Class \^ }:i i 6 r 
 
 Book J E^h'^ 
 
 Copyright N^ 
 
 COPYRIGHT DEPOSIT. 
 
A [JNIT IN AGEICULTUEE 
 
 AN OUTLINE COURSE OF ~STUDY AND STUDENT'S 
 
 LABORATORY MANUAL, FOR TEACHERS AND 
 
 STUDENTS IN SECONDARY SCHOOLS 
 
 BY 
 
 JOSEPH DOLIVER ELLIFF 
 
 u 
 Inspector of Schools and Professor of High School Administration 
 University of Missouri 
 
 CHICAGO 
 ROW, PETERSOX & COMPANY 
 
^ 
 
 Copyright, 1911 
 
 BY 
 
 Joseph Doliver Elliff 
 
 ©CI. A 2 923 7 2 
 
 <. 
 
 K> 
 
INTEODUCTIOK 
 
 "The most significaiit fact in the educational world to-day is the 
 demand that agriculture be taught in the public schools. * * * j 
 do not believe in that philosophy of education which would establish 
 separate schools for the various industries and occupations of life." * 
 If we accept these statements, the conclusion is obvious: we should 
 teach agriculture in existing high schools and we should do it now. 
 
 We should teach this subject in existing schools because : 
 
 1. We are not ready to establish separate industrial or trade 
 schools in this country. Such schools, if maintained at state expense, 
 smack of European conditions and class distinctions. 
 
 2. We could not meet the expense of a dual system of secondary 
 schools, even if we were willing to do so. Most districts find some 
 difficulty in providing adequately for existing schools. To divide our 
 energies and resources between two systems of high schools, would 
 mean the ultimate failure of both. 
 
 3. The existing high schools can easily be made to fill the de- 
 mand. When agriculture is put on an equal footing with other sub- 
 jects, when teachers are employed who know and can teach the sub- 
 ject, and when they are given time and equipment to teach it, the 
 problem will be solved. 
 
 4. Measured by any standards of educational aims and educa- 
 tional values, courses in agriculture will compare favorably with 
 other courses taught. 
 
 We should introduce this subject immediately, for the very excel- 
 lent reason that the demand must and will be met. Some states have 
 
 * From an address by Df %n E. Davenport, College of Agriculture, Univer- 
 sity of Illinois. 
 
 3 
 
INTRODUCTION 
 
 already waited too long and as a result now face the problem of a 
 dual system of high schools. Certainly no greater misfortune than 
 this could befall the public schools of any state. 
 
 It seems to me that the growing demand of our people that the 
 schools be brought into closer relationship with the life of today; 
 that the courses of study take into account, in some measure at least, 
 the dominant interests of the community; that, among other stand- 
 ards of selection, we give some attention to the immediate interests 
 and future prospects of our pupils; is not only fair and just, but is 
 eminently sound pedagogy. If so, then the immediate problem con- 
 fronting all of us who are interested in secondary education is, how 
 to organize this course, how to iit it into the curriculum and how 
 to teach it so as to secure its maximum educational value to our 
 pupils. It is in the hope that I may contribute something to the 
 solution of this problem, that this book is written. 
 
 In the preparation of the book many sources of information have 
 been drawn upon, but the plan is original. I am especially indebted 
 to Dean F. B. Mumford, Professor J. C. Whitten and Mr. C. B. 
 Hutchison, of the College of Agriculture, for valuable suggestions 
 and corrections; and to Professor J. H. Coursault, of the School of 
 Education, for reading the proof. J. D. Elliff. 
 
 July 1, 1911. 
 
PURPOSE AND PLAN. 
 
 The teaching of agriculture in the high schools is beset with 
 many difficulties, among which are the following: 
 1. Scarcity of trained teachers. 
 3. But few good high school texts. 
 
 3. A frequent misconception of the purpose and value of the 
 course on the part of teachers and parents. 
 
 4. Confusion of pupils and teachers due to the wide variety of 
 suitable topics that may be studied and the great abundance of 
 illustrative material. 
 
 5. The still too common notion that agriculture is essentially a 
 book study which can be taught independently of laboratory and 
 field. 
 
 6. Lack of definite form and content of the course. 
 
 This book is an attempt to obviate some of these difficulties by: 
 
 1. Planning a course that any wide awake, progressive teacher 
 who has had any scientific training can teach successfully. 
 
 2. Referring throughout to the best standard authors in order 
 to give the student a broader and clearer view than is possible 
 where only one book is used. 
 
 3. Securing the cooperation of parents by bringing them into 
 direct contact with the work of the pupils in the home garden and 
 field. 
 
 4. Making the best possible use of illustrative material in the 
 laboratory, garden, and field, in order to give the students an oppor- 
 tunity to observe and study the fundamental processes at first 
 hand. 
 
 5. Confining the work to a comparatively few essential topics 
 and providing a definite amount of laboratory work on each. 
 
 The bulletin consists of two parts. Part I is for the use of the 
 teacher and contains : 
 
 1. Suggestions concerning equipment. 
 
 2. General suggestions. 
 
 3. Outline course with lists of readings. 
 Part II is a pupils' laboratory manual. 
 
 5 
 
A UNIT IN AGRICULTURE 
 
 PART I. 
 I. SUGGESTIONS CONCERNING EQUIPMENT. 
 
 A. Material to Be Collected by Teacher and Students at the Beginning of 
 
 the Year. 
 
 1 bushel clean sand. 
 
 1 bushel sandy loam soil. 
 
 1 bushel clay. 
 
 8 quarts leaf mold (well rotted). 
 
 1 bushel rich soil for use in growing liouse plants. 
 
 Samples of commercial fertilizer, with analysis and prices given. 
 
 Collection of economic seeds. 
 
 (These may be secured free of U. S. Department of Agriculture. 
 In ordering this collection, address U. S. Dept. of Agriculture, Seed 
 Laborator}^, Washington, D. C. When you order, send $1.50 to 
 Mackall Bros., 9th and H Streets, N. E., Washington, D. C. This 
 is to pay for the tray and vials used in packing the collection. 
 Notify the Department that you have sent the money to pay for tray 
 and vials.) 
 
 Collections of economic seeds prepared hy teacher and students. 
 
 1. Seeds of the following trees: oak, walnut, hickory, hazel, 
 apple, pear, peach, cherry, plum, etc. 
 
 2. Cereals: corn, wheat, oats, rye, barley, rice, etc. 
 
 3. Grasses and clovers: red clover, alsike, white clover, alfalfa, 
 timothy, millet, orchard grass, blue grass, Johnson grass, Bermu'la 
 grass, cowpeas, redtop, etc. 
 
 4. Common weeds : purslane, morning glory, Jamestown weed, 
 cocklebur, cheat, ragweed, horseweed, etc. 
 
 7 
 
8 A UNIT IN AGRI&ULTURE _^ 
 
 B. Apparatus for Soil Studies. 
 
 (Equipment for 20 students.) 
 1 pair of balances weighing to grams or quarter ounces. (A 
 four-pound postal scale may be used.) 
 • 5 glass tumblers. 
 10 wide mouthed 8-ounce bottles. 
 10 pint glass fruit jars, 
 
 5 thermometers. 
 10 student lamp chimneys. 
 10 shallow pans. 
 
 1/. lb. glass tubing (small sizes). 
 1/4 lb. glass rods (small sizes). 
 Filter paper. 
 Litmus paper. 
 5 glass or tin funnels. 
 5 small sieves of various meshes. 
 10 six-inch flower pots. 
 
 C. Material for Plant Studies. 
 
 (Equipment for 20 students.) 
 
 10 heavy dinner plates for seed germination. 
 
 10 panes of glass (8x11 inches). 
 
 10 small microscopes. 
 
 Quantity of heavy cotton cloth for use in seed germination. 
 
 10 shallow wooden boxes (12x18x3 inches) for growing cut- 
 tings, etc. 
 
 Apparatus for Babcock milk test (cost $5.00). 
 
 If possible, not less than one-half acre of good land for a school 
 garden and experiment field. (If the school has no such plot, land 
 from a nearby farm may be rented.) 
 
 Apparatus now in the physical, chemical, or biological laboratory 
 need not be duplicated for agriculture. Much of the material can 
 be made by the students or brouglit from their hom.es. The entire 
 list should be purchased through a local dealer for about $18,00. 
 
A UNIT IN AGRICULTURE 
 
 D. Text-Books. 
 
 If one copy of each of the following four> books is purchased 
 for each four pupils in the class, it will not be necessary for the 
 students to purchase any book. This plan is strongly recommended. 
 If any particular text is used, it should be one of these: 
 
 Elements of Agriculture, Warren, Macmillan Co $1,10 
 
 Agriculture, Jaclson & Daugheriy, Orange Judd Co 1,50 
 
 Agriculture, Ferguson & Lewis, Ferguson Publishing Co,, 
 
 Sherman, Texas 1.00 
 
 First Book of Farming, Goodrich, Doubleday, Page & Co 1.00 
 
 E. Books for Special Reference. 
 
 Types and Breeds of Farm Animals, Plumh, Ginn & Co 2,00 
 
 Physics of Agriculture, King, published by the author, Madi- 
 son, Wis 1,75 
 
 Nursery Book, Bailey, Macmillan Co 1,50 
 
 Experiments with Plants, Osterhauf, Macmillan Co 1,25 
 
 Soils, Lyon and Fippin, Macmillan Co 1.75 
 
 The Soil, King, Macmillan Co 1,50 
 
 Progressive Poultry Culture, Brigham, Torch Press, Cedar 
 
 Papids, Iowa 1,30 
 
 From the Secretary of Agriculture, Washington : 
 
 I complete set Farmers' Bulletins, and extra copies, one for each 
 member of the class, of Xos. 44, 123, 143, 154, 157, 187, 203, 
 218, 229, 255 and 260. 
 
 1 copy of list of bulletins for free distribution. 
 
 1 copy of list of publications for sale. (Some of these may be 
 obtained through tlie congressman of the district.) 
 
 Year Books, U. S. Dept. of Agriculture. 
 
 n, S. Bureau of Entomology, Circular No. 59. 
 
 U. S. Office of Experiment Station, Circular No. 34. 
 
 U. S. Bureau of Soil Study, Circulars Nos. 13, 195. 
 
 U. S. Bureau of Plant Industry, Circular No. 30. 
 
 1 set of your State Agricultural College Peports. 
 
10 A UNIT IN AGRICULTURE 
 
 U. S. Bureau of Animal Industry, Bulletins Nos. 37, 113. 
 Bureau of Education Bulletin No. 2 (1907). 
 Note.— Where no price is given the books are free. 
 
 F. Books Very Desirable, but Not Absolutely Essential. 
 
 Cyclopedia of American Agriculture, (four volumes), Bailey, 
 
 Macmillan Co $20.00 
 
 (This is the very best work of the kind, and will be of 
 much value to patrons as well as to students.) 
 
 Principles of Fruit Growing, Bailey, Macmillan Co 1.50 
 
 Plant Breeding, Bailey, Macmillan Co 1.25 
 
 Vegetable Gardening, Bailey, Macmillan Co 1.50 
 
 The Horse, Roberts, Macmillan Co 1.25 
 
 Fertilizers, Voorhees, Macmillan Co 1.25 
 
 Farm Science, International Harvester Co. (free). 
 
 Corn, Bowman & Crossley, published Ijy the authors, Ames, 
 
 Iowa 2.50 
 
 Farm Buildings, Sanders Publishing Co., Chicago 2.00 
 
 First Principles of Soil Fertility, Vivian, Orange Judd Co.. . . 1.00 
 
 Soils, Burl-ett, Orange Judd Co 1.00 
 
 G. Each School Should Subscribe for a Few Agricultural Papers. 
 
AJINIT IN AGRICULTURE 11 
 
 II. GENEEAL SUGGESTIONS TO TEACHEES. 
 
 1. The teacher should have a definite aim and plan for each 
 lesson, a clear notion of what he is going to do, the sources of informa- 
 tion and the material to be used. 
 
 2. As a general rule, the laboratory and field work should pre- 
 cede the study of the text. The following order is strongly recom- 
 mended : 
 
 a. The experiment, field or laboratory. Written or printed 
 
 directions for the work should be given. See Part II. 
 Pupils should be required to manipulate carefully, observe 
 closely, tliink connectedly, and record in writing. 
 
 b. The assigned readings. 
 
 c. The recitation. Here tlie whole topic should be reviewed, 
 
 put in correct form and reduced to use. An opportunity 
 to show the bearing and use of the lesson on the home life 
 of the child and the community should never be lost. 
 
 4. Each student should keep a note book in which each labora- 
 tory and field exercise and each demonstration is carefully recorded 
 in good English. This note book should contain the date and sub- 
 ject of each exercise, a statement of the materials used, description 
 of the work done, and such illustrative drawings as may be necessary. 
 In preparing an index to his note book, the student should specify 
 whether the work is a laboratory exercise, a field exercise, or a demon- 
 stration made by the teacher or by another student. The index should 
 bear the teacher's endorsement certifying that it is a true abstract 
 of the student's work. 
 
 5. The course is planned for one year. At least two double 
 periods per week should be given to individual laboratory or field 
 work. It is expected that some schools will do more work than is 
 outlined and that each will place some emphasis upon such topics 
 
1$ A UNIT ly AGRICULTURE 
 
 as are of special interest to the community in ^vliicli the school is 
 located. 
 
 6. While certain substitutions may be made in both library and 
 equipment, the lists given are considered minimum lists and should 
 be provided. 
 
 7. The course as planned presupposes no previous scientific 
 training on the part of the pupil, and may be placed in any year 
 of the high school. Students having had one or more sciences will 
 do more work than those who have had no such training. If physical 
 geograpliy is taught, it is strongly recommended that this suljject 
 be given in the first year and agriculture in the second year. 
 
 8. A heginning should he made. If the teacher cannot get 
 everything he- needs, he should use what he has and can get. Much 
 good work can be done with only such equipment as teacher and 
 students can provide. 
 
 9. Remember that agriculture cannot he taught successfully 
 from a hook alone. To attempt to do so when there is such an abun- 
 dance and variety of illustrative material is an unjustifiable waste of 
 time. The pupil should not study about soil ; he should study soils. 
 
 10. The required readings are given in Part I rather than in 
 Part II for the reason that the teacher should carefully guide in the 
 work. The teacher knows best what reading is necessary and when 
 it is necessary. Each of the text-books gives some information con- 
 cerning most of the lessons. For this reason, the texts are not given 
 in the lists of readings. The teacher should select the best reference 
 from each text. 
 
 11. The teacher will find it necessary to exercise careful super- 
 vision over the library. If possible, a separate case for the agricul- 
 tural library should be provided. » 
 
 12. The lesson should be studied by the teacher in advance of 
 the assignment of class work. The required readings should be 
 selected and placed on tlie blackboard as necessary from time to time. 
 
A UNIT IN AGRICULTURE 13 
 
 13. The teacher should not be satisfied with the literature given. 
 He will doubtless be able to find much additional that is as good or 
 better. 
 
 11. If possible a school garden in which each student has his 
 own plot of ground should be provided. For suggestions concerning 
 the equipment and management of the school garden, see Farmers' 
 Bulletins, Nos. 91 and 218, U. S. Department of Agriculture, and 
 Agi-icuUural Education, James A. Jewell, Bulletin No. 2 (1907), 
 Bureau of Education, Washington, D. C. The school garden may be 
 made the most interesting and profitable part of the work. 
 
 15. The books for special and general reference should be kept 
 by the teacher or librarian and sliould be taken from the library only 
 by permission of the teacher. Many of these books will interest 
 patrons. With these books as a basis, an agricultural library should 
 be built up for the use of all the people in the community. The 
 high school should be made a social and agricultural center for the 
 community. 
 
 16. While the topics may be studied in other than the order 
 named, it is probable that the order given is best. In any event, 
 soil study should precede plant study, and farm management should 
 come last. 
 
 17. It is believed that the average class can complete the course 
 as planned and do all the work well in one year of nine months. 
 
 18. If at any time suggestions are needed all the assistance pos- 
 sible may be secured by addressing your State Agricultural College. 
 
 19. Problems and review questions may be selected from the 
 excellent lists in Warren's text. 
 
 20. This course is largely a compilation of what seems to be 
 the best features of several courses. It is at best only tentative and 
 will doubtless need revision. To this end, the autlior will appreciate 
 the criticisms and suggestions of teachers it. 
 
14 A UNIT IN AGRICULTURE 
 
 III. OUTLINE COURSE. 
 
 A. FARM CROPS. 
 I. Corn. 
 
 1. Study of a grain of corn. Ex. 1. 
 
 2. Study of an ear of corn. Ex. 2. 
 
 3. Study of complete plant. Ex. 3, 
 
 4. Study of the three principal types of corn : 
 
 (a) Pop corn. 
 
 (b) Dent corn. 
 
 (c) Sweet corn. 
 
 5. A more careful study of the six important varieties: 
 
 (a) Boone County White. 
 
 (b) Reid's Yellow Dent. 
 
 (c) St. Charles Wliite. 
 
 (d) Leaming. 
 
 (e) St. Charles Yellow. 
 
 (f) Commercial White. 
 
 6. Corn judging, use of score card. Exs. 4 and 5. 
 
 7. How to select and store seed corn. 
 
 8. , Testing seed corn for germination. Ex. 6. 
 
 9. Methods of cultivation. 
 
 (a) Relation of climate to corn production. 
 
 (b) Preparation of soil for corn; fall plowing, spring plow- 
 
 ing, depth of plowing. 
 
 (c) Fitting the land after plowing. 
 
 (d) Planting: time, manner, depth, distance apart, nuin- 
 
 ber of grains in a hill, etc. 
 
 (e) Tillage: tools, frequency, depth of tillage, etc. 
 
 (f) Harvesting. 
 
 10. Simple methods of corn improvement. 
 
 (a) Ear to row plot in field. 
 
 11. Enemies of corn and how to control or destroy them. 
 
A UNIT IN AGRICULTURE 15 
 
 12. Corn and corn products: importance, use and value. 
 
 Literature. 
 
 The Nebraska Corn Book. 
 
 Farm Science, pp. 21-39. 
 
 Farmers' Bulletins, Nos. 199, 229, 253, 298, 303, 313. 
 
 Bureau of Entomology, Circular No. 59. 
 
 Office of Experiment Station, Circular No. 34 (rev.). 
 
 Year Book, Reprints 446 (1907), 488 (1908). 
 
 Bowman and Crossley, Corn. 
 
 II. Wheat. 
 
 1. Study of a grain of wheat. Ex. 7. 
 
 2. Study of a head of wheat. Ex. 8. 
 
 3. Study of a complete plant. Ex. 9. 
 
 4. Principal varieties. 
 
 5. Improving of wheat. 
 
 (a) Crossing. 
 
 (b) Selection of seed. 
 
 (c) Selection of individual plants. 
 
 6. Methods of cultivation. 
 
 (a) Relation of climate to wheat production. 
 
 (b) Plowing for wheat: time, depth. 
 
 (c) Preparation of ground after breaking. 
 
 (d) Sowing: broadcast, drill; amount of seed per acre. 
 
 7. Harvesting and marketing wheat. 
 
 8. Wheat and wheat products : importance and value. 
 
 9. Enemies of wheat and how to fight them : 
 
 (a) Eust. 
 
 (b) Hessian fly. 
 
 (c) Chinch bug. 
 
 (d) Smut. 
 Literature. 
 
 Farmers' Bulletins, Nos. 132, 250. 
 
16 A UNIT IN AGRICULTURE 
 
 Bureau of Soil, Circular Xo. 195. 
 Bureau of Entomology, Circular No. 70. 
 
 III. Oats. 
 
 1. Study of a head of oats. Ex. 10. 
 
 2. Principal varieties. 
 
 3. Methods of cultivation. 
 
 (a) Preparation of seed bed: plowing vs. disking. 
 
 (b) Seeding: drilling vs. broadcasting; amount of seed 
 
 per acre. 
 
 4. Treating oats for smut. 
 
 Litei'ature. 
 
 Farmers' Bulletin, No. 250. 
 
 Bureau of Plant Industry, Circular No. 30. 
 
 IV. Shipping, Storing, Testing, Grading, and Marketing Corn, Wheat, and 
 
 Oats. 
 
 V. The Legumes. 
 
 1. Identification and description of alfalfa, red clover, alsike, 
 white clover, cow peas, soy beans, and vetch. Ex. 11. 
 
 2. Methods of cultivation, character of soil, preparation of seed 
 bed, inoculation of soil, amount of seed per acre, time of season to 
 sow, methods and time of cutting and curing. 
 
 3. Use and value of each. 
 Literature. 
 
 Farmers' Bulletins, Nos. 58, 89, 131, 194, 278, 289, 315, 318, 339, 
 372. 
 
 VI. The Grasses. 
 
 1. Identification and description of blue grass, orchard grass, 
 timothy, Bermuda grass, redtop and Johnson grass. 
 
 Literature. 
 
 Farmers' Bulletins, Nos. 66, 312. 
 
 VII. Potatoes. 
 
 1. A study of the Irish potato. Ex. 12. 
 
A UNIT IN AGRICULTURE IT 
 
 8. Effect of large and small potatoes on yield. 
 
 3. Selection of seed potatoes. 
 
 4. Principal varieties. 
 
 5. Methods of cultivation. 
 
 6. Enemies of the Irish potato and how to fight them : scab, 
 
 dry rot, potato beetles. 
 
 7. Sweet potatoes : principal varieties, method of culture, yield 
 
 and uses as compared with Irish potatoes. 
 
 8. Improvement of potatoes. 
 
 (a) Selection from high yielding hills. 
 Literature. 
 
 Farmers' Bulletins, Nos. 35, 91, 295, 324. 
 
 Vin. Cotton. 
 
 1. study of cotton plant. 
 
 2. Principal types of cotton : 
 
 (a) Sea Island type. 
 
 (b) Upland type. 
 
 3. Conditions of soil and climate favorable to the production of 
 
 cotton. 
 
 4. Planting and cultivation of cotton. 
 
 (a) Preparation of soil. 
 
 (b) Planting, 
 
 (c) Cultivating. 
 
 (d) Harvesting. 
 
 5. Preparation for market. 
 
 (a) Ginning, 
 
 (b) Baling. 
 
 6. Cotton seed and cotton-seed products, importance and use. 
 
 7. Insect enemies of cotton and how to fight them. 
 
 Literature. 
 
 Farmers' Bulletins, Nos. 36, 48, 209, 211, 285, 286, 302, 314, 344. 
 
 L\. Tobacco. 
 
 1. Study of complete plant. 
 
18 A UNIT IN AGRICULTURE 
 
 2. Conditions of soil and climate favorable to the production of 
 
 tobacco. 
 
 3. Principal varieties. 
 
 4. Planting and cultivating tobacco: 
 
 (a) Preparation of seed bed. 
 
 (b) Time and manner of sowing the seed. 
 
 (c) Preparation of the soil for crop. 
 
 (d) Transplanting. 
 
 (e) Cultivating. 
 
 5. Harvesting tobacco. 
 
 G. Curing and preparation for market. 
 
 7. Insect enemies of tobacco and how to fight them. 
 
 Literature. 
 
 Farmers' Bulletins, Nos. 60, 82, 83, 126, 343. 
 
 B, THE SOIL. 
 
 1. Origin and formation of soil. Ex. 17. 
 
 2. Composition of soil. Exs. 13, 14, 15, and 16. 
 
 3. Soil water. Exs. 17, 19, 20. 
 
 4. Experiments to show how plants absorb water from the soil. 
 
 Exs. 21, 22, 23. 
 
 5. Soil air. Ex. 25. 
 
 6. Soil temperature. Ex. 18, 26. 
 
 7. Soil drainage. Ex. 27. 
 
 8. Meaning and method of tilling the soil. 
 
 Literature. 
 
 King, The Soil, chapters 2, 5, and 6. 
 
 King, Physics of Agriculture. 
 
 Any good Physical Geography, chapter on weathering. 
 
 Farmers' Bulletins, Nos. 187, 245, 257, 266. 
 
 Bureau of Soils, Circular No, 13. ' 
 
 Year Book, Eeprint, No. 169 (1899). 
 
A UNIT IN AGRICULTURE 19 
 
 C. PLANT PROPAGATION. . 
 I. Propagation by Seeds 
 
 1. Process of germination, 
 
 (a) Absorption of moisture. 
 
 (b) Chemical changes of compounds in the seed from 
 
 insoluble to soluble substances. 
 
 (c) The production of heat. 
 3. Conditions of germination. 
 
 (a) Vitality of seed. 
 
 (b) Moisture. 
 ■(c) Heat. 
 
 (d) Air. 
 
 3. Vitalit}^ of seeds conditioned by : 
 
 (a) Maturity. 
 
 (b) Age. 
 
 (c) Size. 
 
 (d) Kind. 
 
 (e) Extremes of temperature. 
 
 (f ) Repeated germination. 
 
 Exs. 28, 29, 30. 
 
 4. Methods of production and preservation of most important 
 
 seeds. 
 
 5. Selecting seeds of different crops. 
 
 6. Seed testing. 
 
 (a) For germination (see Ex. 6). 
 
 (b) For impurities. Ex. 31. 
 
 7. Treatment of refractory seeds. 
 
 (a) By freezing (hickory, oak, walnut, hazel, pear, apple, 
 
 peach, plum, etc.). 
 
 (b) By scalding (black locust, honey locust, Kentucky coffee 
 
 bean). 
 
 (c) By stratifying (berries, blackberry, strawberry, rasp- 
 
 berry, rose). 
 
20 A UNIT IN AGEICULTURE 
 
 II. Propagation Other Than by Seeds. Ex. 32. 
 
 1. Spores — muslirooms, ferns. 
 
 2. Root stocks — iris, calamus, June grass. 
 
 3. Stolons or runners — strawberry. 
 
 4. Suckers or root stalks — blackberry. 
 
 5. Bulbs or corms — onion, crocus. 
 
 6. Tubers — Irish potato, artichoke. 
 
 7. Cuttings — grape, currant. 
 
 8. Grafts — apple, pear. 
 
 9. Layers — grape, ornamental vines. 
 
 Exs. 33, 34, 35, 36, 37. 
 Literature. 
 
 Plant Propagation, Pub. School Bulletin, No. 1, pub. by Univer 
 
 sity of Missouri. 
 Farmers' Bulletin, Xo. 157. 
 Bailey, Nursery Book. 
 
 D. PLANT GROWTH. 
 
 1. Conditions of plant growth. 
 
 (a) Plant food. 
 
 (b) Moisture. 
 
 (c) Heat. 
 
 (d) Air. 
 
 • (e) Light. 
 
 Exs. 38, 39, 40. 
 
 2. Principal elements of plant food : oxygen, hydrogen, nitrogen, 
 
 carbon, sulphur, phosphorous, potassium, calcium, 
 magnesium, iron. 
 
 3. Air-derived elements : oxygen, hydrogen, nitrogen, carbon. 
 
 Exs. 41, 42, 43, 44. (See any elementary cliemistry 
 for 0., N., II., CO..) 
 
 4. Soil-derived elements : nitrogen, phosphorus, potassium, mag- 
 
 nesium, iron, sulphur. Ex. 45. 
 
A UNIT IN AGRICULTURE 21 
 
 5. Eelative amount of soil-derived and airnlerived plant food. 
 
 6. Most important soil-derived elements : nitrogen, phosphorus 
 
 and potassium. Ex. 46. 
 
 E. ENEMIES OF PLANTS. 
 
 1. Insects. 
 
 (a) Biting insects, as potato beetle, cabbage worm, etc. 
 
 (b) Sucking insects, as chinch bug, plant lice, squash bug, 
 
 San Jose scale, etc. 
 
 2. Diseases caused by certain bacteria, as fire blight in pear and 
 
 apple tree. 
 
 3. Fungus diseases, as brown rot on peaches, potato scab, rust 
 
 on wheat and oats, etc. Ex. 47. 
 
 4. Spraying to control insects and diseases. 
 
 (a) Fungicides — Bordeaux mixture, lime-sulphur, etc. 
 
 (b) Poisons for biting insects — Paris green, arsenate of 
 
 lead, hellebore, etc. Ex. 48. 
 
 (c) Contact remedies for sucking insects — lime-sulphur, 
 
 tobacco, carbon bisulphide, etc. 
 
 5. Identification of injurious insects and preparation of collec- 
 
 tion. Exs. 49, 50, 51, 52, 53. 
 Note. — This collection should be as complete as possible, well 
 mounted and increased from year to year. It should include all the 
 more common insect enemies of corn, wheat, potatoes, orchard fruits, 
 and garden plants. 
 
 Literature. 
 
 Bailey, Nursery Book. 
 
 Farmers' Bulletins, Nos. 91, 99, 126, 132, 155, 227, 231, 264, 275, 
 
 281, 283, 316, 320, 329. 
 Cyclopedia of American Agriculture. 
 
 E. ANIMAL HUSBANDRY. 
 I. The Horse. 
 
 1. Origin and brief history. 
 
 2, The two principal types. 
 
23 A UNIT IN AGRICULTURE 
 
 (a) The speed type, (b) Tlio draft type. 
 
 3. Breeds of horses. 
 
 (a) Draft breeds — Percheroii, Clydesdale, English Shire. 
 
 (b) Eoadsters — American trotter, American saddle horse, 
 
 English thoroughbred, Hackney French coach. 
 
 4. Care of horses. 
 Literature. 
 
 Plumb, Types and Breeds of Farm Animals, pp. 1-166. 
 Bureau of Animal Industry Bulletins, Nos. 37, 113. 
 Farmers' Bulletin, No. 170. 
 
 II. Cattle. 
 
 1. Origin and brief history. 
 
 2. The two principal types. 
 
 (a) Dairy cattle. 
 
 (b) Beef cattle. Ex. 54. 
 
 3. Breeds of cattle. 
 
 (a) Beef breeds — Shorthorn, Hereford, Polled Hereford, 
 
 Aberdeen-Angus, Polled Durham, Galloway. 
 
 (b) Dairy breeds — Holstein-Friesian, Jersey, Guernsey, Ayr- 
 
 shire, Dutch Belted, Brown Swiss. 
 
 (c) Dual purpose breeds — Shorthorn (milking strains), 
 
 Devon, Red Polled. 
 
 4. Cattle products — meat, milk, leather, glue, etc. 
 Literature. 
 
 Plumb, Types and Breeds of Farm Animals, pp. 175-322. 
 Farmers' Bulletins, Nos. 29, 42, 55, G3, 71, 106, 166, 183, 233, 241, 
 350. 
 
 III. Sheep. 
 
 1. The two types. 
 
 (a) Wool producing type. 
 
 (b) Mutton producing type. 
 
 2. Principal breeds. 
 
 (a) Wool producing — American Merino, Delaine and Eam- 
 bouillet. 
 
A UNIT IN AGRICULTURE 23 
 
 (b) Mutton producing — Shropshire, Southdown, and Cots- 
 wold. 
 3. Care of sheep. 
 Literature. 
 
 Plumb, Types and Breeds of Farm Animals, pp. 333-454. 
 Farmers' Bulletins, Nos. 96, 119, 159. 
 
 IV. Swine. 
 
 1. A study of the following principal breeds: Poland-China, 
 
 Berkshire, Duroc-Jersey, Cliester White, Hampshire, 
 Tamworth, Large Yorkshire. 
 
 2. Care of swine. 
 
 3. Diseases of swine and how to control or prevent them. 
 
 (a) Hog cholera. 
 
 (b) Tuberculosis. 
 LAterature. 
 
 Farmers' Bulletins, Nos. 100, 133, 233, 272, 296, 315, 329. 
 Plumb, Types and Breeds of Farm Animals, pp. 467-554. 
 
 V. Poultry. Chickens. 
 
 1. The four principal types. 
 
 (a) Meat type. 
 
 (b) Egg type. 
 
 (c) General purpose type. 
 
 (d) Ornamental type. 
 3. Breeds. 
 
 (a) Meat type or Asiatic class — Brahma, Cochin, Langshan. 
 
 (b) Egg type or Mediterranean class— Legliorns, Minorca, 
 
 Black Spanish. Ex. 55. 
 
 (c) General purpose or American class — Plymouth Rock, 
 
 Wyandotte, Phode Island Red. 
 3. Care of poultry. 
 
 (a) Feeding chickens. 
 
 (b) The incubator. 
 
 (c) The chicken house. Ex. 56. 
 
24 A UNIT IN AGRICULTURE 
 
 4. Poultry and poultry products, their growing importance, value 
 and use. 
 Literature. 
 
 Farmers' Bulletins, Nos. 51, 128, 182, 236, 281, 287. 
 
 VI. Live Stock Judging. 
 
 1. Horse. 
 
 (a) Heavy horse. Ex. 57. 
 
 (b) Light horse. Ex. 58. 
 
 2. Cattle. 
 
 (a) Beef cattle. Ex. 59. 
 
 (b) Dairy cattle. Ex. 60. 
 
 3. Sheep. 
 
 (a) Mutton. Ex. 61. 
 
 4. Swine. Ex. 62. 
 
 VII. Feeding. 
 
 1. Composition of food plants: (a) water, (b) ash, (c) protein, 
 
 (d) fats and carbohydrates. 
 
 2. Percentage of each in different plants. 
 
 3. Function of each constituent. 
 
 4. Composition of animal tissue. (Compare with animal food 
 
 plants.) 
 
 5. Digestion and palatability of foods. 
 
 6. The balanced ration. 
 
 C. PROBLEMS OF FARM MANAGEMENT. 
 
 I. Choice of Farm Determined By: 
 
 (1) purpose, (2) capital, (3) character of soil, (4) climate, (5) 
 nearness to market, (6) improvements, (7) environ- 
 ment — roads, schools^, factories, etc. 
 
 II. The Farm Home or Dwelling: 
 
 (1) location, (2) character and material, (3) number and arrange- 
 ment of rooms, (4) drainage, (5) water supply, (6) 
 
A UNIT IN AGRICULTURE 25 
 
 lighting, (7) heating and ventilation, (8) furniture, 
 (9) environment — shade, lawn,* other buildings, etc. 
 Exs. 63, 64. 
 Literature. 
 
 Farmers' Bulletins, Nos. 126, 155, 270, 317, 342. 
 
 III. Other Farm Buildings: 
 
 (1) number, (3) purpose, (3) location, (4) material, (5) adapt- 
 ability, (6) sanitation. Ex. 65. 
 Literature. 
 
 Farmers' Bulletins, Nos. 32, 126, 136, 225, 227. 
 
 IV. Maintenance of Soil Fertility. 
 
 1. Fundamental importance of this problem. (Review work on 
 
 soils and plant growth.) 
 
 2. The problem involves : 
 
 (a) The topograjihy of the land. 
 
 (b) The physical properties of the" soil. 
 
 (c) The chemical constituents of the soil. 
 
 3. Means of maintaining soil fertility. 
 
 (a) Crop rotation. 
 
 (b) "Use of fertilizers. Ex. 66, 67. 
 Lito7-aturc. 
 
 Missouri Experiment Station, Circular No. 38 (1910). 
 
 [Best.] 
 Farmers' Bulletins, Nos. 44, 77, 192, 222, 225, 245, 257, 266, 278, 
 327, 342. 
 
 Vivian, First Principles of Soil Fertility. 
 
 V. Improvement of Farm Animals. 
 
 1. Determining what animals shall be grown on the farm. 
 
 2. Importance of selecting only the best breeds. 
 
 3. Economy in feeding — the balanced ration. 
 
 4. Study of comparative value of common foods at current prices 
 
26 A UNIT IN AGRICULTURE 
 
 Literature. 
 
 Plumb, Types and Breeds of Farm Animals. 
 
 Farmers' Bulletins, Nos. 22, 49, 71, 96, 100, 137, 170, 205, 
 364, 378. 
 
 VI. Farm Machinery. 
 
 A study of the best types of farm macliinery in use in the com- 
 munity. 
 
 Literature. 
 
 Farmers' Bulletins, Nos. 303, 321, 347. 
 
 VII. Additional Topics for Special Study. 
 
 (Select at will according to the dominant interests of the com- 
 munity. ) 
 
 1. The home garden. Ex. 68. 
 Literature. 
 
 Farmers' Bulletins, Nos. 94, 154, 218, 255. 
 
 2. Farm forestry. Ex. 69. 
 Literature. 
 
 Farmers' Bulletin, No. 173. 
 Year Book, 1903, pp. 279-88. 
 
 3. Agricultural nmnufacturing. Ex. 70. 
 
 4. Special study of the dairy. 
 
 (a) Butter making — the Babcock milk test, Ex. 71. 
 
 (b) Cheese making. 
 Literature. 
 
 Farmers' Bulletins, Nos. 29, 55, 166, 201, 227, 241. 
 
A UNIT IN AGRICULTUR3 27 
 
 PART II. 
 
 STUDENTS' LABOEATORY MANUAL. 
 
 FARM CROPS. 
 Ex. 1. A Grain of Corn. 
 
 Soak a few grains of corn in hot water for twenty minutes. With 
 a small sharp knife, remove the tij) cap. This tip cap is a small cap 
 covering the end of tliC kernel. Beginning at the end where the hull 
 has been broken by the removal of the tip cap, pull off the hull in 
 strips. The part immediately under the hull and covering almost or 
 quite all of the kernel is called the horny gluten. Carefully remove 
 it by shaving it off with a sharp knife. Now carefully remove the 
 germ. Notice carefully the size, position and parts of the germ. After 
 the tip cap, hull, horny gluten, and germ have been removed, there 
 remains only starch, of which there are two kinds — the horny starch 
 and the white starch. The horny starch lies next to the horny gluten 
 on the back and sides of the kernel. The white starch occupies the 
 crown end of the kernel above the germ, and it also nearly surrounds 
 the germ toward the tip of the kernel. Separate, as far as possible, 
 the horny starch and the white starch. How many and what distinct 
 parts have we found ? Make an enlarged drawing of grain of corn, 
 front view, showing and naming the parts. 
 
 Ex. 2. An Ear of Corn. 
 
 Material : three or four different varieties of corn grown in the 
 neighborhood. Table the varieties by name. Observe carefully and 
 note the following : ( 1 ) color of grain, color of cob, and whether sur- 
 face of ear is smooth, rough or very rough; (2) number of rows, num- 
 ber of grains in a row; (3) total number of grains on the ear; (4) 
 whether the rows are straight or twisted, and, if twisted, which way ; 
 (5) whether the grains are closely packed or loose, firmly attached to 
 the cob or loosely attached; (6) whether shape of ear is cylindrical, 
 conical, or irregular. Do you think the ear is well proportioned? 
 
28 A UNIT IN AGRICULTURE 
 
 Note the butt of the ear and describe as even, sliglitly rounded. \\el! 
 rounded, enlarged, etc. Describe and draw the tip of the ear. Notice 
 carefully the shape of the grains and their position on the cob. 
 Measure length of ear, circumference of ear. Find weight of corn and 
 weight of cob. Give percentage of grain. (The percentage should be 
 from 86 to 90.) 
 
 Ex. 3. The Corn Plant. 
 
 Go to any corn field near the school. 
 Observe closely and note : 
 
 1. Name of variety. 
 
 2. Size of field. 
 
 3. Height of plant (average of ten plants). 
 
 4. Number of leaves on plant (average of ten plants). 
 
 5. Number of leaves below ear (average of ten plants). 
 
 6. Average leaf surface (take the product of the length and 
 
 breadth of the average leaf times the number of leaves). 
 
 7. Husks : whether abundant, medium or scarce. 
 
 8. Husks : whether close, medium or loose. 
 
 9. Height of ear above ground (average of ten plants). 
 
 10. Position of ear on the stalk: whether pendant, horizontal or 
 
 pointed upward. 
 
 11. Shank: whether long or short, strong or weak. 
 
 Measure ten hills square; give number of ears in one hundred 
 hills. Count the missing hills in the plot. Determine the percentage 
 of stand. Give number of stalks having two ears and number having 
 no ear. Find distance apart of hills each way. Give number of hills 
 per acre. Measure off one acre which represents a good average of 
 the field; husk one-twentieth of this, and, after weighing same care- 
 fully, estimate the average yield of field. If hills of corn are 3 feet 6 
 inches each way, how many hills to the acre? 
 
 If, in a field of corn planted 3 feet 6 inches each way, there is 
 on the average li/o lbs. of corn to each hill, allowing 10 lbs. to the 
 bushel for shrinkage, what is the yield per acre ? 
 
A UNIT IN AGRICULTURE 29 
 
 If corn is planted 3 feet 6 inches each way, and when mature is 
 cut and put in shocks, each shock containing Corn from an area 14 
 hills square, how many shocks to the acre? How many, if shocks are 
 16 hills square? 
 
 The following tables will assist in making accurate estimate of the 
 amount of land in different fields or plots : 
 
 10 rods X 16 rods = 1 acre. 
 8 rods X 20 rods ^^ X acre. 
 5 rods X 32 rods = 1 acre. 
 
 4 rods X 40 rods = 1 acre. 
 
 5 yds. X 968 yds. = 1 acre. 
 10 yds. X 484 yds. = 1 acre. 
 20 yds. X 242 yds. = 1 acre. 
 40 yds. X 121 yds. = 1 acre. 
 80 yds. X 601/2 yds. = 1 acre. 
 
 220 ft. X 198 ft. = 1 acre. 
 440 fix 99 ft.= 1 acre. 
 110 ft. X 396 ft. = 1 acre. 
 
 60 ft. X 726 .ft.= 1 acre. 
 120 ft. X 363 ft. = 1 acre. 
 240 ft. X 181.5 ft. = 1 acre. 
 200 ft. X 108.9 ft. = i/o acre. 
 100 ft. X 145.2 ft. = iZ acre. 
 
 10 square chains = 1 acre. 
 
 160 square rods = 1 acre. 
 
 4,840 square yards = 1 acre. 
 
 43,560 square feet = 1 acre. 
 
 640 square acres = 1 square mile. 
 
 36 square miles (6 miles sq.)=l township. 
 
 Ex. 4. Corn Judging — Single Ear. 
 
 A good ear of corn may be described as follows : — The ear should 
 be from 9 to 10y2 inches long and from 7 to 7I/2 inches around, meas- 
 ured at a point 1-3 the distance from the butt to the tip. It should 
 
30 A UNIT IN AGRICULTURE 
 
 be practically the same diameter from end to end; that is, it should 
 not be distinctly tapering. The rows of kernels should be straight 
 and the kernels should be of such a shape that they will fit tightly 
 together with no furrows left between the rows. The butts should be 
 well rounded out with kernels evenly arranged around a cup shaped 
 cavity about one inch across. The tips should be well filled out to the 
 end with deep, even kernels. The kernels of the ear should all be 
 very nearly the same size and shape. They should be wedge shaped, 
 but not pointed ; they should have large, smooth hearts or germs, not 
 blistered or discolored. The length of the kernel should be about II/2 
 times as great as its width at the widest part, and it should be of the 
 same thickness from one end to the other. The kernels should show 
 no mixture with corn of the opposite color. The cob should be of 
 medium size, neither very large nor very small. 
 
 Secure a number of ears of corn and notice the faults of each. 
 Pick out the ones that are most nearly perfect. Take an ear and 
 write a description of it, telling in what points it is good and in what 
 points it is imperfect. 
 
 Lay five ears of corn on the table and try to pick out the one hav- 
 ing the least number of faults. Go over the various points of the 
 ear as given in Lesson 4, in the description of a good ear, and place 
 that ear which is most nearly perfect on the left. Put the next best 
 one second, the third best third, and so on. In what ways is No. 1 
 better than No. 2 ? Give the good and bad points of each ear. 
 Ex. 5. Corn Judging — Use of Score Card. 
 
 At fairs and other places where corn is shown for premiums, it is 
 customary to show ten ears together as a sample. Consequently, in 
 judging such samples, ten ears must be considered instead of a single 
 ear. To help in this judging, a card giving a scale of points arranged 
 to represent the different characters of the ears is used. This is called 
 a score card, and the one that is used in Missouri is as follows: 
 
 Scale of Points 
 
 Maturity and soundness 10 
 
 Uniformity of ears 10 
 
A UNIT IN AGRICULTURE 31 
 
 Length 10 
 
 Circumference ► . . . . 5 
 
 Purity of cobs 5 
 
 Purity of kernels. 5 
 
 Uniformity of kernels 10 
 
 Shape of kernels 10 
 
 Character of germ 10 
 
 Space between rows 5 
 
 Butts 5 
 
 Tips 5 
 
 Size of col) 10 
 
 Total 100 
 
 Following is an explanation of how to use the score card : 
 
 Maturity and soundness. (10.) 
 
 An ear that is not mature will not be perfectly tight. This is the 
 best determined by giving the ear a slight twist. The kernels 
 should all be sound and free from decay. For every ear not 
 perfectly mature and sound, deduct one point. 
 Uniformity of ears. (10.) 
 
 All ears in the sample should be as nearly alike in every way as 
 possible. This is very important. They should be the same 
 in size, in color and in character of kernel. For every ear 
 strikingly different from the average, deduct one point. 
 Shape of ears. (10.) 
 
 Ears should be practically the same diameter from one end to the 
 other. For each ear that is distinctly tapering, deduct one 
 point. 
 
 Length. (10.) 
 
 Ears should be between 9 and lOi/^ inches in length. For every 
 ear that is under 8^ inches or for every ear that is over 10^ 
 inches, deduct one point. 
 
33 A UNIT IN AGEICULTURE 
 
 Circumference. ( 5. ) 
 
 Ears should he from 7 to T^/^ inches aroimd, measured at a point 
 1-3 the distance from hutt to tip. For each ear less than 7 
 inches or over 7% inclies, deduct one-half point. 
 Purity of coh. (5.) 
 
 Yellow corn should have red cobs, and white corn, white cobs 
 (with the exception of St. Charles White). A single ear with 
 a cob of the wrong color bars an exhibit from competing for 
 prizes. 
 Purity of I'erneJ. (5.) 
 
 For every mixed kernel in the exhibit, deduct one-fourth point. 
 Ufiiformity of Irrnels. (5.) 
 
 All ears should have kernels of approximately the same size. For 
 every ear having kernels larger or smaller than the average, 
 deduct one-half point. 
 Shape of l-ernels. (5.) 
 
 Take out two kernels from the middle of each ear. Deduct one- 
 half point for each ear having poorly shaped kernels. 
 Character of germ. (10.) 
 
 Examine kernels of each ear as to character of germ and deduct 
 one point for each ear having poor germs. 
 Space hettveen voids. (5.) 
 
 For each ear having wide furrows between the rows of kernels, 
 deduct one-half point. 
 Butts. (5.) 
 
 For each poor butt, deduct one-half point. 
 Tips. (5.) 
 
 For each poor tip, deduct one-half point. 
 Size of Coh. (10.) 
 
 For each ear having a cob either too large or too small, deduct one 
 point. 
 
A UNIT IN AGRICULTURE 33 
 
 Ex. 6. Testing Seed Corn for Germination. 
 
 Make a box 4 inches deep, 14 inches long, and 12 inches wide» 
 Fill the box half full of moist earth, packing it down firmly so that 
 the surface is even and smooth. Ilule a piece of white cloth, the size 
 of the box, into squares 2 inches each ^ay. Number the squares 1, 2, 
 3, 4. . . .30. Place the cloth on the soil in the box and tack it to the 
 corners and edges of the box to keep it in place. Number thirty ears 
 of corn. Take ten grains from each ear — from middle, tip, and butt. 
 Place these grains on the square corresponding to the number of the 
 ear. When all the samples are in place, cover with a piece of cheese 
 cloth the size of the box. Now cover with a heavier cloth larger than 
 the box and over this place about 2 inches of moist earth. Put in a 
 warm place and let it remain ten days. 
 
 Carefully remove the cover. Now make a careful study of the 
 ten kernels in each square and carefully note those which either failed 
 to grow or are weak in vitality. In how many and in which squares 
 did all the kernels germinate? In how many and in which squares 
 did no kernels germinate ? If you had planted all the seed from these 
 thirty cars, what per cent of a stand of corn would you have? 
 
 Ex. 7. Study of a Grain of Wheat. 
 
 Soak a few' grains of wheat in warm w^ater. Using a lens and a 
 small sliarp knife, try to remove the coverings of the grain. There 
 are four of these, three epidermic layers and one testa or true seed 
 coat. These coats constitute the bran and make up about 11 per cent 
 of the grain. 
 
 Imm.ediately under the testa, find the endosperm. This makes 
 up the large part of the seed and is the flour of commerce. Notice 
 the position, form and size of the embryo. 
 
 Ask your teacher to cut a thin slice across the grain, place in a 
 drop of w^ater on a glass slide, cover with a cover glass and place 
 under the Ioav powder of the compound microscope. 
 
 Observe carefully and draw, naming the parts. 
 
34 A UNIT IN AGRICULTURE 
 
 Ex. 8. Study of a Head of Wheat. 
 
 Observe that tlie grains are arranged in groups on either side of 
 the stem. A single group is called a mesh. How many meshes on 
 this head? How are they arranged? How many grains in a mesh? 
 Is the number uniform? Are the meshes all filled? Find a mesh 
 with three grains, with four, with five. Carefully remove the cover- 
 ing from a single grain. How many coverings are there? How is 
 the grain attached? 
 
 Ex, 9. The Wheat Plant. 
 
 Pull up an entire wheat plant. How many stalks in the hunch? 
 Does the number vary with different bunches? How many joints in 
 each stalk ? How many leaves on each stalk ? Observe the form and 
 arrangement of the roots. From the data in Ex. 8 and 9, estimate 
 the number of grains tliat is produced by one grain. 
 
 Ex. 10. Study of a Head of Oats. 
 
 How does the oat liead differ from the head of wheat? In what 
 are they alike? Make drawing. Carefully remove a single grain. 
 Notice the hard outer cover. Eemove the hard cover and make an 
 enlarged drawing of the kernel, naming parts. 
 
 Ex. 11. Study of the Legumes. * 
 
 Material: red clover, alsike, white clover, alfalfa, soy beans, cow 
 peas. The specimens should be fresh, but dried ones may be used. 
 Study each plant separately. 
 
 1. Observe the number, arrangement, size and shape of leaves, 
 and make drawing of a leaf. 
 
 2. Observe the number and height of the stems, and the diameter 
 of stem an inch above the ground. Are the stems erect, spreading, 
 decumbent, or training? 
 
 3. Are there many, few or no branches? 
 
 4. If in bloom, notice the place, form, color, and size of blossoms. 
 Make drawing of a blossom. 
 
 5. If in seed, note kind, number, and shape of seed pods. Note 
 
A UNIT IN AGRICULTURE 35 
 
 number of seed in pod and size and form of single seed. Draw seed 
 pod, using magnifier. Make enlarged drawing of a single seed. 
 
 6. Observe carefully the form, size, number and length of the 
 roots. Look closely for small nodules on the roots. These nodules 
 are very important and we shall learn more about them later. Make 
 drawing of root. 
 
 Ex. 12. Study of the Irish Potato. ^ 
 
 Material : potatoes, preferably of several varieties, with some 
 showing scab, dry rot, etc. 
 Note the following: 
 
 1. Variety: whether early, medium, or late. 
 
 2. Shape : whether cylindrical, oval, flat oval, compound, regu- 
 lar or irregular. 
 
 3. Size: whether large, medium, small, uniform or not uniform. 
 
 4. Shape of e3^es: whether deep, medium or shallow; oval or nar- 
 row and elongated; large or small (small as compared with size of 
 tuber) ; numerous or few ; imiformly distributed or mainly at bud 
 end; ridge prominent or ridge not prominent. 
 
 5. Color: whether yellowish white, pink or russet. 
 
 6. Texture of skin: whether corky, netted or lenticoled; glossy 
 smooth or dull smooth. 
 
 7. Color of skin : whether yellowish white, russet, red, pink or 
 blue ; uniform or not uniform. 
 
 8. General characteristics: whether clean or dirty; cracked or 
 not cracked; if diseased, whether scab, dry rot or blight. 
 
 9. Color of flesh: whether white, yellowish, pink or blue. 
 Make a drawing of the tuber, showing eyes, and indicate which 
 
 is the stem end of the tuber. 
 
 SOILS. 
 Ex. 13. Study of Soil. 
 
 Material : a handful of soil from the school yard. What is the 
 color of this soil ? Are all the particles the same color ? Wet a little 
 
36 -1 UNIT IN AGRICULTURE 
 
 and observe wlietlier there is a change in color. Feel the soil. Is it 
 smooth, sticky, or gritty? Do you find small pieces of rock in it? 
 Examine closely with the hand glass and describe fully all that you 
 see. Try to find out what the hard particles are. If they will scratch 
 glass, we may l^e quite sure that they are some form of quartz. Put 
 some of the soil in a large test tube, cover with water, shake thorough- 
 ly and set aside for a few minutes. Which part of the soil goes to the 
 bottom of the tube ? Which next ? Make a drawing of the soil in the 
 tube. By digging a few holes in the home garden or field, try to find 
 out whether the arrangement of the soil particles is the same as 
 in the tube. Examine the soil along a stream to see whether you 
 can find illustrations of sorting soil by water. Pour off the water 
 from the soil in the tube, and evaporate to dryness. Is there any- 
 thing left? What do you suppose it is? What does this prove? 
 Examine the inside of a tea kettle for a scale of covering. How did 
 it get there? Its presence there proves what? 
 
 Ex. 14. Study of Soil (continued). 
 
 Material : a handful of soil from the school yard. Carefully weigh 
 a small handful of the soil. Now dry thoroughly, being careful not 
 to burn any part of it, and weigh it again. Account for any diff^erence 
 in weight. The loss in weight is what per cent of the weight before 
 drying? Now place the dry soil in a sand crucible or iron pan and 
 heat hot. Cool, weigh, and examine carefully. Account for any 
 loss in weight. Do you believe that you could burn all of the soil ? 
 Do you notice any difference in color after burning? Do you know 
 what it was that burned? 
 
 Ex. 15. Study of Soil (continued). 
 
 Eepeat Exercise 14, using tlie richest black soil you can get from 
 the home garden. Compare the results wdth those obtained in Exer- 
 cise 14. Compare results with those obtained by one of your class- 
 mates who used the same soil. Is there substantial agreement? Try 
 to account for any difference. 
 
A UNIT IN AGRICULTURE SI 
 
 Ex. 16. Field Lesson. 
 
 Material : a suitable field as near the schoollinuse as possible. Do 
 you find any ledges of outcropping rock? If you do, break off a small 
 piece and compare the freshly broken surface with the outside or 
 weathered surface. Note carefully any difference. Do you find any 
 boulders or pebbles ? Break one open and compare the freshly broken 
 surface with the outside surface as before. Are the boulders and 
 pebbles of the same material as the rock in the ledge ? Select a piece 
 of each different rock you find to take to school for future study. 
 
 Look along the bed of a stream for pebbles. (If there is no stream 
 at liand, this work may bo done at another time and place by indi- 
 vidual pupils.) ITow do the pebljles in the bed of the stream com- 
 pare in size and shape with those back from the stream? How do 
 you account for the difference? 
 
 Find some good rich soil and dig a hole about 18x12 inches and 
 18 inches to 2 feet deep. Observe closely the material and the color 
 at different depths. Notice especially the amount of black soil. 
 
 Make a drawing of one side of the wall. Repeat this exercise by 
 digging the hole on a steep slope. Account for any differences in 
 the soil at the two places. What is subsoil? Which do you think 
 will grow the better crop, the side hill or the lowland? Why? From 
 your observation of farm crops, can you state whether this is gen- 
 erally true? 
 
 Ex. 17. Soil Texture. 
 
 Material : sand, clay, and loam — two small fruit jars full of each, 
 from the farms in the neighborhood of the school, if possible. Label 
 each jar and set one jar of each aside for use in Exercise 18. Com- 
 pare the three kinds of soil as to color, texture, and amount of humus. 
 Put some of each kind in a large test tube, cover with water, shake 
 thoroughly and set aside. Which settles most rapidly ? Most slowly ? 
 Which contains particles that float ? If these soils were poured into a 
 running stream which would be carried farthest ? Put a little hydro- 
 chloric acid on each and note the result. Mix the three samples in a 
 
38 A UNIT IN AGRICULTURE 
 
 large test tube or long 1)ottle, cover with water, shake thoroughly and 
 set aside. Which soil is at the bottom? Which at the top? Make 
 drawing of tube. Compare with results of Exercise 13. Dry some 
 of each kind of soil as in Exercise 14. Weigh very carefully about 
 the same amount of each, and put in separate beakers. (Each soil 
 should be pulverized after drying.) Pour water into each beaker 
 from a graduate containing a measured quantity, until the water 
 rises to the surface of the soil. Find how much water it takes in each 
 case, recording results as follows : 
 
 Sand Clay Loam 
 
 Volume of soil 
 
 Volume of water added 
 
 Per cent of air space 
 
 The amount of water is the approximate measure of the air space. 
 Which soil contains the most air? Which least? 
 
 Ex. 18. Temperature of Soils. 
 
 Material: the three jars of soil set aside in Exercise 17. Into 
 each jar pour sufficient water to wet thoroughly. In each jar put a 
 thermometer so placed that the bulb is just below the surface of the 
 soil. Weigh each jar and set the jars close together in the window 
 and where the sunlight can strike fairly. Take the temperature and 
 weight of each jar at the same hour of the day on alternate days 
 for one week. Record the results as follows : 
 
 Sand Clay Loam 
 
 Weight first observation 
 
 Weight second observation 
 
 Weight third observation 
 
 Temperature first observation 
 
 Temperature second observation 
 
 Temperature third observation 
 
 Which soil shows the highest temperature? Which the lowest? 
 From which does the water evaporate most rapidly? From which 
 does it evaporate most slowly ? What is meant by a warm soil ? By a 
 
A UNIT IN AGEICULTUBE 39 
 
 cold soil? By a dry soil? By a wet soil? Review Exercise 14 and 
 state whether there is any relation between soil ^temperature and air 
 space. What are some of the ways in which a cold soil may be made 
 warmer ? 
 
 Ex. 19. Water Capacity of Soils. 
 
 Material: different kinds of soils, five long-necked bottles with 
 the bottoms broken off, rack for holding bottles, five tumblers. Tie a 
 small piece of cheese cloth over the mouth of each bottle, place in the 
 frame upside down with a tumbler under each. Fill the bottles to 
 the same height, about two-thirds full, with different kinds of soil. 
 Firm the soils by shaking the bottle. With watch in hand and glass 
 of water held as ne?r as possible to the soil, pour water into one of 
 the bottles Just fast enough to keep the surface of the soil covered. 
 Note how long l^efore the water begins dropping into the tumbler 
 below. Do the same with each of the other bottles. Which takes in 
 water most rapidly ? Which most slowly ? Which is the most porous ? 
 Which is the least porous ? Compare results with results in Exercise 
 38. What happens to the less porous soils when a heavy shower of 
 rain comes? Eepeat the experiment Avith any two of the soils, pack- 
 ing the soil in the bottle tightly before pouring in the water. What 
 is the (ffect of packing? Does this experiment have any bearing on 
 farm practice ? What bearing has it ? Which of the soils could absorb 
 the heaviest shower ? Which soil continued to drip longest ? Which 
 would drain most readily? 
 Ex. 20. Capillarity of Soils. 
 
 Material : same as in Exercise 19. Fill each bottle with a differ- 
 ent kind of dry soil. Fill each tumbler about two-thirds full of water 
 and set the bottles, neck down, in the tumblers so that the cheese 
 cloth is just above the bottom of the tumbler. Observe the rise of 
 water in the different soils. Note how high it rises in each bottle and 
 the time it takes. In which soil does the water rise most rapidly? 
 In which to the greatest height? Which soil draws up the greatest 
 amount of water ? This can be determined by measuring or weighing 
 
40 A UNIT IN AGRICULTURE 
 
 the water in the tumbler before and after the experiment. This power 
 of soils to raise water from below is called ca^^illarity, and the water 
 is called capillary water. Because of this capillarity, plants are able 
 to get moisture from the subsoil in time of drought. What effect on 
 water capacity does the addition of organic matter have? Give one 
 method by which the farmer may increase the amount of organic mat- 
 ter in the soil. 
 
 Water tliat percolates through the soil until it reaches the rock 
 or hard pan is called soil water. How deep are the wells in your 
 neighborhood ? Are they deeper on the upland than on the lowland ? 
 Is the impervious layer rock or clay? Are there any springs? If so, 
 observe the character of the strata over which the water flows. 
 
 Ex. 21. Absorption of Moisture from the Soil. 
 
 Material : a wide mouthed bottle, an egg, a glass tube 3 or 4 
 inches long and about I/4 i^^cli in diameter, a candle and a piece of 
 wire about 5 inches long. 
 
 Eemove part of the shell, about the size of a dime, from the large 
 end of the egg, without breaking the skin beneath. In tlie same man- 
 ner remove a piece of shell, no larger than the diameter of the glass 
 tube, from the small end of the egg. Cut from the lower end of the 
 candle a piece aljout i^ inch long and l)orc a hole in this the size of 
 the glass tube. Soften one end of the piece of candle and stick it on 
 the small end of the egg so that the hole in the candle covers the hole 
 in the egg, making a water-tight joint. Place the glass tube in the 
 hole in the candle, cement closely as before. Now run the wire down 
 the tube and break the skin of the egg. Now fill the bottle with 
 water until it overflows and set the egg over the mouth of the bottle, 
 small end up. In nn hour or so, the white of the egg will be seen ris- 
 ing in the glass tube. Tlie water enters the egg through the skin and 
 forces the white to rise in the tube. The skin itself has no openings 
 that can be seen even with a microscope. This process by which a 
 liquid passes through a membrane is called osmosis. It is by this 
 
A UNIT IN AGRICULTUEE 41 
 
 process that water containing plant food enters the fine root hairs of 
 plants. 
 
 Ex. 22. Absorption of Moisture from Soil (continued). 
 
 Material : thistle tube, piece of waste bladder, Jar, water and 
 molasses. Partly fill the thistle tube with molasses. Tie the bladder 
 over the large end of the tube and insert into the jar of water. Put 
 the tube into the jar so that the molasses in the stem is just on the 
 level with the water in the jar. Fasten the tube in this position and 
 observe what happens. Explain. 
 
 Ex. 23. Rise of Water in Plants. 
 
 Pill a tumbler one-third full of hike warm water colored with a 
 few drops of red ink or some brilliant coloring matter. Place in the 
 colored water the freshly cut stem of a white carnation, lily or almost 
 any soft green plant. Observe closely and explain what happens. 
 
 Ex. 24. Rise of Water in Plants (continued). 
 
 Pull up any good sized green plant, as, for instance, a bunch of 
 clover. Weigh it carefully and record the weight. Now dry the plant 
 thoroughly, being careful not to burn it, and weigh again. What are 
 the percentages of dry material and water as shown by the weights? 
 Estimate the number of pounds of water in one ton of freshly cut 
 clover hay. 
 
 Note. — It has been found that corn roots take up over 300 lbs. 
 of water for each pound of dry matter produced. Oats and clover 
 take up 500 lbs. What two important facts are shown by this experi- 
 ment ? 
 
 Ex. 25. Effects of Excluding Air from the Soil. 
 
 Into a fruit jar or water-tight can containing a healthy growing 
 plant, pour water until the surface of the soil is covered to the depth 
 of one inch. Keep the soil covered witli water, observe the plant 
 closely for several days and note results. Have you noticed the effects 
 of standing water on young corn ? If not, do so. Would you say the 
 plant has been smothered or has it been drowned? Why? Can you 
 susfGfcst a method of soil ventilation? 
 
42 A UNIT IN AGRICULTURE 
 
 Ex. 26. Soil Temperatufe. 
 
 Eeview Exercise 19. Which of the soils was warmest? What 
 coldest? In the same jar of soil insert two thermometers, one to the 
 depth of 2 inches and one 6 inches. Do you notice any difference in 
 the temperature shown? Try this experiment out of doors and note 
 the temperature of the. air as shown by the third thermometer sus- 
 pended a foot above the ground. Make three observations the same 
 day, one at 8 :00 a. m., one at 2 :00 p. m. and one at 6 :00 p. m. Is 
 the surface of the soil warmer or colder than the air? Is this true 
 of all times of the day? If not, when? Is the average temperature 
 of the surface soil higher or lower than the average temperature of 
 the air? Which is more nearly uniform, the temperature of the air, 
 the surface soil or the soil at a depth of 6 inches? Do you know 
 whether each of your conclusions above will hold for different seasons 
 of the year? Should seeds be planted deeper or shallower in early 
 spring or late spring? Why? 
 Ex. 27. Soil Drainage. 
 
 Take two flower pots the same size and label them 1 and 2 re- 
 spectively. In No. 1 pour melted paraffin or wax to plug up the hole 
 so that no air can get through. In the Ijottom of No. 2 put about one 
 inch of fine pebbles or coarse sand. Nearly fill each pot with a 
 mixture of good soil and sand, three parts soil and one part sand. 
 Place in each pot a healthy growing plant of the same kind and size. 
 Sprinkle each with water till the soil is saturated and place the pots 
 in a sunny window. In each pot place a thermometer with a bulb at 
 a depth of two inches. Every two days note the temperature of the 
 soil and the condition of the plants in each pot. If each of these con- 
 ditions of soil and moisture were found in a field, Avhich would be 
 more apt to be flooded in time of rain ? In which could the air pene- 
 trate more readily? In w'hich would the temperature be higher? 
 Every two or three days apply equal quantities of water to each pot. 
 At the end of a month remove the plant, soil and all. In which pot 
 have the roots gone deeper? In which would they go deeper, the 
 drained or undrained soil? 
 
A UNIT IN AGRICULTURE 43 
 
 PLANT PROPAGATION. 
 
 Ex. 28. Absorption of Water by Seeds. 
 
 Soak a few beans in hike warm water. Notice closely the appear- 
 ance of the bean at tbe end of ten minutes and at tbe end of forty 
 minutes. What changes in form of surface and size of bean? With 
 a hand lens, examine the bean closely to find the place where the water 
 gets in. Try the same experiment, using three or more of the fol- 
 lowing seeds : squash, apple, gourd, pea, corn, pumpkin. 
 
 Ex. 29. Effects of Temperature Upon Seed Germination. 
 
 Prepare two pieces of canton flannel a little larger than a dinner 
 plate. Wet one piece and place it on tbe bottom of the plate. On this 
 place a few seeds — squash, corn, or butter beans. Moisten the second 
 piece of cloth, lay it over the seeds and cover with a pane of windov/ 
 glass. Prepare a second germinating apparatus in precisely the same 
 way. Place one of the plates in a warm place, 80 to 120 degrees if 
 possible ; place the other in a cold place at or near the freezing point 
 if possible. (The refrigerator may be used in summer.) At inter 
 vals of two days examine each and note results. 
 
 Ex. 30. Effects of Air Upon Seed Germination in Water. 
 
 Fill two small wide mouthed bottles with water. Shake one thor- 
 oughly and put a few seeds of different kinds in it. Remove the water 
 from the other bottle and boil it. Pour it back into the bottle and 
 put in it the same number and kind of seeds. Cover the surface of 
 the water in the last bottle with oil, set both in the window and note 
 results. In which bottle do the seeds germinate best? Why? Exer- 
 cises 6, 28, 29 and 30 indicate quite clearly the conditions of seed 
 germination. What are these conditions? Give an illustration from 
 your own experience on the home farm or garden to show that all 
 these conditions must alvMys be present when seeds germinate well. 
 
 Ex. 31. Purity of Seeds. 
 
 Material : clover seed from several sources, alfalfa, timothy, wheat 
 and millet. The price of each sample should be ascertained. Weigh 
 out three grams of seed and spread on a sheet of paper. Using a 
 
44 A UNIT IN AGRICULTURE 
 
 lens, separate the seeds into three piles: (1) chaff, dirt, broken seed, 
 etc.; (2) weed seed; (3) clover seed. Weigh each lot, record the 
 results and save the clean seed. Considering price, quality and weeds, 
 which sample should he purchased. 
 
 Ex. 32. Propagating Bed. 
 
 Prepare a box five or six inches deep, three feet wide and any con- 
 venient length (to he determined by the size of the window). Place 
 the box on a firm support and fill witli clean sand thoroughly wet. If 
 the class is large and the windows small, two or more such beds will 
 be needed. 
 
 Ex. 33. Cuttings. 
 
 Make cuttings from any or all of the following plants : geranium, 
 coleus, wandering Jew, rose, heliotrope, chrysanthemum, begonia, 
 California privet. Make a small hole with a stick or pencil, insert 
 the cutting and then pack the sand firmly with the fingers. If the 
 bed is properly made and placed, most of the cuttings should grow. 
 When the cuttings are well rooted, they may be transplanted in pots 
 or in the garden. 
 
 Ex. 34. Grafting. (Demonstration by Teacher.) 
 
 The teacher will prepare the roots, scions, knife and wax, and will 
 do the work before the class, explaining each step. Each student make 
 drawings of each kind of graft. 
 
 Ex. 35. Grafting.* 
 
 Each student provide material and make not less than six grafts. 
 
 Ex. 36. Budding. (Demonstration.) 
 
 The teacher will do the work, making all necessary explanations. 
 
 Ex. 37. Budding.* 
 
 Each student hud a definite number of plants in the school garden 
 or home orchard. 
 
 * If possible, students should do considerable grafting and budding at 
 home, or elsewhere, while the method is clear in their minds. 
 
A UNIT IN AGPdCULTURE i5 
 
 Ex. 38. Effects of Air Upon Seed Germination in Soil. 
 
 Into each of two fruit jars containing rich sandy loam, put a few 
 
 seeds of wheat, corn and beans. Moisten the soil in both Jars, screw 
 the top on one tight, being sure to keep the rubber band in place. 
 Leave the other open. Set both in a warm lighted place and note re- 
 sults at the end of one week, two weeks, three weeks. What does this 
 experiment teach? 
 
 Ex. 39. Relation of Light to Growth. 
 
 Prepare two fruit jars as in Exercise 38. Put one jar in a closet 
 or dark basement to exclude the light, and note results. Substitute 
 for the fruit jars and seeds flower pots containing growing plants. 
 Are plants attracted by the light? Plan an experiment to prove. Why 
 do trees grow taller when planted near together than when planted 
 far apart? 
 
 Ex. 40. Relation of Temperature to Growth. 
 
 Note. — The work will vary with the facilities for maintaining 
 fixed temperatures. Try to germinate seeds and grow plants at dif- 
 ferent temperatures. Work out fairly accurate answers to such ques- 
 tions as the following : What is the lowest temperature at which corn 
 will germinate ? At what temperature does it germinate most quick- 
 ly? etc. 
 
 Ex. 41. Preparation and Properties of Oxygen.* 
 
 Ex. 42. Preparation and Properties of Hydrogen.* 
 
 Ex. 43. Preparation and Properties of Nitrogen.* 
 
 Ex. 44. Preparation and Properties of CO2.* 
 
 Ex. 45. Plant Food. 
 
 * To be performeil by teacher before the class. Pupils should observe close- 
 ly and record in full. 
 
46 A UNIT IN AGRICULTURE 
 
 Fill seven four-inch flower pots with clean sand. Number the pots 
 and place plant food in each as follows: 
 
 No. 1. Nothing. 
 
 No. 2. Ten grams lime. 
 
 No. 3. Ten grams lime and one gram potassium chloride. 
 
 No. 4. Ten grams lime and one gram acid phosphate. 
 
 No. 5. Ten grams lime and one gram sodium nitrate. 
 
 No. 6. Ten grams lime and one gram each of the compounds 
 used in Nos. 3, 4, 5. 
 
 No. 7. About one-half pint of manure. 
 
 Mix the materials in each pot, then plant five kernels of wheat in 
 each. Eecord the growth of the plants from day to day, noting dif- 
 ferences in color and amount of growth. Let the plants grow until 
 the differences are clearly apparent. 
 Ex. 46. Air-Derived and Soil-Derived Elements. 
 
 Select a dry plant or a piece of dry wood. Weigh it carefully. 
 Now burn it and weigh the ashes. What per cent of the plant burned? 
 This method gives a fair approximation of the amount of materials 
 derived from the air and amount of materials derived from the soil. 
 Review the following questions: 
 
 Will any seed germinate in a perfectly dry soil? Will any plant 
 grow without some moisture ? Why is there so little vegetation in the 
 desert? What is a desert? What is meant by a drouth? What 
 would be the effects on this country of a total cessation of rainfall? 
 
 Ex. 47. Bacteria and Molds. 
 
 Material : tliree test tubes, cotton, boiled potato, fruit or apple 
 sauce, three apples, one partly decayed. 
 
 Fill each tube about one-third full of apple sauce. Plug each 
 with cotton. Set one aside. Put the other two into a pail of water 
 and ]»oil for half an hour. After boiling, set one tube aside with the 
 cotton undisturbed. Take the cotton from the third tube, leave it 
 out half an hour or more, and then put it in again. Leave these for 
 a few days, note what happens and account for different results. Is 
 
A UNIT m AGRICULTURE 47 
 
 it desirable to leave canned fruit open a few minutes before covering 
 after cooking? "Why? 
 
 Prick one of the sound apples in several places with a pin. Put 
 the pin into the rotten apple and then into the other sound apple. 
 Repeat this in several places. Set the two sound apples aside for 
 about a week. Note what happens and account for the different 
 results. 
 
 What is pasteurization, and how may it be performed at home? 
 Why discard the first few streams of "foremilk ?" Why not feed just 
 before milking? Explain sour bread and formation of vinegar from 
 cider. What principle is employed in preserving silage? 
 
 Ex. 48. Preparation of Bordeaux Mixture. 
 
 Material : copper sulpliate, lime, potassium ferrocyanid, balances, 
 two Mason fruit jars (quart size). 
 
 Bordeaux mixture is prepared by using 2 to 6 pounds of copper 
 sulphate to 50 gallons of water and adding enough lime to neutralize 
 it. Four pounds to 50 gallons of water is a good formula for use on 
 many plants. 
 
 (a) Put five cents' worth of potassium ferrocyanid into a 4-ounce 
 bottle of water and label it "poison." (b) Dissolve 3 ounces of cop- 
 per sulphate in a pint of water, (c) Slake about 4 ounces of lime. 
 Put 3 fluid ounces of (b) into each of the two jars. Fill the second 
 jar nearly full of water. Add some of (c) to each jar and test with 
 (a). If there is enough lime to neutralize the copper sulphate, (a) 
 will retain its yellow color wjien a drop of it is added. If there is 
 not enough lime, it will assume a decided brown red color. Add (c) 
 until the test is satisfied. Then add as much more. Now fill each 
 jar with water. In which case does the mixture settle more quickly 
 and what is its color? These proportions give a mixture at the rate 
 of 4 pounds of copper sulphate to 50 gallons of water. It is usually 
 best to use double the lime called for by the test, because there is then 
 less danger of injuring the plants sprayed. Note that the mixture 
 containing the copper sulphate solution diluted before adding lime 
 
48 .i UNIT IN AGUICULTUBE 
 
 did not settle as quickly as the other. The copper sulphate should 
 always be diluted with nearly all the water before the lime is added. 
 Some bulletins state that both should l)e diluted and tlien ^^\\i to- 
 gether, but this way is quite as good and is easier. 
 
 Ex. 49. Insect Net. 
 
 Material: a handle about three feet long (an old broom stick 
 will do), a piece of No, 3 galvanized wire three feet six inches long, 
 and three-fourths of a yard of cheese cloth. 
 
 Bend the wire into a ring about a foot in diameter and bend back 
 about three inches of each end to insert into a hole made in the end 
 of the handle. Fasten securely. Make the cheese cloth into a bag 
 witli rounded bottom and just wido enough to fit the wire loop; fasten 
 securely. 
 
 Ex. 50. Killing Bottle. 
 
 Take any small, wide-mouthed l)ottle — a quinine bottle or pickle 
 bottle will do. Secure a cork that will fit the bottle closely, and that 
 is long enough to handle easily. Get two cents' worth of cyanide of 
 potassium, and one cent's worth of plaster of Paris. Put the cyanide 
 in the bottle, cover Avith Avater and add the plaster of Paris until 
 all the water is soaked U]^. Leave the bottle open in a shady place 
 for an hour, when the plaster should be hard. Cork the bottle and 
 label it poison. Now it is ready for use. 
 
 Caution. — Do not breathe the fumes of the bottle. 
 
 Ex. 51. Insect Box. 
 
 Secure an empty cigar box. Cover tl>e bottom Avith some soft ma- 
 terial as cork, cork linoleum or pith of dried corn stalks. Fasten 
 this material to the bottom of the box Avith glue and cover Avith 
 Avhite paper. 
 
 If your collection is to be a permanent one, make a glass coA^er 
 for the box and fit it air tight. 
 
 Ex. 52. Spreading Board. 
 
 The spreading board may be any length. Material: two strips of 
 soft wood, li/o inches Avide and % inch thick; one piece 314 inches 
 
A UNIT IN AGRICULTURE 49 
 
 wide, I/O inch thick; two cleats S^/o inches wide by % inch by 1/2 
 inch; one strip of cork linolemn a little less than 1 inch wide and 
 as long as the longest strips. 
 
 Place the two narrow cleats 14 inch apart and fasten on the 
 under side to the longer cleats. On the same side as the cleats, tack 
 the cork or linoleum over the open space. Now tack the whole to the 
 bottom board, which should fit exactly. 
 
 Ex. 53. Killing and Mounting Insects. 
 
 Immediately after having caught the insect, put it in the killing 
 bottle and cork tightly. 
 
 For mounting all insects except the butterfly and moth use the 
 insect box. Stick a steel pin (a sewing needle is better) through the 
 insect so that the insect is about I/2 an inch from the point. Now 
 stick the needle about 14 i^ifli ii^to the cork at the bottom of the box. 
 
 Write the name of the insect on a piece of white paper and fasten 
 near the pin. 
 
 To use the spreading board, do as follows : 
 
 Kill the moth or butterfly as before, and mount within half an 
 hour. Insert the pin, with the insect on it, into the cork just far 
 enough so the body of the insect will be in the space between the 
 boards up to the wings. Place the wings out flat on the board and 
 fasten them with narrow strips of paper held by pins. Arrange the 
 wings so that the rear margins of the front wings will just cover the 
 front margins of the rear wings and shall be at right angles to the 
 body. Now pin larger pieces of paper so as to hold all firmly until 
 dry. 
 
 Ex. 54. Study of Cuts of Beef. 
 
 Study Farmers' Bulletin No. 71. Copy drawing of ox showing 
 different cuts of beef. 
 
 Ex. 55. Study of the Egg. 
 
 Each student should be provided with two hen's eggs. With the 
 ends of the egg in the hollow of the hands, press firmly. Account 
 
50 A UNIT IN AGRICULTURE 
 
 for the great strength of tlie slicll. Break a fresh uncooked egg in a 
 saucer or plate by separating the shell in the middle. Observe: 
 
 1. The germinal disc (a light colored spot usually found on the 
 
 upper surface of the yolk). What is the function of this 
 part? 
 
 2. The transparent albumen or white of the egg. 
 
 Examine the shell and find the air space. Where is the air space ? 
 Of what use is it? Observe the two membranes best seen at the air 
 space where they separate. 
 
 Examine a piece of the shell with the microscope, and observe the 
 pores. What would be the effect on the chick while in the egg if the 
 shell were covered with varnish? 
 
 Note the color of the egg. Ascertain whether the eggs from any 
 particular hen are all of the same color. 
 
 Boil the egg and carefully cut lengthwise through the middle. Ob- 
 serve all closely and make drawing of either half, showing and naming 
 all parts. Make an exact drawing, omitting nothing. Use colored 
 crayon, if convenient. 
 
 Ex. 56. Poultry House. 
 
 Bead Farmers' Bulletins, Nos. 225, 227. Make drawings accord- 
 ing to scale of (a) floor plans: (b) cross section of poultry house for 
 a given number of chickens. 
 
A UNIT IN AGRICULTURE 
 
 51 
 
 Ex. 57. Judging of Draft Horse by Score Card. 
 
 In accordance with the score card given below, observe a draft horse and 
 record your observations. (The score cards in this manual are those used by 
 the students in the College of Agriculture, University 'of Missouri.) 
 
 SCALE OF POINTS 
 
 Age, estimated yrs., actual... 
 
 GENERAL APl'EAKANX'E— 24 Points 
 
 Height, estimated hands; actual. 
 
 Weight, over 1600 lbs. in good condition; estimated 
 lbs. , score according to age 
 
 Form, broad, massive, symmetrical, blocky 
 
 Qualitj', refined; bone clean, large strong; tendons clean, 
 defined, prominent; skin and hair fine; "feather," il 
 present, silky 
 
 Action, energetic, straight, true, elastic; walk, stridt 
 long, quick, regular; trot, free balanced, rapid 
 
 Temperament, energetic ; disposition good 
 
 HEAD AND NECK— S Points 
 
 Head, proportionate size, clean cut, well carried; profile, 
 straight 
 
 Muzzle, neat; 
 firm 
 
 nostrils large, flexible; lips thin, even, 
 
 Eyes, full, bright, clear, large, same color 
 
 Forehead, broad, full 
 
 Ears, medium size; tapering, well carried, alert. 
 Lower Jaw, angles wide, space clean 
 
 Neck, medium length, well muscled, arched; throat- 
 latch fine, windpipe large 
 
 FOBEQL'ARTERS— 25 Points 
 
 Shoulders, moderate height, extending well back, mod- 
 erately sloping, heavily and smoothly muscled, e.\- 
 tending into back 
 
 Arms, short, heavily muscled, thrown back, well set. .. . 
 
 Forearm, long, wide, clean, heavily muscled 
 
 Knees, straight, wide, deep, strong, clean, well sup- 
 ported 
 
 Cannons, short, wide, clean; tendons large, clean and 
 well defined, set back 
 
 Fetlocks, wide, straight, strong, clean 
 
 Pasterns, moderate slope and length, strong, clean 
 
 Feet, large, even size, sound; horn dense, waxy; soles 
 concave; bars strong, full; frog large, elastic; heels 
 wide, strongly supported 
 
 Legs, viewed in front, a perpendicular line from the 
 point of the shoulder should fall upon the center of 
 the knee, cannon, pastern and foot; from the side, a 
 perpendicular line dropping from the center of the 
 elbow joint should fall upon the center of the knee 
 and pastern joints and back of hoof 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 Stu- 
 dents 
 Score 
 
52 
 
 A UNIT IN AGRICULTURE 
 
 Ex. 57. Judging of Draft Horses by Score Card (continued). 
 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 SCALE OF POINTS 
 
 Stu- 
 dents 
 Score 
 
 Cor- ■ 
 rected 
 Score 
 
 B()1>Y— 10 Points 
 
 Withers, moderate height, smooth, extending well back. 
 
 Cliesst, deep, breast bone low; girth large 
 
 Kibs, deep, well sprung, closely ribbed to hip 
 
 1 
 2 
 
 1 
 
 1 
 2 
 
 2 
 6 
 
 1 
 
 2 
 
 C 
 3 
 
 
 
 Loin, broad, short, heavily muscled 
 
 
 
 
 IIINDQl'ARTERS— 33 Points 
 
 
 Croup, long, wide, heavily muscled, not markedly droop- 
 
 
 Tail, attached high, well carried 
 
 Tliighs, deep, broad, heavily muscled 
 
 Quarters, deep, heavily muscled 
 
 
 Gaskins (lower thighs), long, wide, heavily muscled.... 
 
 
 Cannons, short, wide, clean; tendons large, clean, de- 
 
 
 
 
 
 Pasterns, moderate slope and length, strong clean 
 
 Feet, large, even size, sound; horn dense, waxy; soles, 
 concave, bars, strong, full; frog, large, elastic; heels, 
 wide, strongly supported 
 
 Legs, view from behind, a perpendicular line from the 
 point of the buttock should fall upon the center of the 
 hock, cannon and foot; from the side a perpendicular 
 line from the hip joint should fall upon the center of 
 the foot and divide the gaskin in the middle; and a 
 perpendicular line from the point of the buttock 
 should run parallel with the line of the cannon 
 
 
 Total 
 
 100 
 
 
 
 
 
 Disqualificatioiii 
 
 Animal Date .... 
 
 Student Standing . 
 
A UNIT JN AGRICULTURE 
 
 53 
 
 Ex. 58. Judging of Light Horses by Score Card. 
 
 In accordance with the score card given below, ol^crvc a light horse and 
 record your observations. 
 
 SCALE OF POINTS 
 
 Age, estimated yrs., actual yis. 
 
 GENERAL APPEARANCE — 28 Points 
 
 Weight, estimated lbs. ; actual lbs. 
 
 Height, estimated hands; actual hands 
 
 Form, symmetrical, smooth, stylish 
 
 Quality, refined; bone clean, fine; tendons clean, defined; 
 
 hair and skin fine 
 
 Action, energetic, straight, true, elastic; walk, stride 
 
 long, quick, regular; trot, free, balanced, rapid 
 
 Temperament, active; disposition good, stylish carriage. 
 
 HEAD AND NECK— 8 Points 
 
 Head, proportionate size, clean cut, well carried, profile 
 straight 
 
 Muzzle, neat; nostrils large, flexible; lips thin, even, firm 
 
 Eyes, full, bright, clear, large, same color 
 
 Foreliead, broad, full 
 
 Ears, medium size, tapering, well carried, alert 
 
 Lower Jaw, angles medium wide, space clean 
 
 Neek, long, well muscled, arched; throat-latch tint 
 clean; windpipe large 
 
 FOREQUARTERS— 20 Points 
 
 Slioulder, long, sloping, smoothly muscled, extending 
 into back 
 
 Arms, short, strongly muscled, thrown back, well set... 
 
 Forearm, long, wide, clean, strongly muscled 
 
 Knees, straight, wide, deep, strong, clean, strongly sup- 
 ported 
 
 Cannons, short, wide, clean, tendons large, clean, de- 
 lined, set back 
 
 Fetlocks, wide, straight, strong, clean 
 
 I'asternsi, long, sloping, strong, clean 
 
 Feet, medium and even size, sound, horn dense, waxy; 
 soles concave; bars strong, full; frog large, elastic; 
 heels wide, strongly supported 
 
 Legs, view in front, a perpendicular line from the point 
 of the shoulder should fall upon the center of the 
 knee, cannon, pastern and foot; from the side, a per- 
 pendicular line dropping from the center of the elbow 
 joint should fall upon the center of the knee and pas- 
 tern ioints and back of hoof 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
 
 
54 
 
 A UNIT IN AGRICULTURE 
 
 Ex. 58. Judging of Light Horses by Score Card (continued). 
 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 SCALE OF POINTS 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
 BODY— 10 Points 
 
 Withers, moderate height, smooth, extending well back. 
 
 1 
 
 1 
 
 1 
 
 1 
 
 1 
 3 
 
 4 
 3 
 
 
 
 Ribs, deep, well sprung, closely ribbed to hip 
 
 
 I..oins, broad, short, wide, strongly and smoothly mus- 
 
 
 Underline, long, low; flanks well let down 
 
 HINDQUARTERS— 31 Points 
 
 
 Croup, long, wide, muscular, not markedly drooping. . . . 
 
 Tall, attached high, well carried 
 
 Tliighs, deep, broad, strongly muscled 
 
 
 
 
 Gasltins (lower thighs), long, wide, strongly muscled... 
 
 
 
 Cannons, short, wide, clean; tendons larg«, clean and 
 well defined, set back 
 
 Fetlocks, wide, straight, strong, clean 
 
 
 
 
 Feet, medium and even size, sound; horn dense, waxy; 
 soles concave; bars strong, full; frog large, elastic; 
 
 
 'L.egs, viewed from behind, a perpendicular line from the 
 point of the buttock should fall upon the center of the 
 
 line from the hip joints should fall upon the center 
 of the foot and divide the gaskin in the middle; and 
 a perpendicular line from the point of the buttock 
 should run parallel with the lines of the cannon 
 
 
 Total 
 
 100 
 
 
 
 
 
 Disqualifications 
 
 Animal Date 
 
 Student Standing . 
 
A UNIT IN AGRICULTURE 
 
 55 
 
 Ex. 59. Judging of Beef Cattle by Score Card. 
 
 In accordance with the score card given below, observe a beef steer and 
 record your observations. 
 
 SCALE OF POINTS 
 
 Age, estimated yrs., actual yrs. 
 
 GENERAL APPEARANCE — 26 Pointe 
 
 Weight, estimated lbs., actual lbs., score 
 
 according to age 
 
 Form, straight top line and underline; deep, broad, low. 
 medium length, symmetrical, compact, standing 
 squarely on legs 
 
 Quality, bone of firm texture, fine skin, silky hair, clear- 
 ly defined features and Joints; mellow touch 
 
 Condition, thick, even covering of firm flesh, especially 
 in regions of valuable cuts; indicating finish; light in 
 offal 
 
 IIEAI> AND NECK — 8 Points 
 
 Muzzle, good size, lips thin, nostrils large and well 
 apart ; jaws wide 
 
 I'nce, short, broad, profile straight 
 
 Forehead, broad 
 
 Eyes, large, full, clear, bright ; 
 
 Ears, well carried, fine, medium size 
 
 Neck, thick, short, throat clean; dewlap slight 
 
 FOREQl'ARTERS — 13 Points 
 
 Hhoulder Vein, smooth, full 
 
 Shoulders, smoothly covered with firm flesh, compact... 
 
 Brisket, broad, full, breast wide 
 
 Legrs, straight, short, strong, wide apart, forearm full, 
 shank fine, feet sound 
 
 BODY — 33 Points 
 
 Chest, deep, broad, girth large, foreflank full 
 
 Crops, full, thick, even with shoulders 
 
 Back, broad, straight, medium length; thickly, evenly 
 
 and firmly fleshed 
 
 Ribs, deep, well sprung, closely set, thickly, evenly and 
 
 firmly fleshed 
 
 Loin, broad, straight, thickly, evenly and firmly fleshed. 
 Flanks, full, low 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
56 
 
 A UNIT IN AGRICULTURE 
 
 Ex. 59. Judging of Beef Cattle by Score Card (continued). 
 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 SCALE OF POINTS 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
 HINDQUARTERS— 33 Points 
 
 Hips, smoothly covered, proportionate width 
 
 1 
 1 
 4 
 
 2 
 
 
 
 Rump, long, level, width well carried back; thickly, 
 evenly and firmly fleshed 
 
 
 Pin Bones, wide apart, not prominent 
 
 
 Tail, fine, tapering, medium length 
 
 Tliigrhs, deep, wide, well fleshed 
 
 Twist, deep, broad, well filled 
 
 
 I.eg8, straight, short, strong, shank smooth, feet sound. 
 
 
 Total 
 
 100 
 
 
 Disqualifications 
 
 Animal . Bate 
 
 Student Standing . 
 
A UNIT IN AGRICULTURE 
 
 57 
 
 Ex. 60. Judging of Dairy Cattle by Score Card. 
 
 In accordance with the score card given below, observe a dairy cow and 
 record your observations. 
 
 SCALE OF POINTS 
 
 Age, estimated yrs., actual. 
 
 . yrs. 
 .lbs. 
 
 GENERAL APPEARANCE— 23 Points 
 
 Weight, estimated lbs., actual 
 
 score according to age 
 
 Form, deep, low, wedgfe shape as viewed from front, 
 side and top; standing squarely on legs 
 
 Quality, bone of firm texture; hair fine, soft; skin mel- 
 low, loose, medium thiclvness; secretion yellow 
 
 Condition, healthy* spare fleshed 
 
 Style, active, graceful carriage 
 
 Temperament, alert, tractable; highly developed nervous 
 system perfectly controlled, indicated by clear placid 
 eyes, marked refinement about head, neck and fore- 
 quarters, prominent backbone and normal activity.... 
 
 HEAD AND NECK— 10 Points 
 
 Muzzle, good size, lips thin, nostril large and wide apart, 
 jaws wide and strong 
 
 Face, medium length, broad, slightly dished 
 
 Eyes, large, full, clear. l)right, placid 
 
 Forehead, broad, slightly dished 
 
 Ears, well carried, fine, medium size, yellow inside 
 
 Neck, medium length, fine, throat clean, dewlap slight. 
 
 FOREQl.ARTERS— 6 Points 
 
 Slioulders, light, narrow at top 
 
 Brisket, light 
 
 Legs, straight, short, strong, shank fine, feet sound. 
 
 BODY— 22 Points 
 
 Back, strong, prominent spinal processes, wide apart. 
 
 Chest, deep and moderately wide, girth large. 
 Ribs, deep, wide apart, well sprung 
 
 Loins, broad, strong, with_ roomy coupling. 
 Barrel, deep, wide, very capacious 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
58 
 
 A UNIT IN AGRICULTURE 
 
 Ex. 60. Judging of Dairy Cattle by Score Card (continued). 
 
 SCALE OF POINTS 
 
 HINDQUAKTEKS — 39 Points 
 
 Hips, wide apart, prominent; level with back. 
 
 Rump, long-, wide, straight or slightly rising; pelvis 
 
 roomy 
 
 Pin Bones, high, wide apart 
 
 Tail, set high, long, tapering, heavy switch 
 
 Thighs, thin, long, wide apart; twist very open 
 
 Escutcheon, spreading over thighs, extending high and 
 wide; large thigh ovals 
 
 Udder, broad, symmetrical, extending well forward, well 
 up between the thighs, free from fleshiness, well held 
 up, and quarters even in size 
 
 Teats, good size, evenly placed 
 
 Mill{ Veins, large, tortuous, branching milk wells large, 
 numerous 
 
 Legs, straight, short, strong; shank fine, feet sound.... 
 
 Total 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
 Disqualifications 
 
 Animal Date 
 
 Student Standing . 
 
A UNIT IN AGRICULTURE 
 
 59 
 
 Ex. 61. Judging of Mutton Sheep by Score Card. 
 
 In accordance with the score card given below, observe a mutton shee|> 
 and record your observations. 
 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 SCALE OF POINTS 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
 Age, estimated yrs., actual y is. 
 
 GENERAL APPEARANCE— 26 Points 
 
 Weight, estimated lbs., actual lbs. 
 
 
 8 
 C 
 
 
 1 
 
 1 
 
 1 
 
 1 
 
 1 
 3 
 
 4 
 
 4 
 
 C 
 
 
 r 
 
 4 
 G 
 
 
 
 Form, straight, top line and underline, deep, broad, low, 
 medium length, symmetrical, compact, standing 
 
 
 Quality, bone of firm texture, fine skin, silky hair, 
 clearly defined features and joints, mellow touch. 
 
 
 Condition, thick, even, covering of fiini flesh, especially 
 in regions of valuable cuts, indicating finish; light in 
 offal 
 
 
 HEAD AND NECK— 8 I'oinls 
 
 Muzzle, good size, lips thin, nostrils large and well 
 apart, jaws wide 
 
 Face, short, broad, profile straiglit 
 
 
 
 
 
 
 FOREQUARTERS— 10 Points 
 
 Shoulder Vein, smooth, full 
 
 Shoulders, smoothly covered with firm flesh; compact... 
 
 Brisket, broad, full; breast wide 
 
 Legs, straight, short, strong, wide apart; forearm full; 
 
 BODY— 25 Points 
 
 Chest, deep, broad; girth large; foreflank full 
 
 Back, broad, straight, medium length, thickly, evenly 
 
 
 Ribs, deep, well sprung, closely set, thickly, evenly and 
 
 
 Loin, broad, straight, thickly, evenly and firmly fleshed. 
 Flanks, full, low 
 
 
 HINDQUARTERS — 20 Points 
 
 
 Rump, long, level, width well carried back; thickly, 
 evenly and firmly fleshed 
 
 
 Thighs, deep, wide, well fleshed 
 
 
 Twist, deep, broad, well filled 
 
 
 Legs, straight, short, strong; shank short but sound. ... 
 
 
60 
 
 .1 UNIT IN AGRICULTURE 
 
 Ex. 61. Judging of Mutton Sheep by Score Card (continued). 
 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 SCALE OF POINTS 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
 TLEKCE AND SKIN— H Points 
 
 Quantity <»f' Wool, long, dense, even, well distributed 
 
 over body 
 
 Quality of Wool, fine, soft, pure, even, crimp close and 
 
 3 
 3 
 
 2 
 3 
 
 
 
 Condition of Wool, bright, strong, clean, yolk abundant. 
 8kin, pink color, clear 
 
 
 
 
 Total 
 
 100 
 
 
 
 
 
 Disqualifications 
 
 Animal Date 
 
 Student Standing . 
 
A 'UNIT IN AGRICULTURE 
 
 61 
 
 Ex. 62. Judging of Swine by Score Card. 
 
 In accordance with the score card given below, observe swine of different 
 breeds and record your observations. 
 
 SCALE OF POINTS 
 
 Age, estimated yrs., actual yrs. 
 
 GENERAL APPEARANCE— 26 Points 
 
 Weight estimated lbs., actual lbs., 
 
 score according to age 
 
 Form, arched hack, straight underline; deep, broad, low, 
 
 medium length, symmetrical, compact, standing 
 
 squarely on legs 
 
 Qualit.v, bone of firm texture, fine skin, silky hair. 
 
 clearly defined features and joints; mellow touch 
 
 Condition, thick, even, covering of firm flesh, especially 
 
 in regions of valuable cuts; indicating finish; light in 
 
 offal 
 
 HEAD AND NECK— 8 Points 
 
 Snout, short, not coarse 
 
 Face, short, broad, cheeks full 
 
 E.ves, large, full, clear, bright, wide apart, not obscured 
 
 by wrinkles 
 
 Forehead, broad 
 
 Ears, well carried, fine, medium size 
 
 Jowl, full, firm, broad, neat 
 
 Ne; li, thick, medium length, somewhat arched, neatly 
 
 joined to shoulders 
 
 FOREQUARTERS — 10 Points 
 
 Shoulders, broad, deep, full, compact, covered with firm 
 
 ' flesh 
 
 Breast, wide, deep, breast bone advanced 
 
 Leg's, straight, short, strong, wide apart, shank strong 
 
 and smooth, feet sound 
 
 BODY — 33 Points 
 
 Chest, deep, broad, girth large, foreflank full 
 
 Back, broad, slightly arched, medium length, thickly, 
 
 evenly and firmly fleshed 
 
 Sides, deep, medium length, closely ribbed, thickly, 
 
 evenly and firmly fleshed 
 
 .Loins, broad, strong, medium length, thickly, evenly 
 
 and firmly fleshed 
 
 Belly, straight, proportionate width, firmly fleshed 
 
 Flanks, full, low 
 
 ■HINDQUARTERS— 23 Points 
 
 Hips, smoothly covered, proportionate width 
 
 Bump, long, rounding slightly, from loin to root of tail; 
 
 width well carried back, thickly, evenly and firmly 
 
 fleshed 
 
 Hams, deep, wide, thickly, evenly and firmly fleshed.... 
 Legs, straight, short, strong; shank strong and smooth, 
 
 feet sound 
 
 Total 
 
 Pos- 
 sible 
 Score 
 
 Points Deficient 
 
 Stu- 
 dents 
 Score 
 
 Cor- 
 rected 
 Score 
 
 Disqualifita t io ns 
 
 Animal Date 
 
 Student Standing . 
 
62 A UNIT IN AGRICULTURE 
 
 FARM MANAGEMENT. 
 Ex. 63. Plan of Farm. 
 
 Take the measurements of the home farm. Make plot of farm; 
 scale, one inch = 660 feet. Show location of cultivated fields, 
 pastures, timber, barn lot, orchard and garden. Show location of all 
 buildings and all wells, ponds, or springs. 
 Ex. 64. Plan of Home. 
 
 Measure and make to scale a floor plan and cross section of your 
 home. If you can, make a good drawing of the home. 
 
 Ex. 65. Plan of Barn. 
 
 Having read the references assigned by the teacher and knowing 
 the kind and number of animals to be provided for, make ground plan 
 of barn; scale, one inch = 6 feet. 
 Ex. 66. Examination of Fertilizers. 
 
 Study small samples of all fertilizers available. Test each with 
 litmus paper. Learn name, composition and price of each. Observe 
 color, odor and form. 
 
 Ex. 67. Experimental Test of Fertilizers. 
 
 This experiment takes time and can not be completed before Sep- 
 tember. If there is no school garden, ask some farmer in the neigh- 
 borhood to rent you the necessary land. Lay off one-half acre of land 
 in plots, each plot being precisely one-tenth of the whole, or one- 
 twentieth of an acre. Mark the division points by stakes set well in 
 the ground and number the plots from one to ten. 
 
 On plot No. 1, sow nothing. 
 
 On plot No. 2, 8 lbs. of nitrate of soda and 16 lbs. of acid phos- 
 phate. 
 
 On plot No. 3, 8 lbs. of nitrate of soda and 4 lbs. of muriate of 
 potash. 
 
 On plot No. 4, 8 lbs. of nitrate of -soda, 16 lbs. of acid phosphate 
 and 4 lbs. of muriate of potash. 
 
 On plot No. 5, 20 lbs. of any commercial fertilizer used in the 
 neighborhood. 
 
 On plot No. 6, nothing. 
 
 On plot No. 7, 500 lbs. of barnyard manure. 
 
A UNIT IN AGRICULTURE 63 
 
 On plot No, 8, 8 lbs. of nitrate of soda. 
 
 On plot No. 9, 16 lbs. of acid phosphate. 
 
 On plot No. 10, 4 lbs. of muriate of potash. 
 
 Do this work in early spring. Plant the entire plot in corn or 
 potatoes and cultivate carefully. In the fall, gather and weigh the 
 crop. Which plot made the best yield? Which made the poorest? 
 Arrange the plots according to the yield. Considering the market 
 price of the corn or potatoes, did it pay to fertilize? Which plot 
 shows the highest per cent of profit ? 
 Ex. 68. The Home Garden. 
 
 Make drawing of plan for a vegetable garden to supply the home 
 with a succession of vegetables. Indicate the area planted to differ- 
 ent vegetables, the approximate time of planting, distance between 
 rows, method of planting and cultivating. 
 
 Note. — It is important that the garden be arranged for cultiva- 
 tion by horse power. 
 
 Ex. 69. Farm Forestry. 
 
 Visit the woods on a farm. Find out what trees the method of 
 
 cutting has favored, and what are the leading kinds, with the pro- 
 portion of each. Learn the names of the common trees. Note that 
 much of the cutting in woods is done in such a way as to leave the 
 undesirable trees — the tree weeds. 
 Ex. 70. Agricultural Manufacturing. 
 
 Visit a creamery, vinegar factory, evaporator, canning factory or 
 other similar industry. Note the different operations and refer to the 
 scientific principles involved. 
 Ex. 71. The Babcock Test for Butter-Fat in Milk. 
 
 This exercise should first be performed by the teacher as a demon- 
 stration exercise and then by the individual students. 
 
 Caution. — Examine the apparatus and read the directions care- 
 fully before using it. When pouring the acid into the milk, be sure 
 that the bottle is not pointed toward yourself or any other person. 
 
 Mix the milk by pouring it back and forth between two vessels 
 several times. Place the small end of the pipette near the center of 
 
64 A UNIT IN AGRICULTURE 
 
 tlie milk and suck up the milk above the 17.6 c.c. mark. Quickly put 
 the index finger over the upper end of the pipette; and, by releasing 
 the pressure, allow the milk to run out until its upj^er surface is even 
 with 17.6 c.c. mark when the pipette is held straight up and down. 
 
 Place the point of the pipette a short distance into the test-bottle 
 neck, holding it against the glass and with both pipette and bottle at 
 an angle. Eemove the finger to allow the milk to flow into the bottle. 
 Be sure to get every drop of the milk, taking care to drain the pipette 
 and to blow the last drop into the bottle. 
 
 After all the samples of milk to Ije tested have been measured, 
 the acid should be added. Fill the acid measure to the 17.5 c.c. mark 
 with acid that is neither very cold nor very hot. Pour this into the 
 bottle with the milk, holding the bottle in a slanting position. The 
 acid will then carry down any milk left in the neck, follow the glass 
 surface to the bottom of the bottle and form a layer under the milk. 
 
 Hold the bottle by the neck and give it a circular motion for a 
 few minutes, mixing the milk and acid until no milk or clear acid is 
 visible. By this time the contents will be dark colored and hot. This 
 change is due to the acid dissolving all the solid constituents of the 
 milk except the fat, which it does not affect. 
 
 Place the bottles in the machine so that each one will have an- 
 other directly opposite, to keep the machine in balance. Whirl the 
 bottles five minutes at the proper speed for the machine in use. Then 
 stop it; and, with the pipette or other convenient means, add hot 
 water to each bottle until the contents come up to the bottom of the 
 neck. Whirl two minutes. Add hot water enough to bring the top of 
 the fat nearly to the top of the graduations on the neck of the bottles. 
 Whirl one minute. The fat should then form a clear column in the 
 neck of the bottle. 
 
 Reading the Percentage. Keep the fat warm so that it will be 
 in the fluid condition. Hold the bottle by the upper end of the neck, 
 letting it hang in a perpendicular position on the level with the eye. 
 Eead the graduations at the extreme top and bottom of the fat column. 
 The difference between these is the percentage of fat in the milk. 
 
m 
 
 73 '^' 
 
One copy del. to Cat. Div.