. S., xi., 1 ; Nat. M., Ang. Exog., ovA.3fyrtlehlooms) is a native of the Molucca Islands, Avhere it has been produced in great abundance from the earliest known records. It is now cultivated to some extent in the West Indies. The clove is a handsome tree, about twenty feet in height, with leaves nearly resembling those of the laurel. First the elongated greenish-yellow flower-buds, which are the calyx of the flower, appear ; then from their extremity the corolla shoots forth, of a delicate peach-blossom color. * Some botanists consider that the nutmeg has a white calyx, and no Corolla. 286 MANUAL OF INFORMATION When the corolla begins to fade, the calyx turns first yel- low and then red. At this latter stage the calyx buds are beaten from the tree, and, after being dried in the sun, are what are known as the cloves of commerce. If allowed to remain on the tree too long, the pungent jDroperties of the clove are in great part dissipated. The average produce of a clove-tree is about two pounds of dried cloves jaer an- num. Good cloves, which should be large-sized, perfect in all parts, and of a dark brown color, approaching to black, have a strong, fragrant, aromatic odor, and a hot, acrid, aromatic taste, which is very permanent. For culinary purposes, the uses of cloves are almost innumerable. Oil of cloves, which is obtained from cloves by distillation, is extremely hot and fiery, and of a pale reddish-brown color. As cloves readily absorb moisture, and are sold by the ounce or pound, it is said that some merchants keep a quantity beside a vessel of water, by which means a con- siderable addition is made to their weight. Other Spices. Black Pepper, a very common spice, is the fruit of a chmbing plant {Pi'per ni'grum) which is extensively cul- tivated in the East India islands. It considerably resem- bles the grape-vine, with leaves somewhat like those of the ivy. It bears spikes of green flowers, which are followed by red berries. These, when gathered and dried, become deep brown or black, and are the black pepper of com- merce. There are about eighty species of the pepper genus. About seven millions of pounds of black pepper are imported into the United States annually. White Pepper is made by blanching the finer grains of the common black pepper, and gently rubbing them, so as to remove the dark outer coat. It is much prized by the Chinese, but is seldom seen here. Cayenne Pepper is the produce of several varieties of Cap^sicum, an annual plant, a native of both the Indies, producing either a ]>endulous oblong or globose fruit, one FOR OBJECT LESSONS. 287 species of wliicli is common in our gardens, and is usually known as Red Pepper (Cap'siciim an'nuum). The best of Cayenne pepper is the Cap'sicuni bacca'timi, or Jjtrd pepper. The Cayenne seen on our tables is the pod, dried, and reduced to powder. Cayenne pepper has an aromatic, extremely pungent, acrimonious taste, setting the mouth, as it were, on jfire, and leaving the impression long on the palate. Red pepper is much used in a green state for pickling, and, when ripe, for mixing with other ingredients, as to- matoes, etc., to form sauces. It is also dried and ground, and used like Cayenne pepper. The annual production of black, white, and Cayenne joepper, in the East Indies, is about fifty millions of pounds. Among garden herbs often used as spices for cakes, and in various other kinds of cookery, are the seeds of anise, caraway, coriander, dill, fennel, lavender, and the leaves and seeds of sage, summer savory, sweet marjorum, thyme, etc. The pupils should tell what they know of these, and bring in specimens, that all may learn to recognize them. "We have thus glanced at afev) of the Economical Uses of plants ; and yet, in our brief survey, we have found that plants furnish us, directly, with most of our food — with our cereal grains, bread-fruits, and other fruits, innumerable in kind and quality ; with our tea, and coifee, and cocoa, and chocolate ; with numerous other drinks to soothe, to stim- ulate, to intoxicate ; with sugar, and spices, and colors, and medicines, and poisons ; Avith gums, and varnishes, and bal- sams ; with oils, and butter, and milk ; with wood for build- ings, and furniture, and tools, and fuel j and woody fibres for roiJcs and for clothing. APPENDIX. I. AN APPROXIMATE PROGRAMME FOR A COURSE OF ELEMENTARY INSTRUCTION DURING THE FIRST TEN YEARS OF SCHOOL LIFE. As the various subjects of instruction introduced in the foregoing pages are treated there in consecutive order, while many of them are necessarily brought forward in the school exercises of any one day, week, or term, an explanatory programme is needed to set forth clearly, and make available, the plan of instruction contemplated. Thus, although the six Reading Charts are taken up, in the preceding Manual, in the order of their numbering, and their uses explained, yet, while the pupil has three or four daily exercises in reading, he has, also, exercises in several other studies or departments, such as Counting, Adding, Printing and Drawing, Size and Form, Color, Animals, Plants, etc. ; and these require the use of several additional Charts. Hence the daily routine of the schoolroom requires its programme, with suit- able directions to the teacher for conducting the exercises, with refer- ences not only to the various Charts, but also to the various other aids — natural objects, etc. — needed ; and also with references to the sources of the information which the teacher may desire to make available. The following programme is designed to meet, in part, these wants, and to lay down a plan of scholastic training, not only from the Charts, and in "Object" teaching proper, but in a// the subjects that enter into a course of elementary instruction during the first eight or ten years of school life. And yet this programme professes to be only an approximation toward what is needed by the teacher. Every thorough teacher must, indeed, make his own programme ; and the following sketch is given to aid him in doing it. We can present the number and names of studies which we think it expedient to be introduced for any particular grade of pu- pils, together with the general modes of instruction which we think most appropriate ; and we can give some of the information which the teach- er needs, and make suggestions which we think valuable ; but, after all, the teacher must, of himself, carry out the details. N 290 APPENDIX. In our ^^approximate' programme wc have commenced with the first year of school life, and carried the plan through ten years, dividing each year into two terms. The studies of each term are designed for a par- ticular grade of pupils. We have presented twelve subjects for the first term, but have neither designated the daily order in which they should be taken up, nor the time to be devoted to each. Each teacher must, necessarily, regulate these things according to the wants of the class (or grade), and according to the time which he can devote to it. For convenience of reference, we have attached the same number (in heavy type) to the same study throughout the several terms or grades, so that the teacher can easily follow out the entire course of instruction in any one study. To save space, when the course of instruction in any study is similar to the course in any preceding term, the pi'cceding term and study are referred to by the marginal number opposite the name of the study. Although this programme is necessarily arranged on tiie supposition that pupils are to go through with the whole, consecutively, from the beginning, yet there is no difficult^' in adapting the course of instruction in any school to it, or in allowing a class to take it up at any stage, or in any year of advancement. Suppose tliere are one hundred pupils in a school, and that they are in five different grades of advancement, fi-om mere bcfjinners, to those in the fiftli year of school life. If the teacher wishes to put those pupils, who are in the fifth year, into this course, let him require the class to go back, and go over the programme in the manner of a review, and thus bring up those subjects only in which the class is deficient, until the class is prepared to advance systematically. The same may be done with each grade of pupils in the school, so that all may soon be pursuing the regular course of the pi'ogramme. Even here, however, it will probably happen that teachers in different schools will find it expedient to vary the programme in diflferent ways. All should exercise their ingenuity in bringing in suitable exercises addi- tional to those we have marked out ; but it may also happen that it may be desirable for a class to lag behind the programme in some one sub- ject, and to go in advance of it in another. The teacher must exercise his best discretion in all such particulars, using the programme as a gidde by which to form a better if he can, or one better adapted to the circumstances of his school. It may not, perhaps, be improper to express our views of the results of such a course of elementary training as we have here marked out. It has been our leading object to make it disciplinary ; such as would best conduce to the highest degree of mental, moral, and physical cul- APPENDIX. 291 ture ; 'cind we honestly believe that, in this important particular, the sys- tem here sketched in outline is immeasurably in advance of the common course of instruction in our primary schools. It aims to train all the faculties in their proper order, and to provide them, as far as possible, with the natural means, methods, and materials for development. If wo succeed in successfully cultivating the perceptive faculties in early life, as is the aim of a true "object" system of instruction, we know that, through them, the rudiments of all knowledge will be most successfully acquired also ; for the very exercise of these faculties necessarily stores the mind with ideas of objects and events, and of the qualities and rela- tions of things, thus contributing to both mental growth and strength. Discipline and acquisition should, indeed, go hand in hand in any sys- tem of instruction ; but where discipline is sought by a forced and arbi- trary exercise of any faculty — as by memorizing words without mean- ing, learning sifjns before we have any ideas of the things signified — we do violence to nature, and the mental powers are weakened. It is by harmonizing viental discipline ivith mental acqidsition, vpon the basis of the natural order of development^ that ive hope for the happiest results to the cause of Education. FIRST SCHOOL YEAR. FIRST TEEM. 1. 1. Reading and the Alphabet. — Calling words at sight, from Chart No. I. See Manual,* p. 26. Also begin Chart No. II., Manual, p. 28. Three or four short lessons daily. Cultivate a natural manner of speaking the words. See, also, for suggestions, Calkins's Primary Object Lessons, p. 278-288. Also Calkins's IManual. The Alphabet is to be taken up when the pupils can readily call the words at sight on Chart No. I. See Manual, p. 2G. Two or more lessons daily. Spelling. See next term. 2. 2. Counting. — Begin with counting pebbles, beans, etc., from one to thirty. See Calkins's Primary Object Lessons, p. 138-9. Also, make use of the letters in the words on Chart No. I. See pre- ceding Manual, p. 26. 3. 3. Printing Letters, and Dra-wing. — See Manual, p. 26-7-8. Also Primary Object Lessons, p. 94-5-6. Use slate-pencils or lead- pencils. Chart No. XL may also be used to copy from. 4. 4. Oral Compositions : Language. — See, Manual, p. 28 and 29. Be careful to correct all faulty language in the pupils. See, also, suggestions in Manual, p. 14 to 18. * Where " Manual" is referred to, it is the present work. " Calkins's Manual" is refeiTed to by name. 292 APPENDIX. 5. 5. Size and Form. — See Primary Object Lessons, p. 49, 50, lGO-162. Use the blocks illustrating the figures on Chart No. XII. Give the names, with but little explanation. 6. 6. Color. — See Primary Object Lessons, p. 112-114; Chart No. XIII., and through verse 1 of Manual, p. 92. Make use of the Hand Color-cards. 7. 7. Animals. — Let pupils name all the diiferent kinds (species) of animals which they have seen, describing them, and naming their parts and uses ; also let them point out and name all the animals represented on Chart No. I. See, also, Calkins's Manual. Let the teacher tell what he has seen animals do, etc., and thus in- terest the children in the subject. 8. 8. Plants. — Let pupils name (and describe as well as they can) all the kinds of trees they know ; also kinds of grain, garden veg- etables, shrubs, herbs, weeds, etc., bringing in and examining spec- imens of as many diiferent kinds of leaves and flowers as they can, describing the forms of their 7oots, etc. Also point out the simi- lar forms of leaves, flowers, roots, etc., on Chart No. XIX. See, also, Calkins's Manual. 9. 9. Physical Esrercises every half hour. Human Body, etc. See Primary Object Lessons, p. 186-188, 190-192, and 229. We would enjoin upon trustees, directors, etc., the importance of hav- ing pleasant and inclosed plaj^-grounds.* 10. 10. Manners and Morals. — Pupils, at this stage, should be told simple stories, incidents, etc., illustrating principles in Man- ners and Morals. Some excellent ones, with suggestions, etc., may be found in "Cowdery's Moral Lessons." Do not read the stories to them. 11. 11. Miscellaneous Objects — designed to carry out a sys- tem of familiar " Object" teaching. See Calkins's Primary Object Lessons, p. 26 to 35. 12. 12. Construction. — See suggestions on this subject, p. 54 of Manual. Give children several pairs of straight sticks, and let them lay them on the tables, two by tivo, in as many different po- sitions as possible. Then let them draw the same positions on the blackboard. Arrange three sticks and three straight lines in a sim- ilar manner. Also ])rovide them with a large number of small wooden blocks, like bricks, of uniform size, and let them build walls, pillars, buildings, etc., with them. Music should beintroduced two or three times each day, if tte teacher can sing, or if several of the older pupils can lead the oth- ers in singing. * Great attention should be given, /rom the beginning^ to tlie cultivation of a haMt of erectness of fomi and position. Wliile sitting at the dealc, using the pencil or pen, etc., keep the body erect. APPENDIX. 293 SECOND TERM. 13. 1. Reading, the Alphabet, and Spelling. — Same as first term, and continued through Chart No. II. See, also, Manual, p. 28, 30, 31, and 32. When pupils can call the words readily at sight, they may go over what they can thus read in concert exer- cises once a day. Be very careful, however, to have them repeat the words in a free and natural manner. Spelling. First introduced. Spell orally, and also with Type Letter-cards. See Manual, p. 29. 14. 2. Counting. — Continue as before directed. See, also. Pri- mary Object Lessons, p. 139-U6. Preceding Manual, p. 30, 31, 32. 15 3. Printing Letters, and Draaving. — Same as before. See, also, Manual, p. 29, 30, 31. Charts X. and XI. Primary Object Lessons, p. 96, 97. 16. 4. Oral Compositions, Language. — Same as before. See, also. Manual, p. 28, 30, 31, and 32. Be careful to correct all un- grammatical expressions of the pupils. 17. 5. Size and Form. — Same as in preceding term. Also Pri- mary Object Lessons, p. 50-54. 18. 6. Color. — Same as preceding tenn. 19. 7. Animals. — Same as in the preceding term; and, in addi- tion, let pupils point out and name all the animals represented on the upper part of Chart XV. Anecdotes of the kinds of animals mentioned. See Calkins's Manual : Programme, etc. 20. 8. Plants. — Continue the course of the exercises marked out for the preceding term. 21. 9. Physical Exercises. — See preceding term. Also Calkins's Primary Object Lessons, p. 230-241. Let them be introduced as often as pupils weary of any employment. 22. 10. jVIanners and Morals. — Same as first term. See, also, \ Calkins's Primary Object Lessons, p. 349-358. Also, a little vol- inne by Jacob Abbott, ' ' Learning about Eight and Wrong." Also, Sedgwick's "Morals of Manners." 23. 11. Miscellaneous Objects. — Same as first term ; also, sec Primary Object Lessons, from p. 26-35. 24. 12. Construction. — Extend the exercises of the preceding term to four and five straight sticks and straight lines. In addi- tion to the uniform wooden bricks, supply pupils with wooden blocks, pillars, columns, etc., of various shapes and sizes, for build- ing houses, arches, bridges, etc. Music should be introduced two or three times each day if the teacher can sing, or if some of the older pupils can lead the others in singing. 294 APPENDIX. SECOND SCHOOL YEAR. FIRST TERM. 25. 1. Reading and Spelling. — Review Charts I. and II., and contiuiie the exercises as directed on p. 28, iiO, and 31 of Manual. Go through Chart No. III. See Manual, p. 32-3, and begin Chart No. IV. ; Manual, p. 35. Begin reading in Primer also. Occasional concert exercises as before. See, also, in this connec- tion, the 10th division of exercises for this term — "Maxims and Mottoes." Spelling. SeeManual, p.30, 31,and 32. Accustom the pupils to tell what the words mean. Thus, when they spell "cat," let them tell what the word cat represents — that is, tell what a cat is. 26. 2. Counting. — Continue as before (2 and 14). Primary Ob- ject Lessons, p. l-tG-8. See, especially, Manual, p. 32. Let pu- pils use the Type Letter-cards, if they have them, to set up the figures representing the numbers, or let them print the figures on the blackboard or on their slates. 27. 3. Printing, Draaving, and Writing. — Same as before (3 and 15), and p. 31, 32, 34, and 52 of IManual. Also, if pupils are now familiar with the Roman letters, let them copy the words in script on Chart No. IX., thus beginning with writing. Use slate-pencils or lead-pencils for this purpose. It is to be expected that these sketches will be exceedingly rude at first, but they will amuse the pupils, and give freedom to the movements of the hand. 28. 4. Oral Compositions : Language. — Review former exercises. Also see Manual, p. 31, 32. Continued correction of ungrammat- ical expressions. 29. 5. Size, Form, Lines, Measures, and Solids. — Same as be- fore. See, also. Primary Object Lessons, p. 1G0-1G5. 30. 6. Color. — Same as before. Continue selecting and matching colors. Through verses 1 and 2, Manual, p. 92-3. Chart No. XIIL 31. 7. Animals. — Same as in preceding term. See, also, Calkins's Manual. Descriptions and anecdotes of the kinds of animals de- scribed. Lessons on Birds. 32. 8. Plants. — Continue the course marked out for the first term of the first year. Teach children to compare plants, and note their differences. Let them try to find two leaves of clover, or of jiny other plant, just alike, and tell wherein they differ. This will lead them to observe, carefully, a thousand jiarticulars which would otherwise pass imnoticed, and also to put their ideas thus acquired into language. 33. 9. Physical Exercises. — Continued as before directed (9 and 21), but less frequent as pupils become older, and as their interest increases in other school exercises. APPENDIX. 295 34. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (10, 22). Also, as pupils are now supposed to be able to read from Charts I., II., and III., and from the Type Letter-cards, take up the " Maxims and Mottoes" (see Manual, p. 295), one each day, and go through from No. 1 to 20. In the morning the teacher announces the maxim or motto for the day, and allows some pupil to set it up with the Letter-cards on the Composing-frame, or to write or print it on the blackboai-d, where it remains in view of the whole school. Before dismissing for the day the teacher calls on one or more pupils to rise and repeat the maxim, and tell its meaning if they can. Probably the younger pupils will not be able to accomplish much at present in this exer- cise ; but after the teacher has drawn from them what ideas he can, he himself should illustrate and enforce the meaning.* 35. 11. Miscellaneous Objects. — Review and enlarge upon the ground previously gone over. Name objects to children, and let them tell their parts. Thus, name the different parts of a house ; of the human frame ; of a table, window, watch, hat, sled, apple, peach, book, stove, chair, herb, tree, carriage, knife, etc. ; names of the days of the week, months of the year ; number of days in the week, weeks in the year, days in the year ; meaning of couple, pair, brace, dozen, score, right, left, quire of paper, ream of paper, etc. 36. 12. Construction. — Continue the exercises of the two pre- ceding terms. The tangram may also be used. See Primaiy Object Lessons, p. 47. Marbles and balls should be provided for out-door exercises, and the pupils should be taught how to use them, with various exercises in tossing, bounding, and catching balls. Explain to them ivhi/ the ball bounds. Show them how to make a goose-quill air-ffim, and, in connection with its vse, ex- plain the elasticity of the air. Illustrate by compressing a piece of India-rubber and letting it spring back suddenly to its shape. Teachers need not be ashamed to exhibit an interest in such phil- osophical experiments. Mitsic should be introduced two or three times each day if the teacher can sing, or if some of the older pupils can lead the others in singing. SECOND TERM. 37. 1. Heading, Spelling, and Elementary Sounds. — Review and continue Charts III. and IV., as before directed, ]i. 32 and 35-6 of Manual; also Chart No. V., Manual, p. 38. Also read in the ' The teacher will find it convenient, and interesting to the pupiL=, to use tlie Com- posing-frame (with the Cards) for his lullrtin-boanl. lie writes, or tells an order to a pupil, and the latter places it on the bulletin. 296 APPENDIX. Primer. Teacli the elementary sounds of the vowels from Chart I. Thus, pointing to "cap," pronounce the word, and then give the sound of its vowel a. Go over Chart I. in this manner. Oc- casional concert exercises as before. Give some attention to punc- tuation and capitals. See Manual, p. 39. Spelling. — Continue spelling as before (25). Also see Manual, p. 33-4. Also spell orally the words on Charts I., II., and III., the teacher naming the word, and requiring the pupils to first pro- nounce it, and then spell it. Let pupils tell what each word means, as before. Spell orally, or with cards, the leading words used in the various lessons of the day. 38. 2. Counting, Adding, etc. — Continue as before (2, 14, and 26), and see, also, Primary Object Lessons, p. 148-153. Also p. 34 of preceding Manual. 39. 3. Drawing and Writing. — See Manual, p. 37, under head of "Printing and Drawing." On writing, see Manual, p. 51. Use pencils. Form the words on Chart No. IX., and also write in script the words on Chart No. I. For drawing, see Manual, p. 52. 40. 4. Oral Compositions: Language. — See exercises inider this head, p. 33 of Manual, in connection with Chart No. III. Cor- rect all faulty language. 41. 5. Lines, Measures, Forms, and Solids. — Continue as before (17, 29), and see, also. Primary Object Lessons, p. 165-173. 42. 6. Colors. — Same as preceding term ; also through verses 3 and 4, p. 93 of Manual. 43. 7. Animals. — Same as in preceding terms (19, 31). Let pu- pils tell the names of as many kinds of birds as the}' can, describ- ing them, telling where they have seen them, etc. Let them point out and name as many as they can on Chart No. XVII. Also continue the use of Chart No. XV. See Manual, p. 130-1. Anec- dotes of the animals mentioned. See Calkins's Manual, lessons on Birds. 44. 8. Plants. — Continue the exercises as directed (8 and 32). Also take up the subject of the "Forms of Leaves," Chart No. XIX., more particularly, and let pupils find and bring in leaves of sim- ilar forms. They may now be told the terms descriptive of these forms. See Manual, p. 177 to 182. Cliart No. XIX. 45. 9. Physical Exercises. — Continued as before (9, 21, 33). Battledoor and shuttlecock, and the excercise of throwing hoops, called "The Graces," may now be introduced where they can be carried on in the open air. They will give ease and grace of movement, and impart skill in execution. Connect philosophical explanations with battledoor and shuttlecock, as suggested under head of "Construction," in preceding term. Tlie teacher should ^ APPENDIX, 297 now consult the system of Dr. Lewis, of Boston, and henceforth adapt it to the wants of his school. 46. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (10, 22, 34). See how many of the twenty, pupils can repeat and illustrate. Continue their daily use. 47. 11. Miscellaneous Objects. — Review the ground previously gone over (23, 35), and take up the exercises in Calkins's Primary Object Lessons, p. 36-40. 48. 12. Construction. — Continue the exercises before given under this head (12, 24, and 36). In addition, children may be interest- ed in folding and cutting paper (newspaper will answer) in various patterns, and forming boxes, envelopes, etc. They may cut the paper with small paper-folders, after doubling it down, which will avoid the necessity of using any sharp instruments. 49. 13. Geographical. — Introduce the exercises suggested on p. 82-3 of Manual, First, Second, and Third Lessons. See, also, Calkins's Primary Object Lessons, p. 162 to 166 and 242 to 248. Music should be introduced two or three times each day if the teacher can sing, or if some of the older pupils can lead the others in singing. THIRD SCHOOL YEAR. FIRST TERM. 50. 1. Reading, Spelling, and Elementary Sounds. — Reading from Charts IV., V., and VI. See Manual, p. 35-6, 38, and 39- 40. Also read in Primer or First Reader. See Manual, p. 39. In elementary sounds, take u]> Chart No. VII., as directed in Manu- al, p. 43, and go as far as " Additional Exercises," p. 44. Attend to punctuation and capitals. Manual, p. 39, and occasional concert exercises. Spelling. — Continue as before (25 and 37). See, also, INIanual, p. 37-8. Also spell each day, orally or witli the Letter-cards, the names of all leading words introduced in the reading lessons, and also those used in the various lessons of the day imder the head of colors, animals, plants, etc. Let pupils tell their meaning. 51. 2. Numbers. — Continue as before (2, 14, 26, and 38). See Man- ual, p. 34, 37, and 38. Let the teacher give additional exercises in counting, adding, and subtracting other ohjects, but using Jiguies to represent them. See, also, Primary Object Lessons, p. 154, and preceding Manual, p. 40. 52. 3. Drawing and Writing on slates and blackboard. See Manual, p. 38, 40, 50, 51. Let pupils continue writing the lessons on the early Charts in script, with Chart No. IX. before them. Writing in writing-books, from copies, may now be commenced, but a sharp and long pencil would be preferable to a pen. It N" 2 298 ArrENDix. ^ should be held as a pen. For drawing, see Manual, p. 52, and Chart No. X. 53. 4. Oral and Written Compositions: Langdage, — Same as before (28, 40), and see, also, Manual, p. 3G. Continue the correction of ungrammatical expressions, etc. 54. 5. Lines, Measdkes, Forms, Solids, "Weights. — Same as be- fore (17, 29, 41), and also Primary Object Lessons, p. 174-180, and the preceding Manual, p. 80, 81, and 89. 55. 6. Colors. — Same as before (30, 42). — Let pupils bring in col- ored objects, cloths, worsted, etc., and tell what colors they most resemble — matching them first with the hand Color-cards, and then with the colors on Chart No. XIII. 5G. 7. Animals. — Continue as before (31, 43). Manual, p. 130- 133, and Chart No. XV. Also use Chart No. XVII., and let pu- pils name and describe what reptiles and what fishes they liave seen. Introduce the subject of Insects. See Calkins's Manual for lessons on insects. Interesting accounts of any of the animals mentioned should be given. 57. 8. Plants. — Continue in the course of the previous exercises (32, 44), and go through with the first six divisions of "Forms" on Chart No. XIX., learning their names as far as it can easily be done. See Manual, p. 178 to 18G. 58. 9. Physical Exercises as before directed (9, 21, 33, 45). 59. 10. Manners and Morals, Maxims and Mottoes. — Same as before (*10, 22, 34, 46). The teacher should be constantly accu- mulating new stories, incidents, etc., for illustration. Keview max- ims and mottoes, and continue their use. Manual, p. GO. 11. Miscellaneous Objects. — Ileview the ground previously gone over. Teacher may exercise the jmjjils in naming the qual- ities of objects, and writing them on the blackboard, or setting them up with the Letter-cards. Thus an object may be (comparatively) long or short, broad, narrow, light, lieavj', etc., and thus through all the varieties of form and size : similarly as to its color. Other qualities, as hard, soft, elastic, ojiaque, solid, hollow, etc. Name the objects, and let pupils tell and write down as many qualities as they can. The pupils may then form these qualities into oral compositions descriptive of the objects. Teacher may also name qualities, and pupils name their opposites. Thus the teacher names good, wet, hot, left, deep, loud, true, slow, up, hard, kind, broad, open, tame, light, poor, just, old, bitter, weak, round, nar- row, healthy, polite, white, crooked, gratefid, transparent, etc., etc. Pupils should tell the uses of things mentioned ; for example, of leather, cloth, bucket, air, water, fire, sun, wood, paint, iron, stone, brick, pen, book, ink, clock, slate, ear, eye, mouth, tongue, nose, hands, feet, wings, knife, axe, hammer, nails, saw, chalk, sponge. APPENDIX. 299 broom, pail, mirror, chimney, lead-pencil, newspaper, spade, hoe, plow, harrow, etc., etc. See, also, Calkins's Manual. 61. 12. Construction. — Continue, occasionally, all the exercises previously suggested under this head (2-4, 36, and 48), and, addi- tionally, show the pupils how to form water-wheels, wind-mills, etc. The younger pupils may get their parents or older pupils to construct these for them. Explain what makes the water-wheel turn — the force of the water ; the wind-mill — the force of the air, etc. Explain why their wooden blocks, walls, etc., sometimes tumble down ; why their marbles roll down hill ; why water runs — rolls — down hill, etc. 62. 13. Geographical. — Continue the exercises of the preceding term (49), and take up Fourth and Fifth Lessons of Manual, j). 83. See, also. Primary Object Lessons, p. IGG to 173 and 248 to 263. Music should be introduced two or three times each day if the teacher can sing, or if some of the older pupils can lead the others in singing. SECOND TERM. 63. 1. Reading, Spelling, and Elementary Sounds. — Charts V. and VI. reviewed, and Manual, p. 38, 39, 40. Also Primer or First Reader. Occasional concert exercises as before. Attention to inflections, punctuation, capitals, etc. See Manual, p. 39 and 41. Elementary sounds through A and E, p. 44-5 of Manual, Chart VII. First Reader, and begin the Second. Continue s]icll- ing exercises as before directed (25, 37, and 50). The spelling- book may also now be introduced. 64. 2. Numbers. — Continue as before (2, 14, 26, 38, and 51). See, also. Manual, p. 40, 41. Counting from 1 to 100, forward and backward. Use of numeral frame. Learn the Roman numerals from I. to L., and form them on the blackboard or on slates, or set them up with the cards to designate any given number. For exercises, let one pupil place any given number, say twenty-nine objects, of any kind, on the table ; let another set up the words " twenty-nine" on the frame with the Letter-cards ; let another set up the same in figures, "29;" and another set up the same with the Roman numerals, "XXIX." 65. 3. Draaving and Writing. — Continue as in the preceding term. 66. ' 4. Oral and Written Compositions : Language. — Same as before (28, 40, 53). See, also. Manual, p. 33, 36, and 40. Atten- tion to punctuation, capitals, inflections, etc., and constant correc- tion of ungrammatical expressions. 67. 5. Lines, Measures, Forms, Solids, Weights, Sounds. — Same as before (17, 29, 41, 54). Also, Primary Object Lessons, 300 APPENDIX. p. 182-185. Charts Nos. XL and XII., and Manual, p. 80, 81, and 89, witli simple definitions of terms, p. 90, 91. 68. 6. Colors. — Same as before (30, 42, 55), and also explain the Primaries, Secondaries, Tertiaries, Sub-Secondaries, and Sub-Ter- tiaries, from Chart No. XIV., Manual, p. 100, 101. Two or three lessons each week. 69. 7. Animals. — Review the ground gone over, taking a general view of the mammalia, birds, reptiles, fishes, and insects, and fin- ish the subject of No. 1, Chart XV. Go over, briefly, the lower half of Chart No. XV. Anecdotes, incidents, etc. 70.^ 8. Plants. — Continue as before directed (32, 44, 57), and go through with the last two divisions of Chart No. XIX., Manual, p. 186 to 189. 71. 9. Physical Exercises as before directed (9, 21, 33, 45). 72. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59). Continue maxims and mottoes as far as practicable. 73. 11. Miscellaneous Objects. — Continue as before (23, 35, 47, and GO), the teacher preparing a variety of object-lesson exei'cises — taking up common objects — and being careful not to go beyond the capacity of his pupils. See Calkins's Manual of Object Lessons. If the teacher has a small collection of minerals, that subject may now be taken up. Pupils should first learn to distinguish and name the common metals — gold, silver, copper, iron, tin, lead, zinc, and b7-ass, a compound of copper and zinc, and bronze, a com- pound of copper and tin. Let pupils tell their qualities and uses as far as they can. Specimens should be examined. See Calkins's Manual. 74. 12. Construction. — Continue all the previous exercises (24, 86, 48, and 61). Add new games and amusements, chiefly for out-door recreation ; and, especially, introduce those which may be used to illustrate philosophical principles. Show them the con- struction of whistles, fifes, etc., telling them what kinds of wood they may get, what bark peels easily, at what season of the year, and why then. Sliow them how to make and raise a kite, and explain, in familiar language, how it is carried up in the air. See Fifth Reader, p. 350. Encourage pupils to make (out of school), or to get others to make for them, kites, water-wheels, wind-mills, fifes, whistles, ships, wagons, machines, etc. The teacher should spend as much time as possible, out of school, with his pupils, par- ticipating in their games and amusements, and giving them a proper direction. 75. 13. Geographical. — Review the ground previously gone over (49 and 62), and continue in the order marked out on p. 86, 87, and 88 of Manual. See, also. Primary Object Lessons, p. 263 to 268. Hfnsir as before dirpctpil. APPENDIX. 301 FOURTH SCHOOL YEAR. FIRST TERM. 76. 1. Reading, Spelling, and Elementary Sounds. — Continue the use of the blackboard, the Charts V. and VI., if necessary, and the Letter-cards, and proceed with the Readers. No word should be passed by until the pupil has a correct idea of its meaning as used in the lesson. Yet the pupil may understand the meaning of the sentence without being able to dejine each word separately. The latter is not so important as the former. Question pupils thoroughly on the meaning of each sentence rather than upon the mere abstract meaning of separate ivords. Pay particular atten- tion to correct pronunciation, distinct articulation, inflections, em- phasis, etc. Make a spelling lesson out of every reading lesson. See, also, Calkins's Programme in his Manual, 2d and 3d steps of 2d grade, etc. Elementary sounds reviewed, and continued through the vowel sounds, Manual, p. 45-G, Chart VII. Concert exercises, both in reading and in the elementary sounds. Spell all important words in the reading and other lessons. Regular lessons from the spelling-book. Also, continue as suggested (25, 37, 50, and 63). 77. 2. Ndmbers. — See previous suggestions (26, 38, 51, and 64). Mental arithmetic may now be taken up. Make all examples as practical as possible. Continue Roman numerals from L. to C, as directed for preceding term. 78. 3. Drawing and Writing. — For drawing, see Manual, p. 52-3. and Chart No. X. Let the pupil also draw the "forms of leaves," and forms of their margins, both from Chart No. XIX., and from Nature. It is supposed that they have already learned the appro- priate terms descriptive of these forms. Continue writing from Chart No. IX., etc., and from writing-books. 79. 4. Written Compositions : Language. — Let pupils write com- positions on the subjects of Natural History especially, which they have already gone over from the Charts, under the heading of "Animals," "Plants," etc. ; also, in connection with such other subjects of study for the term as the teacher may select. Tliis may include "Manners and Morals," "Maxims," "Miscellaneous Objects," "Construction and Collections," etc. See, also, the sub- ject of "Compositions" throughout the Manual. Continue correc- tions of language, etc. 80. 6. Colors. — Continue the exercises as before (55, 68), and go through the semi-neutral colors. Manual, p. 101-2, Chart XIV. Also return to Chart No. XIIL, and go through the exercises, Manual, p. 94-5. 8L 7. Animals.-^Go over the subjects of Nos. 1, 2. and 3, Chart 302 APPENDIX. XV., and Manual, from p. 130 to 141. Continue the subjects of Birds, Reptiles, Fishes, and Insects, as before. Also, describe brief- ly, and point out on the Chart, No. XVII., the first order of Birds, Manual, p. 170-1 ; the four orders of Reptiles, Chart No. XVIII., and Manual, p. 174-5. 82. 8. Plants. — Review, and continue the course of the previous exercises (32, 44, 57, and 70) ; also, if it is the right season of the year, commence a critical examination of the different parts of a flower, and the classification of plants on the Liuna;an System. See Manual, p. 189 to 193, and Chart No. XX. 83. 9. Physical Exercises. — As before directed (9, 21, 33, 45). 84. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72). Continue maxims and mot- toes, and review, daily, those gone over. 85. 11. Miscellaneous Objects. — Continue as before suggested (23, 35, 47, GO, and 73). Explain to pupils the three great divi- sions of Nature : the Animal Kingdom, the Vegetable Kingdom, and th-e Mineral Kingdom. Tell them all material objects that are not either animal or vegetable are called minerals. Let them tell what things, therefore, belong to the mineral kingdom — all which have not orcjanized forms. All rocks are minerals; all soils also, unless they are formed by the partial decay of vegetable or animal substances. Teacher should have a cabinet of the princij^al rocks, and pupils should learn to recognize and name them.* See, also, Calkins's Manual — Minerals. 86. 12. Construction : Cabinet Collections, etc. Continue such of the previous exercises as are of farther interest and utility (48, 61, and 74). Pupils may now begin to make collections of plants for herbariums. See Manual, p. 201. Separate collections of presen'cd specimens of leaves of as many kinds of trees as pos- sible, with names of the trees ; also, of different kinds of wood, in small blocks. Once each week, a half hour or more may be de- voted to an examiuation of the museum thus collected, machines, instruments, etc. Questions and exjilanations. 87. 13. Geographical and Historical. — Continue the geograpli- ical exercises as before suggested (49, 62, and 75). Also, begin now to draw from the pupils the history of the immediate neigh- borhood, or School District, in the following manner: 1. Let them tell the names of the residents, where they reside, on what streets, in what direction from the school-house, and how far from it. 2. The occupations of the inhabitants — as farmers, mechanics, mer- • The writer hopes to make arr,ingement3 for providing cheap geological cabinets for school use. Very little can be done in giving pupils a Icnowledge of geology with- out the aid of a well-arranged cabinet ; and with such aid pupils will almost teach themselves. APPENDIX. 303 chants, manufacturers, etc. 3. Names and residences of the trust- ees, directors, or other school officers of the district, and their gen- eral duties. 4. Any historical incidents of the district or neigh- borhood that may be proper to be narrated. Music as before directed. SECOND TERM. 88. 1. Reading, Spelling, and Elementary Sounds. — Same di- rections as before given, lleview elementary sounds, and con- tinue through p. 4:G-7 of Manual, Chart VII. Spelling as before directed (25, 37, 50, and G3). 89. 2. Numbers. — See previous suggestions (26, 38, 51, G4, and 77). Mental Arithmetic, Multiplication Table, etc. Exercises in rapid combinations of numbers should be introduced, and should be fre- quent ; easy at first, and gradually increasing in difficulty. Thus : teacher repeats aloud and slowly, "2, add 3, add 10, subtract 5, multiply by 2," and pupils tell the result. Let the teacher devise a scries of such combinations. 90. 3. Drawing and Writing. — Continue as before (52 and 78). See, also, p. 52-3-4 of Manual, and Chart No. X. Make draw- ings of every thing on Chart No. XIX., and also copy the same forms from the natural objects, if possible. Writing continued. 91. 4. Written Compositions: Language. — See directions (66, 79). Require pupils to use the pocket blank-books, as suggested in the Manual, p. 17-18. Let them write sketches of most of their lessons. 92. 6. Colors. — Review. Also the same as preceding term. 93. 7. Animals. — Same as the preceding term. Also describe briefly and point out the birds in the second and third orders. Chart No. XVII., Manual, p. 171-2 ; also the first order of Fish- es, Chart No. XVIII., and Manual, p. 175-6; also go over the subjects of Nos. 4 and 5, Chart XV., and Manual, p. 141-7. 94. 8. Plants. — Continue tlie course of the previous exercises (44, 57, 70, and 82). A critical examination of the parts of the flow- ers of various plants, etc. Also, take up, in fiimiliar talks, the sub- ject of the "Economical Uses of Plants, " " Our Common Fruits," Manual, p. 209, through Apple, Pear, Peach, Quince, Plum, and Apricot, to p. 214, using the illustrations, Chart No. XXI. Also drawings, specimens, etc. 95. 9. Physical Exercises as before directed (9, 21, 33, 45). 96. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84). Continue maxims and mottoes as far as practicable. 97. 11. Miscellaneous Objects. — Continue as before suggested (60, 73, and 85). Teachers should exercise their ingenuity in ar- 804 APPENDIX. ranging suitable exercises under this head. Continue the subject of Minerals, if the teacher has a suitable cabinet. See, also, Cal- kins's Manual of Object Lessons. Call the attention of pupils to the subject of trades, professions, etc., and prepare for them Object Lessons relating to their different employments, such as the farm- er, the blacksmith, the carpenter, tlie mason, the shoemaker, the merchant, the lawyer, the teacher, the printer, various manufac- turers, etc. ; the tools used by each, the products of each, etc., etc. 98. 12. Construction : Cabinet Collections, etc. — Continue in accordance with directions for preceding term (61, 74, and 8G). Collections of Mosses from the woods, and of Lichens from old fences and rocks, are very interesting. Many of these pkmts are exceedingly beautiful. By the aid of paste or glue they may be used to cover a cheap pine frame of a picture. They make a hand- some border. 99. 13. Geographical and Historical. — Continue the course of tlie previous exercises under this head (62, 75, and 87), making the historical henceforth keep pace with the geographical. The physical geography of the neigiiborhood — its natural history, pro- ductions, with its political geography, etc. — should be introduced as suggested, p. 85, 86, 87, and 88 of Manual. Call up the his- tory of the early settlements made in the neighborhood, as far as possible, and bring down the general history of the neighborhood to the present time, ascertaining ivhen the present families moved into the neighborhood, and whence they came. Historical inci- dents, etc. Music as before directed. FIFTH SCHOOL YEAK. first term. 100. 1. Reading, Spelling, and Elementary Sounds. — Same di- rections as for the fourth year. Pupils may also now be required to define separate words in the reading lesson. For this purpose each should be provided with a dictionary. Continue practicing upon the elementary sounds, as directed in the Manual, p. 43 to 48, Chart Vn. Take up Phonic Spelling .and Phonetic Anal- ysis, Manual, p. 49, and Chart VIIL Continue the spelling ex- ercises as before directed (25, 37, 50, and 63). 101. 2. Numbers. — Continue throughout the remainder of the course in accordance with such jjlans as the teacher may adopt. See, also, previous suggestions (26, 38, 51, 64, 77, and 89). Rap- id combination exercises, gradually more and more difficult. Thus : " 2, add 3, add 10, subtract 5, multiply by 2, divide by 4." " 10, add 8, subtract 5, add 7, multiply by 4, divide by 10." Let the teacher form numerous sets of such exercises adapted to the APPENDIX. 805 capacities of Iiis pupils. Slate arithmetic whenever the pupils are prepared for it. Frequent exercises. 102. 3. Drawing and Writing. — Continue as before (52, 78, and 90). For drawing, see, also, Manual, p. 54. Charts Nos. XXI. and XXII. furnish good copies. Copy from Nature as much as ' possible. Geometrical drawing may be commenced. See Man- i;al, p. 54-5-6-7, and Chart No. X.* Writing continued. 103. 4. Written Compositions: Language. — See directions (66, 79, 91). Require pupils to use the pocket blank-books, as sug- gested in the Manual, p. 17-18. Written sketches, etc. 104. 6. Colors. — Review preceding exercises. Take up the Chro- matic Scale, Chart XIV., and go through the "Exercises on the Primaries, Secondaries and Tertiaries," as directed, Manual, p. 103-4. 105. 7. Animals. — Review the ground previously gone over. Birds in the fourth and fifth orders. Chart No. XVII., and Manual, p. 172-3 ; second order of Fishes, Chart No. XVIII, Manual, p. 176-7 ; Insects, see Calkins's Manual. Also the subjects of Nos. 6, 7, 8, 9, and 10, Chart No. XV., Manual, p. 147 to" 156. lOG. 8. Plants. — Continue the course of the previous exercises (44, 57, 70, 82, 94). Examination and classification of plants on the Linna^an System, Manual, p. 193 to 198, Chart No. XX. ; "Eco- nomical Uses of Plants," in familiar talks ; the ^'■Common Fruits," Manual, p. 214, through Grape, Currant, Filbert, Gooseberry, Raspberry, Blackberry, Strawberry, Nuts, etc., to p. 220, using the illustrations, Chart No. XXI., together with drawings by the pu- pils, specimens, etc. Pupils make written sketches. 107. 9. Physical Exercises as before directed (9, 21, 33, 45). 108. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84). Continue maxims and mottoes as far as practicable. 109. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 110. 12. Construction: Cabinet Collections, etc. — Continue in accordance with previous suggestions (61, 74, 86, and 98). Collections of minerals — diflTerent kinds of rocks, etc. — for geo- logical cabinets, may be commenced. Even if tlie names of the different rocks are not yet known by either teacher or pupil, an examination of specimens will still be valuable. Collections of shells may also be made. Fresh-water shells are abundant. In time, such collections Avill make not only a handsome, but a valu- able school museum. * For making tlie?e geometrical drawings on the blackboard, a pair of blackboard compasnes, adapted to hold a chalk or talc pencil, is much needed. We hope some one will construct such an instrument. 306 APPENDIX. 111. 13. Geographical and Historical. — Extend geography and history to the whole town on the princiioles suggested (87 and 99), and pages 86, 87, and 88 of Manual. Mitstc as before directed. Declamations. SECOND TERM. 112. 1. Reading, Spelling, and Elementary Sounds. — Same directions as for preceding term. If the reading-books used be the School and Family Headers, and the subject should be the Mammalia (p. 87-242) in the Third Reader, let the pupils read with Chart No. XVI. before them. At the beginning of each lesson let some pupil point out on the Chart, and give an abstract of, the orders and families of the Mammalia as far as they have gone in their reading, and tell to which order, family, etc., the reading lesson of the day is to be assigned. Suggest to them the reading out of school of such books as Children's Picture-book of Quadrupeds, Hooker's Natural History to p. 115, and any other similar works. Whatever be the reading lesson of the day, as soon as it is finished let pupils close their books. Teacher should then call upon pupils to tell what they have been reading about, and to give in their own language an analysis of the lesson. Continue the spelliivj exercises as before suggested (25, 37, 50, and C3). 113. 2. Numbers. — Frequent combination exercises, reviews, etc. Also, continue as before suggested (G-t, 77, 89, and 101). 114. 3. Drawing and Writing. — Draw outlines from engravings, and also copy from natural objects. Manual, p. 52-3-4. Con- tinue geometrical drawings, Manual, p. 58-9, and Chart No. X. Writing continued. 115. 4. Written Compositions : Language. — See directions {Q,Q, 79, 91). Require pupils to use the pocket blank-books, as sug- gested in the Manual, p. 17-18. Written sketches, etc. lie. 6. Colors. — Reviewing, together with the directions (104) for the preceding term, will be sufficient for the present term. 117. 7. Animals. — Birds in the sixth and seventh orders. Chart No. XVII., and Manual, p. 173. Third order of Fishes, Chart No. XVIII., Manual, p. 177. Insects. Also the subjects of the re- maining ten numbers of Chart No. XV., Manual, p. 156 to 1G2. As introductory to the reading lessons on the Mammalia, Third Reader, which are supposed to be taken up this term, point out, on Chart No. XVI., the four great divisions of the Animal King- dom — Vertebrates, Articulates, Mollusks, and Radiates. Also point out and describe the different races of mankind. The separate consideration of the subject of "Animals" may now be dropped, as it is continued from time to time, from this point forward, under the head of "Reading." APPENDIX. 307 118. 8. Plants. — Continue as before directed (82, 94, 106). Exam- ination and classification on the Linna2an System, Manual, p. 193 to 198. " Economical Uses of Plants," in familiar talks througli the subject of '■'■Common Root Plants,'' Manual, p. 220 to 226, and Chart No. XXI. Drawings by the pupils for illustrations. 119. 9. Physical Exercises as before directed (9, 21, 33, 45). 120. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84). Leading principles in morals and religious duty may now begin to be more formally presented. They should always be illustrated by anecdotes, in- cidents, historical truths, etc., as far as jiossible. Eemember the parables by which the Savior taught. The teacher should be con- stantly accumulating additional and appropriate maxims, mot- toes, proverbs, wise sayings, etc., to add to the list. 121. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 122. 12. Construction : Cabinet Collections, etc. — Continue as before suggested (61, 74, 86, 98, and 110). Drawings by the pu- pils may now begin to be added to the school museum : among them neat drawings of the geometrical figures. Chart X. See Manual, p. 57-61. Also some of the five regular solid polyhe- drons, cut out of pasteboard. See Manual, p. 62-3. 123. 13. Geographical and Historical. — Continue the course of exercises previously suggested (87, 99, and 111). Extend them to the county and state, or section of the state, in which you reside. This will call up both the early history and the early geography of that part of the country, and hence will lead to our early Indian wars and the War of the Kevolution. - Music as before directed. Declamations. SIXTH SCHOOL YEAR. first term. 124. 1. Reading, Spelling, and Elementary Sounds. — Read, spell, define, and analyze, as directed (76, 100, and 112). If the Fourth Book of the School and Family Readers be used, the di- vision of " Physiology and Health" should be carefully read, and each lesson analyzed, with remarks from the teacher, enforcing principles. Continue the spelling exercises as before directed (25, 37, 50, and 63). 125. 2. Numbers continued (64, 77, 89, and 101). Combination exercises daily. Reviews, etc. 126. 3. Drawing and Writing. — Continue outline drawings from engravings, and draw from Nature. Geometrical drawings through p. 59, 60, and 61 of Manual, and Chart No.X. Writ- ing continued. 308 APPENDIX. 127. 4. Written Compositions: Language. — See directions (66, 79, 91). See, also, the suggestions under the head of " Geograpli- ical and Historical," for the present term. Require pupils to use the pocket blank-books, as suggested in the Manual, p. 17-18. 128. 6. Colors. — Review, and take np the "Exercises from the Scale on the Sub-Secondaries and Sub-Tertiaries," Manual, p. 104. 129. 8. Plants. — Continue as before directed (82, 94, 106, 118). Examination and classification on the Linnsean System, Manual, p. 193 to 198. "Economical Uses of Plants," in familiar talks, through the "Cereals or Corn-plants," Manual, p. 226 to 238. Use Chart No. XXI. Also drawings by the pupils and speci- mens for illustrations. Written sketches of lessons. 130. 9. Physical Exercises as before dirAjted (9, 21, 33, 45). 131. 10. Manners and Morals, IMaxims and Mottoes. — Same as before suggested (22, 34, 46, r>9, 72, 84, and 120). 132. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 133. 12. Construction: Cabinet CoLLECTiONS,etc. — Continue as before suggested (74, 86, 98, 110, and 122), making collections of different kinds of wood, leaves, mosses, lichens, herbariums, geological cabinets ; and constructing machines ; the geometrical solids, making drawings, etc. 134. 13. Ceographical and Historical. — Continue as before (Hi, 123). The more formal study of the geography of our whole country may now be taken up, with the aid of the geogra- phy and atlas. Its leading historical events may also be told the pupils in familiar talks, beginning with the story of Columbus; and pupils should be required to irrite compositions embracing the events thus narrated to them. This will effectually secure their attention to what is told them. Music as before directed. Declamations, second term. 135. 1. Reading, Spelling, and Elementary Sounds. — Contin- ued as directed (25, 37, 50, 63, 76, 100, and 112). 136. 2. Numbers continued (64, 77, 89, and 101). Combination exercises. Reviews, etc. 137. 3. Drawing and Writing. — Outline drawings, etc. Review geometrical drawings, INIanual, p. 54 to 61. Make drawings for constructing the five regular polyhedrons. Manual, p. 61, 62. Writing continued. 138. 4. Written Cojipositions : Language. — See directions (&G, 79,91, 127). Require pupils to use the pocket blank-books, as suggested in the Manual, p. 17-18. APPENDIX. 309 189. 6. Colors. — Review the exercises, Manual, p. 103, 104, 105, aud explain and illustrate the subject of "Tones," Manual, p. 105, 106, 107. 140. 8. Plants.— Continue as before directed (106, 118, 129). Ex- amination and classification on the Linnasan System, Manual, p. 193 to 198. "Economical Uses" continued, in familiar talks, through the " Fruits of Warm Countries," Manual, p. 238 to 249 ; using Chart No. XXI., and drawings by the pupils, for illustra- tions, together with such specimens as can be obtained. 141. 9. Physical Exercises as before directed (9, 21, 33, 45). 142. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84, and 120). 143. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (00, 73, 85, and 97), five minutes daily. 144. 12. Constrcction : Cabinet Collections, etc. — Continue in the same course as before (74, 86, 98, 110, 122, and 133). The teacher should now fill out the programme imder this head ac- cording to the attainments and capacities of his pupils. A Sat- urday's ramble with his pupils — making collections, preserving specimens, etc. — might be made profitable, and should be made interesting. 145. 13. Geographical AND Historical. — Continue the geograph- ical and historical studies as before suggested (111, 123, and 134). Historical talks, narrating important events in our own history, with compositions describing the same. Music as before directed. Declamations, SEVENTH SCHOOL YEAR. first term. 146. 1. Reading, Spelling, and Elementary Sounds. — Contin- ued as directed (25, 37, 50, 63, 76, lOO, and 112). If the pupils be reading the division of " Ornithology, or Birds," in the Fourth Reader, place before them Chart No. XVII., and follow the di- rections given for the Mammalia (112). In this manner pupils will soon acquire, and with but little effort, a familiarity with the scientific outlines of the subject. Suggest to them to read the "Children's Picture-book of Birds," and Hooker's "Natural History" from p. 115 to 187. 147. 2. Numbers continued (64, 77, 89, and 101). Combination exercises. Frequent reviews. 148. 3. Drawing and Writing. — Continue drawings from en- gravings and from natural objects, and form the geometrical figures. Take up Linear Perspective, Manual, p. 63 to 70, first principles, and Chart No. X. Writing continued. 349. 4. Written Compositions : Language. — See directions (66, 310 APPENDIX. 79, 91, 127). Kequire pupils to use the pocket blank-books, as suggested in the Manual, p. 17-18. Sketches of lessons. 150. 6. Colors. — Review, and go through " Hues of Colors," Man- ual, p. 107-8. Also exercises on "Complementary Colors,'' Manual, p. 109-110. 151. 8. Plants. — Continue as before directed (118, 129, 140). Examination and classification on the Linntean System, Manual, p. 193 to 198. "Economical Uses" continued, in familiar talks, through '^ Medicinal Plants," Manual, p. 249 to 256, using Chart No. XXL, and drawings by the pupils, for illustrations, together with such specimens as can be obtained. Sketches of lessons. 152. 9. Physical Exercises as before directed (9, 21, 33, 45). 153. 10. Manners and IMorals, Maxims and Mottoes. — Same as before suggested (22, 34, 4G, 59, 72, 84, and 120). 154. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (GO, 73, 85, and 97), five minutes daily. 155. 12. Construction : Cabinet Collections, etc. — According to the plan of the teacher. See suggestions (74, 86, 98, 110, 122, 133, and 144). 156. 13. Geographical and Historical. — Continue as before (111, 123, 134, and 145). History may now be taken xip from the historical text-book. In connection with this study, we make the following suggestions on the subject of Written Recitations. Suppose the lesson, four pages in history, to have been given out yestei'day, to be recited tliis morning. Suppose there are twelve pupils in the class, in four divisions. When the class is called, pupils bring their books and slates. Teacher assigns a page to each division ; each pupil glances over his page hastily', and at a given signal all lay aside their books, take their slates, and each writes as full a sketch of the page assigned to him as he can. The teacher examines the slates, and merely marks errors (to be corrected), and graduates the pupils according to merit. The advantages which this exercise will often have over the com- mon mode of recitation will be readily apparent to all. Music as before directed. Declamations. second term. 157. 1. Reading and Spelling. — See previous directions (25, 37, 50, 63, 76, 100, and 112). If the botanical division of the Fourth Reader be read, use in connection Charts XIX. and XX. Sug- gest to pupils to read Hooker's "Child's Book of Nature," Part I., Plants. 158. 2. Numbers continued (64, 77, 89, and 101). Combination exercises. Frequent reviews. 159. 3. Drawing and Writing. — Continue as before (137, 148, APPENDIX, 811 etc.), frequently reviewing. Linear Perspective through p. 70, 71, and 72. 1 GO. 4. Written Compositions : Language : English Grammar, — Sec directions (66, 79, 91, 127). The separate study of En- glish Grammar may now be introduced, but still in connection with the pocket blank-book exercises, as suggested in the Man- ual, p. 18. 101. 6. Colors. — Review; also "Harmony of Colors, " from p. 110 through p. 117, Manual. 162. 8. Plants.— Continue as before directed (129, 140, 151). " Economical Uses" continued, in familiar talks, through ^'■Plants used for Beverages" Manual, p. 256 to 266, using Chart No. XXII., and drawings by the pupils for illustration, with euch specimens as can be obtained. In connection with the reading lessons in Botany, from the Fourth Reader, take up, in familiar talks, the "Natural Method of Classification," and go through "Polypet- alous" and "Apetalous" plants, Manual, p. 198 to 201:, Chart No, XX. Let pupils write sketches of all. 163. 9. Physical Exercises as before directed (9, 21, 33, 45). 164. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84, and 120). 165. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 166. 12. Construction : Cabinet Collections, etc. — According to the plan of the teacher. See suggestions (74, 86, 98, 110, 122, 133, and 144). 167. 13. Geographical and Historical. — Continue both, as far in unison as possible. See suggestions (123, 134, 145, and 156). Frequent reviews. 168. 14. Dictation Exercises. — Read to the pupils brief inter- esting sketches, mostly narrative ; and when you have concluded, let them write out the same, in the language of the book as near- ly as possible. What is read should be suited to the ages and ca- pacities of the pupils. The exercises will be found admirably adapted to cultivate close attention, to strengthen the memoiy, to give facility of expression, and to test the proficiency of pupils in spelling, punctuation, inflections, use of capitals, penmanship, etc. They may perhaps be commenced earlier than this period with some classes, and may be written by the younger pupils on slates, but the more advanced pupils should use pen and paper. The teacher con-ects the exercises by marking all errors, and re- quires pupils to rewrite where necessary. Music as before directed. Frequent declamations. 812 APPENDIX. EIGHTH SCHOOL YEAR. FIRST TERM. 169. 1. Reading and Spelling. — See directions (37, 50, 63, 76, 100, and 112). When the Natm-al Philosophy division of the Fourth Reader is read, suggest to pupils to read Mayhew's ' ' "Won- ders of Science" and Mayhew's "Peasant-Boy Philosopher." 170. 2. Numbers continued (G4, 77, 89, and 101). Combination exercises. Frequent reviews. 171. 3. Drawing and Writing. — Continue as before (137, 148, etc.), frequently reviewing. Linear Perspective through p. 73, 74, 75. 172. 4. Written Compositions: Language: English Grammar. —See directions (66, 79, 91, 127, 160). In studying English Grammar, reference should be had more to the acquisition of cor- rect habits of speaking and writing than to the technicalities of 2)arsing. It is better to show a mode of expression — such as "I intended to have gone yesterday" — to be philosophicaUy wrong, than to show it to be merely a violation of an arbitrary rule of grammar. 173. 6. Colors. — Review the whole subject of colors, and go as far as Division XII., p. 123 of Manual. 174. 8. Plants. — Continue as before directed (140, 151, 162). " Economical Uses" continued, in familiar talks, through "Plants used for Manvfactures,'" MavmaX, p. 266 to 274, using Chart No. XXII., drawings, specimens, etc., for illustration. Also "Nat- ural Method of Classification," in familiar talks, Manual, p. 204, through "Endogenous Plants," p. 207, Chart No. XX. 175. 9. Physical Exercises as before dii-ected (9, 21, 33, 45). 176. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84, and 120). 177. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 178. 12. Construction: Cabinet Collections, etc. — According to the plan of the teacher. See suggestions (74, 86, 98, 110, 122, 133, and 144). 179. 13. Geographical and Historical. — Continue in the course marked out in the previous suggestions (123, 134, 145, and 156). Frequent reviews. Begin the use of the globes. 180. 14. Dictation Exercises. — Same as in preceding term. Music as before directed. Frequent declamations. ?econd term. 181. 1. Reading and Spelling. — See directions (37, 50, 63, 76, 100, and 112). When the division on " Physiology and Health," APPENDIX. 313 in the Fifth Reader, is read, suggest to pupils to read Combe's " Principles of Physiology applied to the Preservation of Health." 182. 2. Numbers continued (Gi, 77, 89, and 101). Combination exercises. Frequent reviews. Slate arithmetic. 183. 3. Drawing and Writing. — Continue as before (137, 148, etc.). Linear Perspective through p. 76, 77, 78. 184. 4. Written Compositions : Language : English Grammar. — See directions (160, 172). 185. 6. Colors. — Review as before, and finish the subject of col- ors, Manual, p. 123 to 129. 186. 8. Plants. — Continue as before directed (151, 162, 174). "Economical Uses" continued, in familiar talks, through "Mis- cellaneous" plants, and plants used for '■'■Coloring," p. 274 to 282, using Chart No. XXII., drawings, etc., for illustrations. Review "Natural Method of Classification," Manual, p. 198 to 209, Chart No. XX. After this period, the subject of " Plants" may be con- tinued in connection with the reading lessons (see next term) ; or it may be continued by taking up the study of Botany from the regular botanical text-book. 187. 9. Physical Exercises as before directed (9, 21, 33, 45). 188. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84, and 120). 1 89. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 190. 12. Construction : Cabinet Collections, etc. — According to the plan of the teacher. See, also, suggestions (74, 86, 98, 110, 122, 133, and 144). 191. 13. Geographical and Historical. — Continue in the course already marked out (123, 134, 145, 156, 179). Frequent reviews. 192. 14. Dictation Exercises. — Continue as directed (168). Music as before directed. Frequent declamations. NINTH SCHOOL YEAR. first term. 193. 1. Reading and Spelling. — See directions (37, 50, 63, 76, 100, and 112). In connection with the botanical division of the Fifth Reader, place Chart No. XX. before the pupils. Before proceeding with the lesson, let some pupil point out on the Chart, and give an abstract of, the classes and families, as far as the class has gone. Suggest to pupils to read Gray's "How Plants Grow." They may also examine the introductory portions of Wood's or Lincoln'sNBotany. 194. 2. Numbers continued (64, 77, 89, and 101). Combination exercises. Frequent reviews. Slate arithmetic. 195. 3. Drawing and Writing. — Continue in the course of pre- o 314 APPENDIX. vious exercises. Encourage pupils to form new plans in perspect-- ive, and also to make drawings of buildings from Nature, and to draw the same building from different positions. 196. 4. Written Compositions : Language : English Grammar. —See direction 3 (160, 172). Extend the sabject into rhetoric proper, and begin a survey of English literature from some such work as Cleveland's "Com- pend." One hour, or more, each week may be devoted to these allied subjects, in lectures by the teacher, and written sketches by the pupils, where they can not be made subjects of regular study and recitation. 197. 6. Colors. — Keview the entire subject of colors. 198. 9. Physical Exercises as before directed (9, 21, 33, 45). 199. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84, and 120). 200. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 201. 12. Construction: Cabinet Collections, etc. — According to the plan of the teacher. See, also, suggestions (74, 8G, 98, 110, 122, 133, and 144). 202. 13. Geographical and Historical. — Continue in the course already marked out (123, 134, 145, 156, 179). Frequent reviews. 203. 14. Dictation Exercises. — Continue as before directed (168). Music as before directed. Frequent declamations. Element- ary book-keeping. second term. 204. 1. Eeading and Spelling. — See directions (37, 50, 63, 76, 100, and 112). In connection with the division of Reptiles and Fishes in the Fifth Reader, use Chart No. XVIIT., pointing out the divisions as directed for the Mammalia, Birds, etc. (112, 146). 205. 2. Numbers continued (64, 77, 89, and 101). Combination exercises. Frequent reviews. Slate arithmetic. 206. 3. Drawing and Writing. — Continue as before directed (137, 148, 195, etc.). Review Perspective. 207. 4. Written Compositions : Language : English Grammar. — See directions (160, 172). Rhetoric and .English literature. — See suggestions of preceding term (196). 208. 9. Physical Exercises as before directed (9, 21, 33, 45). 209. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84, and 120). 210. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 211. 12. Consthuction : Cabinet Collections, etc. — According APPENDIX. 315 to the plan of the teacher. See, also, suggestions (7-i, 86, 98, 110, 122, 133, and 144). 212. 13. Geographical and Historical. — Continue in the course already marked out (123, 134, 145, 156, 179). Frequent re- views. 213. 14. Dictation Exercises. — Continue as before directed (168). These may, with propriety, be extended to many important sub- jects that can not be taken up as regular studies, such as popu- lar astronomy, mental philosophy (such as Abercrombie's work), a description of the arts, or technology (Bigelow's wofk), the science oi government, and especially our town, county, state, and national governments. Music as before directed. Frequent declamations. Element- ' ary book-keeping. TENTH SCHOOL YEAK. FIRST TERM. 214. 1. Reading and Spelling. — See directions (37, 50, 63, 76, 100, and 112). In connection with the division of Natural Phi- losophy in the Fifth Reader, pupils may read out of school Far- aday's "Physical Forces" — a course of six lectures; also, exam- ine Wells's "Science of Common Things," Porter's "Familiar Science," etc. In connection with the division of Physical Ge- ography, suggest to them to read Summerville's "Physical Sci- ences," or Guyot's "Earth and Man." On this and kindred subjects, Humboldt's " Cosmos," 5 vols. 12mo, is a suitable work for advanced students. In connection with spelling, take up the analysis of derivative and compound words. See M'Elligott's " Young Analyzer," and "Analytical Manual." Natural Philosophy may now be carried beyond the Fifth Read- er, and taken up as a study from the regular text-book in schools where it can be introduced in this manner. 215. 2. Numbers continued (64, 77, 89, and 110). Combination exercises. Frequent reviews. Slate arithmetic. Algebra may now be introduced, where the school is sufficient- ly well graded to render it feasible. 216. 3. Drawing AND Writing. — Continue as before directed (137, 148, 195, 206). 217. 4. Written Compositions : Language : English Grammar. —See directions (160, 172). Rhetoric and English literature as before suggested (196). 218. 9. Physical Exercises as before directed [9, 21, 33, 45). 219. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84, and 120). 316 APPENDIX. 220. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 221. 12. Construction : Cabinet Collections, etc. — According to the plan of the teacher. See, also, suggestions (74, 86, 98, 110, 122, 133, and lU). 222. 13. Geographical AND Historical. — Continue in the course already marked out (123, 134, 145, 156, 179). Frequent reviews. 223. 14. Dictation Exercises. — Continue as before directed (168). See, also, suggestions (213). Music as before directed. Frequent declamations. Element- ary hook-keeping. second term. 224. 1. Reading and Spelling. — See directions (37, 50, 63, 76, 100, and 112). In connection with the division of Chemisti7 in the Fifth Reader, suggest to pupils to read Hooker's "First Book in Chemistry," and Faraday's " Chemistry of a Candle." In con- nection with the division cf Geology, Hugh Miller's "Old Red Sandstone," and Hitchcock's "Scripture and Geology." The analysis of derivative and compound words as before (214). Natural Philosophy, as a regular study, as before suggested (214). 225. 2. Numbers continued (64, 77, 89, and 101). Combination exercises. Frequent reviews. Slate arithmetic. Algebra may be continued, and geometry taken up. 226. 3. Drawing and Writing. — Continue as before directed (137, 148, 195, 206). 227. 4. Written Compositions : Language : English Grammar. —See directions (160, 172). *' Rhetoric and English literature as before suggested (196). 228. 9. Physical Exercises as before directed (9, 21, 33, 45). 229. 10. Manners and Morals, Maxims and Mottoes. — Same as before suggested (22, 34, 46, 59, 72, 84, and 120). 230. 11. Miscellaneous Objects. — Continued in accordance with previous suggestions (60, 73, 85, and 97), five minutes daily. 231. 12. Construction : Cabinet Collections, etc. — According to the plan of the teacher. See, also, suggestions (74, 86, 98, 110, 122, 133, and 144). 232. 13. Geographical and Historical.— Continue in the course already marked out (123, 134, 145, and 156). Frequent reviews. 233. 14. Dictation Exercises as before directed (168 and 213). Music as before directed. Declamations. Book-keeping. Remarks.— The teacher who has gone through the present Manual, and examined the course of instruction presented in the foregoing "Pro- gramme," will get our views of what a system of "object" teaching APPENDIX. 317 should be, and of the extent to which it should be introduced into our schools. We have seen some objections to the system by those who evi- dently do not understand its principles, and who erroneously suppose it to consist of oral instructions by the teacher about '< common things;" and many teachers, indeed, who profess to be practicing it, and who take this superficial view of it, are bringing the system itself into disrepute. Hence some are beginning to regard the system as one of mere amuse- ment for the child, or a system of learning made easy, that requires no close mental application, and gives no mental discipline. But we believe any sensible person who will look over the amount and character of the work marked out for the pupil, from the tender age of four years, in the foregoing programme, will admit that great mental activity and industry will be required to go through such a course. He will see that this "object" system, which is here introduced so early, and is peculiarly adapted to childhood, is, indeed, the very opposite of incul- cating lazy habits of thought in children by doing the thinking for them, for it is made pre-eminently the office of the teacher in this system to lead the pupil to think instead of telling him every thing. If by this sys- tem study is made attractive, it does not necessarily follow that idle amusements are made to take the place of study. If amusements are made to minister to mental activity in the acquisition of knowledge, it is so much additional gain. By the untiring, persevering mental effort which the system strives to call forth, beginning with the early and con- stant exercise of the perceptive faculties, the mind is sought to be strengthened, on the principle of the great law of labor. If it is not, therefore, when carried out in accordance with our views, an admirable system of mental gymnastics for the young, we wholly misconceive its tendencies. Nor is science made every thing in this system, as some suppose. It is only a part of its course ; and even then it is made an instrument only, while the ultimate aim is mental culture, which, however, brings with it, more peculiarly in this system than in any other, a knowledge of sensi- ble objects — of their character and qualities, and of the beauty, wisdom, goodness, and truth which God exhibits in his works. Assuredly that science which leads "from Nature up to Nature's God" is not useless knowledge, nor does it underaiine faith, as those ignorant of science im- agine, but, on the contrary, strengthens and supports it. It will, however, doubtless strike some who have practiced "object" teaching, but who understand little of its true principles, that in the foregoing Programme and Manual we have not confined ourselves strict- ly to a system of ?«e?-e " Object Lessons." We have designed the work as a "Manual of Instruction" for the whole field of primary education, and have introduced " object" teaching only where we thought it adapt- ed to the subject, and the subject suited to the ages of the pupils. And while we do not believe that t7-ue object teaching can be carried too far, 318 APPENDIX. and while we do believe that it is the only system adapted to the unfold- ing faculties of childhood, we as firmly believe that there are some of the more advanced subjects of study to which it is not applicable ; for there are some subjects which, although they may often be illustrated by ma- terial things, do not, like the natural sciences, deal directly with mate- rial objects. But we believe such a course of elementary training in "object" teaching as we have attempted to sketch in the present vol- ume, in connection with the model lessons given in Mr. Calkins's " Man- ual," will, if carried out in the right manner by the teacher, lay the very best and only true foundation for a mental superstructure in which all science, all art, and all literature shall be found combined in harmonious proportions. We would begin with science — a knowledge of the world around us — ^just as Nature begins her teachings, instead of putting off science to the last thing in education, where it is generally neglected en- tirely ; and the fine arts should crown the edifice. We would also have pupils, from the very beginning, em])loy their faculties, and make nse of their knowledge, by descriptions of things, in a series of " Oral Composi- tions," which should give place to the frequent use of the pen, and searching analysis, as the course advances. Gradually the exercises in any department or study should lead onward, by easy gradations, to the hardest set tasks, requiring the severest mental labor, but never in ad- vance of the progressive attainments of the pupil. Let teachers be im- pressed with the idea that the true "object" or development system should be regarded, primarily, as a means ofviental cidture, and not merely as a medium of acquisition ; and in all their school exercises let them study how best to awaken observation, secure attention, improve the memory, develop thought, and cultivate the reason ; for thus only will the great ends of education be attained. APPENDIX. 819 II. MAXIMS AND MOTTOES, APHORISMS AND PROVERBS, FOR THE SCHOOLROOM. The genius, wit, and spirit of a nation are discovered in its maxiins and proverbs. — Baco7i. Proverbs are, for the most part, rules of moral, or, still more properly, of prudential conduct. — Brande. Proverbs embody the cun'ent and practical philosophy of an age or nation Fleming, A proverb is the wit of one, and the wisdom of many Lord John Russell. These things have I spoken unto you in proverbs John, xvi., 24. And he spake many things unto them in parables.— Matt., xiii., 3. The first and most ancient inquirers into truth were wont to throw their knowledge into ajjhorisms, or short, scattered, unmethodical sentences Bacon. Exclusively of the abstract sciences, the largest and worthiest portion of our knowl- edge consists of aphorisms. — Coleridge. Proverbs are the gatheiings of ages. Like pebbles smoothed by the flood, they have flowed down the stream of time, divested of extraneous matter, rounded into harmo- nious couplets, or clenched into useful maxims. Less ornate and redundant than the productions of modern literature, they are far more instructive; they are the manual of practical wisdom compiled from the school of experience, and are thus the very salt of all knowledge ; and their precepts, as the actual results of life, circumstance, and occasion, are far preferable to the erring deductions of the speculative inquirer. — Tlios. Fielding. Proverbs embrace the wide sphere of human existence ; they take all the colors of life ; they are often exquisite strokes of genius • they delight by their airy sarcasm or their caustic satire, the luxuriance of their humor, the playfulness of their turn, and even by the elegance of their imagery, and the tenderness of their sentiment. They give a deep insight into domestic life, and open for us the heart of man in all the va- rious states he may occupy. A frequent review of proverbs should enter into our read- ings Curiosities of Literature. With the above commendations of proverbs — a general term under which may he inckided maxims, mottoes, aphorisms, apophthegms, ad- ages, wise sayings, saws, etc. — we would suggest a caution against their too frequent use, except as media of instruction, and also against the use of such as are not elegant and refined. Although once considered the ornaments of conversation, they are no longer so regarded by the polite, probably because they at one time became so common ; but, in the lan- guage of D'Israeli, "they have not ceased to be the treasures of thottght.'' They may be made to subserve a most excellent purpose in school in- struction. See the foregoing Programme : 1. To be happy you must be good. 2. A kindness is never lost. 3. A wise son maketh a glad father. 4. Scorn to do a mean action. .'). Honesty is the best policy. C. Never give a hasty reply. 320 APPENDIX. 7. In most quarrels there is a fault on both sides. 8. A little neglect may cause great mischief. 9. A small spark may kindle a great fire. 10. A confessed fault is half mended. 11. Do unto others as you would have them do to you. 12. Do what you ought, come what may. 13. Time will bring to light whatever is hidden. 14. Trifles often lead to serious matters. 15. Truth is the highest ornament of youth. 16. Lying lips ai'e an abomination to the Lord. 17. JNIerit will surely meet with a reward. 18. A boy is known by the company he keeps. 19. He who fears God docs not fear man. 20. The fear of the Lord is the beginning of wisdom. 21. The angry man is a madman. 22. It is sport to a fool to do mischief. 23. A fool always finds a greater fool to admire him. 24. Learning is better than houses, lands, or money. 25. A place for every thing, and every thing in its place. 26. One ill word asketh another. 27. Show me a liar, and I'll show you a thief. 28. One lie begets another. 29. Oil and truth will get uppermost at last. 30. A good name will shine forever. 31. A liar is not to be believed though he speak the truth. 32. Kind speeches comfort the heavy hearted. 33. A soft answer turneth away wrath. 34. Where there is a will there is a way. 35. None so deaf as those that will not hear. 36. When one xcill not, two can not quarrel. 37. It is the second blow that makes the fray. 38. The way to be truly honored is to be truly good. 39. The more we serve God, the better we serve ourselves. 40. The credit that is got by a lie only lasts till the truth is out. 41. So long as you are ignorant, be not ashamed to learn. 42. Small faults indulged are little thieves that let in greater. 43. Manners and learning make a gentleman. 44. Goodness always enriches the possessor. 45. Kind words cost nothing, but are worth much. 4G. He is idle who might be better employed. 47. He who resolves to do right has God on his side. 48. Lazy folks take the most pains. 49. Idleness is the parent of vice and misery. 50. A good word for a bad one is worth much and costs little. 51. Anger begins with folly and ends in sorrow. APPENDIX. 021 52. Be always more ready to forgive than to return an injur}'. 53. Experience is a dear school, but fools will learn in no other. 54r. Application in youth makes old age comfortable. 55. A fault is made worse by endeavoring to conceal it. 56. An angry man opens his mouth and shuts his eyes. 57. A wager is a fool's argument. 58. An oak is not felled with one blow. 59. Better to be alone than in bad company. 60. Doing nothing is doing ill. 61. A jest is no argument. 62. A drowning man will catch at a straw. 63. A good name is better than riches. 64; All is not gold that glitters. 65. A rolling stone gathers no moss. 66. Every man is the architect of his own fortune. 67. He that will not be counseled can not be helped. 68. He that does you an ill turn will never forgive you. 69. Learning makes a man fit company for himself. 70. Little and often fills the purse. 71. Little strokes fell great oaks. 72. Make the best of a bad bargain. 73. One eyewitness is better than ten hearsays. 74. One is not so soon healed as hurt. 75. An ounce of prevention is worth a pound of cure. 76. Say well is good, but do well is better. 77. The worth of a thing is best known by the want of it. 78. What can not be cured must be endured. 79. Yielding is sometimes the best way for succeeding. 80. A promise against law or duty is void in its own nature. 81. A liar is a bravo toward God, and a coward toward men. 82. A man that breaks his word bids others be /alse to him. 83. A good life keeps off wrinkles. 84. Amendment is the best sign of repentance. 85. After praying to God not to lead you into temptation, do not throw yourself into it. 86. Constant occupation prevents temptation. 87. Envy shoots at others and wounds herself. 88. Example teaches more than precept. 89. He that swells in prosjjerity will shrink in adversity. 90. If every one would mend one, all would be mended. 91. Ignorance is a voluntary misfortune. 92. Contempt will sooner kill an^njury than revenge. 93. An idle brain is the devil's workshop. 94. A bad wound heals ; a bad name kills. 95. A bad workman quarrels with his tools. O 2 322 APPENDIX. 96. A blithe heart makes a blooming visage. 97. A burden which one chooses is not felt. 98. A faithful friend is a strong defense. 99. A flatterer is a most dangerous enemy. 100. A fop is the tailor's friend and his own foe. 101. A friend is never known till needed. 102. A friend in need is a friend in deed. 103. A great fortune is a great slavery. 104. An evil conscience is the most unquiet companion. 105. A man forewarned is forearmed. 106. Advise not what is most pleasant, but what is most useful. 107. A penny saved is a penny earned. 108. A small leak will sink a great ship. 109. A stitch in time saves nine. 110. A young man idle, an old man needy. 111. Affectation is at best a deformity. 112. Affectation is part of the trappings of folly. 113. Better face a danger than be always in fear. 114. Before you promise, consider what you can perform. 115. Avoid that which you blame in others. 116. Beggars have no right to be choosers. 117. Be slow to promise, and quick to perform. 118. Birds of a feather flock together. 119. Civility is a charm that attracts all men. 120. By doing nothing we learn to do ill. 121. Command your temper, lest it command you. 122. Drive thy business, or thy business will drive thee. 123. Every day of your life is a leaf in your history. 124. Do nothing to-day that you are likely to repent of to-morrow. 125. Deeds are fruits ; words are but leaves. 126. Deep rivers flow in silence ; shallow brooks are noisy. 127. Do nothing you would wish to conceal. 128. Empty vessels make the greatest sound. 129. Among the base, merit begets envy; among the noble, emulation. 130. A few books well chosen are of more use than a great library. 131. Acquire honesty ; seek humility ; practice economy ; love fidelity. 132. Against fortune oppose courage ; against passion, reason. 133. A clear conscience fears no accuser. 134. A good cause makes a stout heart and a strong arm. 135. Affectation in dress implies a flaw in the understanding. 136. A passionate man rides a horse that runs away with him. 137. A gentle disposition is like an unruffled stream. 138. A great man will neither trample on a worm nor sneak to a king. 139. Apprehension of evil is often worse than the evil itself. 140. By reading we enrich the mind, by conversation we polish it. APPENDIX. 323 141. A wounded reputation is seldom cured. 142. Better to suffer without cause than to have cause for suffering. 143. Begin nothing until you have considered how it is to be finished. 144. Be cautious of believing ill, but more cautious of reporting it. 145. By entertaining good thoughts you will keep out evil ones. 146. Courage without conduct is like a ship without ballast. 147. Cherish thy friend, and temperately admonish thy enemy. 148. Leave not for another what you can better do yourself. 149. Close not your eyes at night till you have opened your lips in prayer. 150. Two things a man should never be angry at: what he can help, and what he can not help. 151. Envy can not see ; ignorance can not judge. 152. Eveiy body's business is nobody's business. 153. Evil communications corrupt good manners. 154. Every man who does a secret injury is a coward. 155. False friends are worse than open enemies. 156. Follow the wise few rather than the vulgar many. 157. Fortune can take nothing from us but what she gave. 158. The wicked flee when no man pursueth. 159. God helps those who helps themselves. 160. Good counsel is above all price. 161. Grudge not another that which you can not attain yourself. 162. He that is over-hasty fishes in an empty pond, 163. He who avoids the temptation avoids the sin. 164. He who masters his passions conquers his greatest enemy. 165. Hope long deferred maketh the heart sick. 166. He who says what he likes, must hear what he does not like, 167. He who spends all he gets is on the high road to beggary. 168. If the counsel be good, no matter who gave it. 169. It is less painful to learn in youth than to be ignorant in age, 170. If you wish a thing done, go ; if not, send. 171. Ill will never spoke well. 172. It is never too late to learn. , „„ (Little boats must keep near shore ; (Large ships may venture more. 174. Lose no opportunity of doing a good action. 175. Let not the sun set upon your anger. 176. Mildness governs better than anger. 177. Necessity is the mother of invention. - x 178. Never sport with pain or poverty. 179. Nothing is so secret but time and truth will reveal it. 180. Pardon others often, thyself seldom. 181. Prudence guides the wise, but passion governs the foolish. 182. Punishment and reward are like the bridle and spur. 324 APPENDIX. 183. Quarrels are easily begun, but with dilBculty ended. 184. llesist a temptation till you conquer it. 185. llich naen depend on the poor, as well as the poor on them. 186. Reform those things in yourself that you blame in others. 187. Sneer not at that you can not rival. 188. So live with men as if God saw you. 189. Sands form the mountain ; moments make the year. 190. Study mankind as well as books. 191. Speak as you mean, do as you profess, and perform what yoo promise. 192. Temperance is the best medicine. 193. Some act first, think afterward, and repent forever. 194. The hand of the diligent maketh rich. 195. Time, patience, and industry are the three great masters of the world. 196. The greater the difficulty, the more glory in surmounting it. 197. Those who plot mischief live in fear and die miserable. 198. Unmei'ited honors never wear well. 199. Unprincipled men live knaves and die beggars. 200. We ai"e bound to be honest, but not to be rich. 201. Virtue is a garment of honor, but wickedness a robe of shame. 202. Vanity makes men ridiculous ; pride, odious. 203. When men speak ill of you, live so that nobody will believe tliem. 204. What sculpture is to a block of marble, education is to the mind. 205. The wise man knows he knows but little; the fool thinks he knows all. 206. He injures the good who spares the bad. 207. Every fool can find faults that a great many wise men can't mend. 208. A fool can ask questions that a wise man can not answer. 209. Buy what you do not want, and you will sell what you can not spare. 210. The wise man knows the fool, but the fool knows not the wise man. 211. The worth of a thing is best known by the want of it. 212. The devil goes away when he finds the door shut against him. 213. Help yourself, and heaven will help you. 214. Those who live in glass houses should not throw stones. 215. He who would catch fish must not mind getting wet. 216. A thousand probabilities will not make one truth. 217. By others' faults wise men correct their own. 218. Strike the iron while it is hot. 219. ]\Iake hay while the sun shines. 220. He who rises late never does a good day's work. 221. He that shows his passion tells his enemy where to hit him. 990 (He that would thrive must rise at five. (He that has thriven mav lie till seven. APPENDIX. 825 223. He that peeps through a hole may see what will vex him. 224. Forbid a fool a thing, and that he'll do. 225. To believe a business imposible is the way to make it so. 226. Never make a mountain of a moleliill. 227. Patience is bitter, but the fruit is sweet. 228. God tempers the wind to the shorn lamb. 229. Better go around than fall into the ditch. 230. He who thinks to deceive God has already deceived himself. 231. Time is a file that wears and makes no noise. 232. Between virtue and vice there is no middle path. 233. He that would eat the kernel must not complain of cracking the nut. 234. There is nothing so bad as not to be good for something. 235. One to-day is worth two to-morrows. 236. Error is worse than ignorance : for while the latter is a blank sheet on which we may write, the former is a scribbled one on which we must first erase. 237. Those who value themselves merely on their ancestry have been compared to potatoes, as all that is good of them is under ground. 238. An upright minister asks, What recommends a man ; a corrupt minister. Who. 239. Virtue without talent is a coat of mail without a sword; it may, indeed, defend the wearer, but will not enable him to protect his friend. 240. There are none so weak that we may venture to injure them with impunity ; and there are none so low that they may not at some time be able to return a kindness and repay an obligation. 241. The excesses of our youth are drafts upon our old age, payable with interest about thirty years after date. 242. There are three modes of bearing the ills of life : by indifference, which is the most common ; by philosophy, which is the most ostenta- tious ; and by religion, which is the most effectual. 243. Variety is the relaxation of a great mind, and amusement its repose. 244. If you wish to recommend yourself to a great and good man, take care that he quils your society with a good opinion oi you; if your object is to please a vain man, take care that he leaves you with a good opinion of himself. 245. Murmur not at misfortunes : if our ills can be cured, it is un- grateful ; if they can not be, it is vain. 246. In any art trifles make perfection, but perfection is no trifle. 247. The only thing which we are sure to want happens to be the only thing whicli we never purchase — our coffin ! 248. Wealth is a relative thing ; since he that has little, and wants less, is richer than he that has much, and wants more. 326 APPENDIX. " 249. While pride makes some men ridiculous, it prevents others from becoming so. 250. He that can please nobody is not so much to be pitied as he whom nobody can please. 251. Deliberate with caution, but act with decision; and yield with graciousness, or oppose with firmness. 252. Whoever dreads punishment, suffers it; and whoever deserves it, dreads it. 253. If you will not hear Reason, she will surely rap your knuckles. 254. Some are very busy and yet do nothing. 255. Physicians rarely take medicine, and lawyers seldom go to law. 25G. He that wants health wants every thing. 257. The poor man walks to get meat for his appetite, the rich man to get appetite for his meat. 258. Sickness is felt, but health not at all. 259. Good-nature is natural politeness. , 2G0. Nothing but religion is capable of changing pains into pleasures. 2G1. It is more honorable to acknowledge our faults than to boast of our merits. 262. Is it not astonishing that the love of repose keeps us in continual agitation ? 263. How benevolent are misers ! They amass wealth for those who wish their death ! 264. When we can not find contentment in ourselves, it is useless to seek it elsewhere. 265. Have the courage to obey your Maker at the risk of being rid- iculed by man. 266. Have the courage to show your preference for honesty in what- ever guise it appears, and your contempt for vice surrounded by attrac- tions. 267. Have the courage to admit that you have been in the wrong, and you will remove the fact from the mind of others. 268. Have the courage to wear your old garments till you can pay for new ones. 269. Have the courage to own that j'ou are poor, and you disarm pov- ei'ty of its sharpest sting. 270. Have the courage to do without that which you do not need, however much you may admire it. 271. Have the courage to speak your mind when it is necessary that you should do so, and the self-control to hold your tongue when it is better that you should be silent. 272. Have the courage to shut your eyes at the doubtful prospect of large profits, and to be content with the certainty of small ones. CONTENTS INTRODUCTORY. The Pkinoiples on which the System op Object Teachinq is based. 1. The System not new in Principle Page 3 2. Nature's System of Teaching 3 3. Early Development of the Perceptive Faculties 4 4. The "Elementary" Theory generally adopted 5 5. Nature's System — how opposed to it 6 6. The great Error in our Systems of Primary Instruction 10 T. All Science built upon the " Object" System 11 8. Why Science is adapted to Childhood 13 9. Why " Grammar" is not adapted to Childhood 14 10. How Language is to be taught 16 11. Correction of bad Habits of Speech IT 12. The " Natural Order" the first great Law of Development 18 13. " Exercise" the second great Law of Development 19 14. What the true Development System aims at 20 15. No danger of carrying the System too far 21 An Explanation of the School and Family Charts, with Sugges- tions OF Principles and Methods of Development, and Inform- ation FOR the Teacher : designed for a Course of Elementary Instruction, and adapted to the System of Object Teaching. CuAKT No. I. Elementary. Words taught as the Representatives of Things Page 24 Calling Words at Sight 26 The Alphabet, Counting, and Printing 26 Chart No. II. Reading: First Lessons. Six Divisions: Reading, Oral Composition, Spelling, Printing and Drawing, Count- ing 28-32 Chart No. III. Reading : Second Lessons. Reading, Oral Composition, Spelling, Printing and Drawing, Counting, Adding, and the Use of Figures 34-35 Chart No. IV. Reading : Third Lessons. Reading, Oral Composition and Writing, Spelling, Printing and Drawing, Num- bers 35-38 Chart No. V. Reading: Fourth Lessons. Reading, Oral Composition and Writing, Spelling, Printing and Drawing, Numbers, Punctuation, and Capitals 38-39 Chart No. VI. Reading : Fifth Lessons. Reading, Oral Composition and Writing, Spelling, Printing and Drawing, Numbers, Punctuation, Capitals, etc 39-42 Chart No. VH. Elementary Sounds. Long Sounds of the Vowels, Short Sounds, Double Sounds, Aspirates or Whispered Consonants, Sub- vocals. Exercises, Compositions 4'2-4S 328 CONTENTS. Chart No. VIII. Phonic Spelling. Phonic Spelling, Phonetic Analysis, Compositions Page 48-50 Chart No. IX. Writing 50 Chart No. X. Drawing. Part I. First Lessons in Drawing ,51 Part II. Geometrical Drawing ' 54 Part III. Linear Perspective 63 Chart No. XI. Lines and Measures 79 First Principles in Geography 82 Chart No. XII. Forms and Solids 89 Chart No. XIII. Familiar Colors 92 Chart No. XIV. Chromatic Scale of Colors. J. General Piinciples of Light, Darkness, and Color 97 II. Combinations of Colors, as shown by the Chromatic Scale 98 III. Table of Colors ; their Combinations, Proportions, and Complementariea . . 103 IV. Tones ; embracing Tints and Shades of Colors 105 V. Hues of Colors 107 VI. Complementai-y Colors 109 VII. The Harmony of Colors 110 Vni. Discordant Effects of the Juxtaposition of non-complementary Colors 116 IX. Arrangement of Colors with AVhite 120 X. Arrangement of Colors with Black 121 XI. Arrangement of Colors with Gray 122 Xir. Modifications in Colors produced by colored Lights falling upon them 123 XIII. Of Colors in Clothing: 1. Men's Clothing ; 2. Female Clothing — Blondes; 3. Fe- male Clothing — Brunettes ; 4. The copper-colored, black, or olive-colored Races 124-1 2S XIV. Harmony of Colors in Nature 128 Chart No. XV. Zoologicai. : Economical Uses of Ani.mals. No. 1. Cattle; 2. Horses; 3. Swine; 4. Sheep; 5. Goats; 6. Elephants; 7. Camels; 8. Dogs ; 9. Fur-bearing Animals ; 10. Llamas 131-155 Representatives of some of the leading Orders and Divisions of Quadrvpeds. 11. The Monkey Tribe; 12. Lions; 13. Cats; 14. Rabbits; 15. Giraffes; IG. Deer; 17. The Rliinoceros; IS. The Hippopotamus ; 19. Beavers; 20. Armadillos and Pan- golins 155-1G2 Chart No. XVI. Zoological : Classification of Animals. First Class of the Vertebrates : the Mammalia. Races of Mankind ; First Order of the Mammalia, Quadru'mana ; Second Order, Car- nivora; Third Order, Ungulata; Fourth Order, Rodentia ; Fifth Ordei-, Marsupialia ; Sixth Order, Cetacea 162-169 Chart No. XVH. Zoological — Continued. Second Class of the Vertebrates : Birds. First Order, Birds of Prey ; Second Order, SpaiTows, Perchevs, or Singing-birds ; Third Order, Climbers ; Fourth Order, Scratchers ; Fifth Order, Runners ; Sixth Order, Waders ; Seventh Order, Swimmers 169-173 Chart No. XVIH. Zoological — Continued. Third Class of the Vertebrates : Reptiles. First Order, Chelonians or Turtles ; Second Order, Saurians or Lizard Reptiles ; Third Order, Ophidians or Serpents ; Fourth Order, Amphibians or Batrachians. .173-1T5 CONTENTS. 329 Fourth Class of Vertebrates : Fishes. First Order, Spine-rayed bony Fishes; Second Order, Soft-rayed bony Fishes; Third Order, Cartilaginous Fishes Pagel75-1TT Chart No. XIX. Botanical. Forms of Leaves, Stems, Hoots, and Flowers. I. General Forms and Arrangement of Leaves; 2. Forms of the Margins of Leaves; 3. Foi-ms of the Apexes or Ends of Leaves; 4. Curiosities of Leaves; 5. Frequent Forms of the Stems of Plants ; 6. Forms of the Roots of Plants ; T. Forms of Flow- ers ; 8. Forms of Flower-stems 177-189 Chart No. XX. Botanical : the Classification op Plants. I. The Linnaean System of Classification 191-198 II. The Natiu-al Method of Classification 198-209 CuAKT No. XXI. Botanical : Economical Uses of Plants. I. Our Covivion Fruits: Apple, Pear, Quince, Peach, Plum, Apricot. Grape, Cur- rant, Filbert, Gooseberry, Raspberry, Blackberry, StrawbeiTy 210-220 II. Common Root Plants: Radish, Sweet Potato, Common Potato, Onion, Turnip, Parsnip, Carrot, Beet 2-20-226 III. Cereals or Corn Plants: Wheat, Rye, Barley, Buckwheat, Rice, Millet, Oat, In- dian Corn, Sugar-cane 226-238 rV. Frtiits of M'arm Countries : Cocoanut, Mango, Fig, Date, Olive, Pomegranate, Pine-apple, Bread-fruit, Orange, Lemon 238-249 Chart No. XXII. Botanical : Economical Uses op Plants— Co7i4. (Third R., 2i!6.) Logwood, 280. (Fifth R., 161.) Mace, from nutmegs, 205. 384 INDEX. Madder, 281. Magnetic needle, inclination of, 81. Maize, or Indian com, 207, 226, 234. (Fifth R., 103.) Malt, 230. Mango, fruit, 230. Manilla, 269. Manners and morals. See Programme of Studies, 292-316. Manual labor schools, 55, note. Manual of Object Lessons, Calkins's, refer- red to, 22, 24, 129, and throughout the Programme, 289-316. Manufactures, plants used for, 266. Marmalade, 248. Maxims and mottoes, collection of, 319 ; use of, in school instruction, see Pro- gi'amme of Studies, 295-316. Medicine, plants used for, 249. Milk of cows, uses of, 133. Millet, plant, 207, 233. (Fifth R., 193.) Moleskin, cloth, 268. Monkey tiibe, 156, 16?. (Third R. , 89-104. ) Monopetalous plants, 199, 203. (Fourth R., 219. In Fifth R., from 164 to 174, the plants are monopetalous.) Mordants, for setting colors, 282. Morocco leather, 146. (Third R., 220.) Morphine, 253. Mucronate leaf, 184. Mulberry-tree, 272. Mule, 139, note. Music, singing, etc. See Progi'amme of Studies, 292-316. Muslins, cloth, 269. Napiform root, 186. Natural order of the presentation of sub- jects, 18. Natural Philosophy. See Programme of Studies, 315, 316. (Fourth R., 276-325; Fifth R., 317-356.) Nature's system of teaching, 3, 6, 7, 8, 9, 19. Nightshades, plants, 274. Numbers, early exercises in, 30, 31, 82, 34, 37, 38, 40. See Programme of Studies, 291. Nutmeg-tree, 284. Nux vomica, 266. Oak family of plants, 204 (Fourth R., 175-6; Fifth R., 174.) Oats, 207, 234. (Fifth R., 193.) Ob-cordate leaf, 180, 184. Object system, the, not new in principle, 3, 11; its applications, 14; no danger of carrying it too far, 21 ; not the science of " common things," 21 ; principles of, 3- 22, 289, 290, 316. Ob-lanceolate leaf, 179. Ob-ovate leaf, 179. Obtuse leaves, 184. Octagon, to inscribe in a circle, 59 ; defini- tion of, 90. Octahedron, 62. Olive, pbmt, 242; olive-oil, 243, 252. Onion, plant, 222. Opium, 252. Orange, 247. (Fifth R., 156-7.) Oval, 90. Ovary, seed-vessel, 191. Ovate leaf, 170. Owls, 170. (Fifth R., 97.) Palmate leaf, 181. Palm family of plants, 207. (Fifth R. , 189. ) Pangolins, 162 (or ant-eaterB, Third R., 2^9). Panicle, 188, 234. Papilionaceous ilowers, 187, 195. (Fifth R. , 161.) Paraguay tea-plant, 261. Parallelogram, 90. Parchment, 141, note. Parsnip, plant, 224. Peach, fruit, 213. (Fifth R., 152.-) Pear, fruit, 212. (Fifth R., 152.) Pedicel, 188. Peltate leaf, 180. Penmanship, 50, 51. Pentagon, to inscribe in a circle, 60 ; def- inition of, 90. Pepper, Jamaica, 282; black, 286; Cay- enne, 286 ; red, 287. Perception, what it is, 6, 8 ; facts first learn- ed by it, 10. Perceptive faculties, early development of, 4, 6, 13 ; cultivation of, 16 ; the materials of our knowledge derived through them, 19 ; voluntary exercise of the, 21. Perennials, 185. . (Fourth R., 185, 187, 220.) Perfoliate leaf, 181. Perpendiculars, 56, 57. Personate flower, 187. Perspective, linear, 63 ; perspective, plane, 64 ; vanishing points, 65: point of sight, 66 ; centre of the picture, 67 ; horizontal line, 67 ; exercises in perepective draw- ing, 65 to 78. Peruvian bark, 254. Petals, 190. (Fourth R.,219.) Petersham cloth, 143. Petiole, 179. Phonetic analysis, 49. Phonics, phonic spelling, 48, 49. Physical exercises. See Programme of Stud- ies, 291-316. Pilot-cloth, 143. Pine-apple, 246. (Fifth R., 185.) Pink-shaped, 187. Pinnate and pinnatifid, 181. Pistil of the flower, 191. (Fourth R., 218, 223.) Plantain-tree, fruit of, 245. Plants, descriptions of, 177-287 ; econom- ical uses of, 209-287. See Programme of Studies, 291-313. (Fourth R., 171- 229 ; Fifth R., 140-212.) Plum, fruit, 213. Poisons, medicinal, vegetable, 274. Pollen of plants, 191, 235. Polyhedrons, the five regular, 61, 63. Polypetalous plants, 199, 201. (Fourth R., 219; Fifth R., all the plants from 147 to 164.) Pomegranate, 244. INDEX. 835 Poppy, 251. Potato, sweet, 221; common, 221. Pouched quadrupeds, 108. (Third R., 236.) "Primary Object Lessoni'," references to, 82, note, S'.>, and throughout the Pro- gramme of Studies, 289-3 IG. Principles of science — tlie generalization of facts, 10, 11. Printing letters, 26, 29, 30, 31, 33, G4, 37, 38, 40. See Programme, 291. Prism, 91. Proverbs, maxims, etc., collection of, 319. Punctuation, 39, 41. Quadrant, definition of, 91. Quercitron bark, 280. Quilts, cloth, 268 ; quiltinga, 269. Quince, description of, 212. Quinine, 254. Babbits, 159. (Third E., 231.) Raceme, flower-stem, 188. Races of mankind, 163. Radish plant, 220. Raspberry plant, 218. Reading, elementary theory of teaching, 5 ; how to teach, 8, 9 ; exercises in, 26, 28, 30, 31, 32, 35, 38, 39. Reniform leaf, 180. Repand, undulate, or wavy leaves, 183. Reptilss, 1T3; orders of, 174-5. (Fifth R., 51-72.) Rhetoric and English literature. See Pro- gramme of Studies, 314-316. Rhinoceros, 100. (Third R., 187.) Rhomb, definition of, 90. Rhomboid, definition of, 90. Rhubarb, plant, 249. Rice-birds, 171, 232. Rice, plant, 207, 231. Ringent flower, 187. Rodents, or gnawing animals, 15S, 160, 168. (Third R., 231.) Roots of plants, 186. (Fourth E., 182- 185) Ruminating animals, 132, 151, 158, 166. (Third R., 205.) Runcinate leaf, 264. Rye, plant, 207, 228. Saffron, plant, 280. Sagittate leaf, 179. Salver-shaped flowers, 186. Sarsaparilla, plant, 250. Saurians, 174. (Fifth R., 61.) Science built up on the object system, 11 ; why adapted to childhood, 13, 14. Scourer, a, 143. Sea-weeds, 209. (Fifth R., 208-211.) Sector, definition of, 91. Sedge, plants, 207. (Fifth E., 190.) Semicircles, definition of, 91. Senna, plant, 253. Sensation, what it is, 6, 8. Sepals of the calyx, 190. (Fourth R., 219.) Serpents, 174. (Fifth R., 69.) Serrate leaves, 183. Shaddock, fruit, 249. (Fifth 1!., 157.) Sheep, uses of, 141 ; kinds of, 142, 167. (Third R., 219-224.) • Sheeting, cloth, 268. Shoddy, cloth, 144. .shrubs defined, 1S5. (Fourth R., 187.) 8ilk and silkworms, 272. ^finuate leaves, 183. Size and form. See Programme of Studies, 292-299. Solids, forms, etc., 89; definitions of, 90, 91. Spelling, elementary theory of teaching, 5 ; exercises in, 29, 30, 31, 32, 33, 37, 38, 40, 182. Spermaceti, 169, note. (Third R., 238.) Sphere and spheroid. 91. Spices, plants used for, 282, 286, 287. Spike, a flower-stem, 18S. Square, how to draw it, 57 ; definition of, 90. Stamens of the flower, 190. (Fourth R., 218, 233.) Stems of plants, 185. Stipules, 179. Stomach of ruminating animals, cut of, 133. Stone-pine-tree, 242. (Fifth R., 183.) Stramonium, 274. Strawberry, plant and fruit, 218. Strychnine, 266. Sugar-cane, Chinese, 233; common, 236. (Fifth R., 193.) Sugar-mills, 236. Swine, uses of, etc., 139, 140, 167. (Third R., 189.) Tallow, 134: Tanning and tannin, 134, note. Tartan, cloth, 143. Tea-drinking, effects of, 258. (Fifth R., 155-6.) Tea plant, Chinese, 256; of Paraguay, 261. (Fifth R., 155.) Tetrahedron, 62, 91. Thallogens, a class of plants, 208. (Fifth R., 144, and 202 to 212.) Tobacco plant, 274; uses of, 275, 276. Toothless quadrupeds, 167. (Third R., 229.) Trapezium and trapezoid, definitions of, 90. Tree, defined, 185. Triangle, to inscribe a circle in, 58; to de- scribe a circle about, 58; definition of, 90. Trumpet-flower plants, 204. (Fifth R., 172.) Truncate leaves, 184. Tuber, tuberous root, 186. (Fourth R., 184.) Tubular, 187. Turmeric, 280, 284. Turnip, plant, 223. Turtles or tortoises, 174. (Fifth E. , 54-60.) Tweed, cloth, 143. Type Letter-cards, their use, 29, 30, 31, 34, 7, 38, 40, 89. Umbel, form of flower-stem, 183. Umbelliferous plants, 203. (Fifth E., 161.) Vanilla, plant, 277. Varnish-tree, 278. Vellum, 149, note. 336 INDEX, Venison, 147. Vultures, 170. (Fourth R., 96.) Whale tribe of animals, 16S. (Third R. 28S.) Wheat, plant, 207, 226. (Fifth R., 192.) AVlieel-shaped, or rotate, 1S7. Whorled leaves, 1S2. Willow family of plants, 205. (Fifth R. 178.) Wines, from grapes, 215. Woad, a plant, 279. Wool, qualities of, 142. Words, should not precede ideas, 6, 24; taught as the representatives of things, 24 ; calling them at sight, 26. Worsted, 145. Writing, penmanship, 50, 51. Zebra, the, 139, note. (Third R., 191.) A Series of Colored School and Family Charts. Twenty-two in Js' limber. Designed for a Course of Elementary Instruction, in Schools and Families. By M.^rcius Willson and N. A. Calkins. These Charts are now completed. They will be furnished either separately or in full sets, either mounted or in sheets, and also for Family Use in neat port-folio form, at the following prices. When mounted, two are on a card, of th^ size of each chart, about 22 by oO inches. They are sent by mail, in sheets. C I li n "3 3 ! S ? ^ l{ • C No. XV. Animals. Economical Us B'i ] No. XVI. Classification of Animals. §.« 1 No. XVII. Birds. Their Classificatic No. I. Elementary : Sixty illustrated Words. No. II. Reading: First Lessons. No. III. Reading: .Second Lessons. No. IV. Reading: Third Lessons. No. V. Readiug: Fourth Lessons. No. VI. Reading : Fifth Lessons. No. VII. Elementary Sounds. No. VIII. Phonic Spelling. No. IX. Writing Chart. No. X. Drawing and Perspective. No. XI. Lines and Measures, i No. XII. Forms and Solids. No. XIII. Familiar Colors, accompanied by a ('••-'•- cate set of Hand Color-Cards. No. XrV. Chromatic Scale of Colors. XVIII. Reptiles and Fishes. ification. I IN. LNo. , f No. XIX. Botanical Forms, &c. § "S j No. XX. Classification of Plants. S.2 I No. XXI. Economical Uses of Plants. " (, No. XXII. Economical Uses, continued. While these Cliarts, mounted on heavy binder's board, are designed more especially •HS aids in carrying out a system of elementary school instruction upon the "develop- ment" or ohjcct-le.-ifon method, they are also, in port-folio form, admirably adapted — in their plan and arrangement, by the attractiveness of their colored illustrations, and by the interest that attaches to the subjects which they embrace — to family use. Published by HARPER & BROTHERS, New York. H» H. R.