4? * 4* * 4? •I* 4? 4* 4* 4? 4* 4» HIGH SCHOOL MANUAL FOR= SOUTH DAKOTA 4? 4* 4* 4 , 4?4 , *l ,> '*fr"4"' 4? 4? 4? 4*4* 4* 4»4 , 4» •$••!••$?♦ H|* *|b» *fb» •I? 4? 4«* 4? 4? ff* 4? ^ 4* 4? ♦ 4? 4* 4» 4* 4? * 4? 4* 4? 4? 4? * * 4* 4* 4> 4* 4? 4? •§• 4? * 4? 4? * * 4? -i- 4* 4? * 4* 1922 Published by J. FRED OLANDER COMPANY Official Publish*rs Pierre, South Dakota •^4?4•4!'4•4»4 , 4»4 , 4! | 4 l 4•4! | 4! , 4 l 4*4! , 4»4'4! , 4 , 4 , 4* 4* 4* S~xk &«**' HIGH SCHOOL MANUAL FOR SOUTH DAKOTA Revised under the direction of FRED L. SHAW Superintendent of Public Instruction Published by J. FRED OLANDER COMPANY Official Publishers Pierre, South Dakota Copyright 1922 By FRED L. SHAW, Superintendent of Public Instruction. OUi 19 C1A687787 TABLE OF CONTENTS AND INDEX Page Agriculture 131 Art 8 Bible 14 Civics 120 Commercial 20 Bookkeeping 20 Arithmetic 21 Geography 22 Law 22 Shorthand 25 Typewriting 23 Economics 125 English 26 First Year 27 Second Year 30 Third Year 32 Fourth Year 33 Argumentation and Debate 35 Public Speaking 35 Foreign Languages 37 French 39 German 40 Latin 37 Spanish 38 History 109 Ancient 109 English 124 Modern 113 United States 118 Home Economics 132 Introduction 5 Manual Training 134 Mathematics 42 Algebra Elementary 42 Algebra Advanced 44 Geometry Plane 44 Geometry Solid 49 Trigonometry 52 Music 54 Natural Sciences 59 Biology 59 Chemistry 62 General Science 72 Physics 82 Physiography . 92 Normal Training 98 Physical Education 106 Printing 136 Standards of Accreditment 6 Sociology 128 FOKEWOKD Preparation. The high school course of study under which we have been work- ing was made out by a committee appointed by Superintendent C. H. Lugg, at the suggestion of the high school executives' meeting at Deadwood in 1914. Since then conditions have so changed and so many different courses have been called for by the high schools of the State that that course fails to meet our needs. In 1921, at a meeting of the South Dakota Education Association at Huron, the high school executives requested the State Superintendent of Public Instruction to appoint a committee to prepare a new course. Such a committee was appointed in the spring of 1922 by Hon. Fred L. Shaw, State Superintendent of Public Instruction, and this course is the result of the work of that committee, under the direction of Mr. Shaw. Many other courses of study have been gleaned from and many of the high school teachers of the State have assisted in prepar- ing the material. The committee regrets that the list of those who were consulted is too long to be given personal mention but desires to thank each and all for the help given. Smith-Hughes Courses The courses in Smith-Hughes Agriculture, Smith-Hughes Home Economics and Smith-Hughes Trades and Industries are not included in this Manual but are published in a separate bulletin. Anyone interested in these courses should write to the Department of Public Instruction for copies of the bulletin. Many of the high schools of the State are now giving them and drawing aid from the State and Federal Governments. These courses are especially desirable for pupils who are not planning to take a college course after finishing high school. The Purpose This course is put out as a guide for the various high schools but not with the intention that it shall be a hard and fast rule to which all the work of the State must conform. It is rather a statement of the essentials that should form the basis of our high school course. It is not desired that every high school in the State should follow identically the same course of study but it is desirable that every high school graduate should have all the constants required. The work as outlined should, we believe, form the basis of every high school course in the State, leaving each school free to add to the re- quirements or develop the course as local conditions demand and re- sources permit. It is advised, ""however, that those who are unfamiliar with con- ditions in South Dakota or those who have had little experience in high school work shall conform as nearly as possible to the courses as here outlined. It is also essential that, when a course of study has been formulated for any particular school and adopted by the Board of Education for that school, it be not changed to suit the whim of every new teacher. "Secure teachers to fit the course rather than get courses to fit the teachers. REVISION COMMITTEE. INTRODUCTION The revision committee presents herein the results of their ef- forts. I have approved the work as well done. It is left to the prin- cipal and high school teachers in each high school to adapt the course to fit the needs of the community. As stated by the committee, it it is not expected nor desired that all high schools have the same course of study. It is desired, however, that as nearly as possible each high school meet the standards set, and that the course of study in the high schools of the state shall contain the required eight constants. Each high school should guard well its entrance requirements. No pupil should be encouraged to leave the grades and undertake high school work who has not received an eighth grade diploma granted by a county superintendent or one that can be endorsed by him, or its equivalent. This will enable such pupil to take advantage of the free high school tuition law, should he establish a residence in a dis- trict wherein no high school is maintained. Pupils coming from non- accredited high schools to accredited ones should be required to establish by proper tests the quality of the non-accredited work before credit is given upon it. Credit should be given only when the quality of the work is as high as is required in the school where the work is accepted. Do not cheapen quality to get numbers. Let us look forward to the time when little high school work will be undertaken that can not be accredited. "Not how much but how well" is a good motto. The promotions will be made under the supervision of the principal and high school faculty. For many reasons the Department of Public Instruction does not prepare nor send out examination questions for high schools. The entire supervision of the promotions is left to each high school faculty for its school. I am sure this re- sponsibility will be well cared for. This course is not perfect, but it shows progress. With it as a guide, let us continue to go forward. FRED L. SHAW, Superintendent of Public Instruction. HIGH SCHOOL MANUAL A(VREI)ITMENT OF HIGH SCHOOLS Classification of High Schools. The accredited high schools of South Dakota shall be classified as One Year, Two Year, Three Year, and Four Year Schools. The requirements of their courses shall be: One Year Schools — English I, Elementary Algebra and two elec- tives. One teacher required. Two Year Schools — English I and II, Elementary Algebra, Plane Geometry and four electives. Two teachers required. Three Year School — Six constants (including those given for Two Year School), and six electives Two teachers required. Four Year Schools — All of the constants of this course and not less than seven electives. Three teachers at least required. No alter- nation allowed. Standards of Accreditment. A high school to be recognized as an Accredited High School must meet and maintain the following conditions: 1 . The location and construction of the buildings, the lighting, heating and ventilation of the rooms, the nature of the lavatories, corridors, closets, water supply, school furniture, apparatus, and methods of cleaning shall be such as to insure hygienic conditions for both pupils and teachers. 2 . Not less than fifteen units as defined in this course shall be required for graduation Sixteen units are recommended. A UNIT is defined as a course covering an academic year that shall include, in the aggregate, not less than 120 sixty-minute hours of class work, provided that two hours of laboratory work, manual training or domestic science shall be considered equivalent to one hour of class room work. 3 . The minimum scholastic attainment of all teachers of academic subjects in high schools shall be fully equivalent to gradua- tion from the University of South Dakota; except that teachers holding Life Diplomas, State or Provisional Certificates issued on or after July 1st, 1919, may teach in the ninth grade. Note: All teachers above the ninth grade must hold a Life Professional Diploma or a Provisional Diploma issued from the De- partment of Public Instruction before they can teach above the ninth grade in any high school. ALL TEACHERS must hold VALID CERTIFICATES issued from the Department of Public Instruction BEFORE they can sign a LEGAL CONTRACT with any BOARD OF EDUCATION. 4 . The number of daily periods of class room instruction given by any teacher shall not exceed six. 5 . All recitation periods shall be at least forty minutes in the clear. 6 . The library and laboratory equipment shall be fully ade- quate to the needs of instruction in the subjects taught and out- lined in the high school Manual. FOR SOUTH DAKOTA 7 7 . No school shall be accredited whose salary schedule is not sufficient to command, and retain teachers whose qualifications are such as required in Standard 3. 8 . The efficiency of instruction, the acquired habits of thought and study, the general intellectual and moral tone of a school are paramount factors, and therefore, only schools which rank well in these particulars, as evidenced by thorough-going inspection, shall be considered eligible for accreditment. 9 . A permanent record of each pupil's work shall be kept- 10. The Department of Public Instruction shall call for such reports as may be deemed necessary for accrediting. Note: If the annual report called for under Standard 10 is not in the office of the Department of Public Instruction on the date call- ed for, the school will go on the non-accredited list. If blanks are not received by September 15, each year, the principal should write to the department asking for them. CONSTANTS Constants: The constants, or required subjects, of an approved high school course shall be: English I, II, III and IV as defined in the High School Manual . 4 units American History and Government 1 unit. Algebra, to Quadratics 1 unit. Plane Geometry 1 unit. Science, one year's work in any of the following 1 unit. (1) Physics (2) Chemistry (3) Physiography (4) Biology ( 5 ) General Science Electives: The electives of the course shall be (the numeral following each subject indicates the number of unit credit that may be allowed): Latin 4 French 2 German 2 Spanish 2 Advanced Algebra y 2 Solid Geometry y 2 Plane Trigonometry % Ancient History 1 Modern History 1 English History 1 Sociology y 2 Economics y 2 Argumentation and Debate . . . y 2 Public Speaking y 2 Bible 1 Art 2 Commercial (as outlined) .... 5 Physical Education x / 2 Normal Training 3 Domestic Science 1 Agriculture 1 Manual Training 2 Printing 2 Music (see outline) Note: Credit will not be allowed for American History and Government, Physics or Chemistry, or Trigonometry if given before the third year of the course; or for Economics if given before the fourth year. HIGH SCHOOL MANUAL ART (Ten periods per week, one unit) This outline is planned upon the idea that "the teaching of Art is vastly more important than the teaching of drawing." It is believed that since Art in high school has been extended to home decoration, dress making, millinery and commercial Art, the pupil, after a two years course, should have a better appreciation and under- standing of Art and its relation to life. September 1 . Copy block letter alphabet. 2. Layout for poster, on 10x14 drawing paper. Observe Greek Law of Margins. Carry out in pencil. Refer to Pencil Sketch- ing by Geo. W. Kotch. (The Prang Co, Chicago) 3 . Make poster without background. Carry out in black, white and one intense color. Use illustrator's board 15x20. One line of printing. Suggested subjects: Yarn balls, ink bottles, pencils, pens. 4. On 15x20 illustrator's board make poster advertising foot- ball game. Carry out in opaque color- Use simple lettering, school colors and no figures. October Begin study of color theory by giving pupils following notes. Primary colors: red, yellow and blue. Binary colors: orange, green and violet. The Spectrum Circle is the arrangement of the colors in the order in which they appear in the spectrum. There are three distinct qualities of color: — 1 . Hue. A hue is a color tone between a primary and binary color and is made by mixing the primary and binary colors. 2 . Value is a term used in reference to the light or dark of a color tone- 3 . Intensity. The term intensity when applied to color refers to its brilliancy or personal strength. Tone is a term applied to any spot of color or gray or black or white which the eye recognizes. A normal color is a color at its fullest intensity. A tint is a tone lighter than normal. To neutralize a color add a part of its complement. Complements are colors directly opposite in the spectrum circle, totally unrelated in their normal intensity. Harmony and its Laws There are two kinds of harmony: The Harmony of Likeness or an analogous harmony; the Harmony of Difference or a complementary harmony. In Analogous Harmony we may use colors between one primary and the next, never crossing the second primary- In a Complementary Harmony our problem is to make wholly unrelated colors harmonious. Two full intense complements may never be used together except by the introduction of black, white or gray. In this scheme one of the colors must always be neutralized, and usually both. In a One Mode or Monochromatic Harmony we may use one color only, and must not move from right to left. This harmony in- cludes a tint shade and normal color. A Triad Harmony is a harmony formed by an equilateral triangle FOR SOUTH DAKOTA 9 in the spectrum. In this scheme we must grey or neutralize two of the colors unless we use large areas of black, white or gray. See that these laws and color schemes are made use of in all following problems. 1. Use a 7x10 illustrator's board. Place board in vertical posi- tion and draw border, observing Greek Law of Margins. Leave 2 in. at bottom, 1 in. at sides, 1 ^4 in. at top. Inside of this draw another border leaving % in. at bottom, % in. at top and % in. at sides- Divide inside space into four vertical retangles leaving x /% in. be- tween each. Draw very conventional landscape in one oblong, trace into all four. The two bottom drawings are to be developed in well distributing black, white and gray. Use only black and white for one and introduce gray into the other. The remaining drawings are to be carried out in complementary and analogous harmonies 2. A still life poster on a 15x20 illustrator's board. Use a tint for a background and keep all objects at eye level. November - December This month and December will be wholly devoted to the design- ing and enameling of Christmas Gifts. For helpful suggestions for designs turn to "The Use of the Plant in Decorative Design" by Maude Laurence and Caroline Sheldon (Scott, Foresman & Co., Chi- cago). Any good household enamel will do for the body color. The teacher will find a quart of black and of white enamel enough for a class of about twenty students. One set of Enamelac is a great sav- ing of oil tube paint, which must be mixed with white when applying designs to articles. Following is a list of articles suitable for decoration: Flower pots, candle sticks, candles, book ends, wicker and tin trays, glass perfume bottles, paper fans, window drops, tea pots, wooden bowls, slipper trees, powder compacts, lamp standards, tin cake and candy boxes January 1. On a 10x15 illustrator's board make side wall elevation using % inch scale. Plan two French doors in proper relation to size of wall and to each other. Tint wall yellow. This problem is to be inked before painting. 2. Place 10x15 illustrator's board in horizontal position and make drawings of windows with curtains. Use % inch scale and ink in. Have the class shop for cretonnes and paint in your design. 3 . The simplest style of painted chair and sewing table to be designed by students. February 1 . Design motives suitable for applying to painted furniture. 2 . Room with tinted wall and dining room furniture, preferably serving table with a chair either side of it, no windows- Use plain curtains of a complementary color. 3 . Bed room using same scale and no windows, painted bed, bedside table and chair. Use a tint for wall and a complementary color slightly neutralized for furniture. March 1 . Student to choose style of room and furnish according to his ideas. 2 . Original design of cretonne. Nothing more difficult than a drop repeat. April Use Wedding Bristol Board for all the costume problems. 1 . Copy Chart 1 of Human Proportion Packet by Eudora Sell- 10 HIGH SCHOOL MANUAL ner "Drawing of Human Figure" (The Davis Co., Worchester Mass.) or any other well proportioned chart of the adult figure. 2 . Make the most careful drawing possible of a hat suitable for a High School girl. Place the hat on hat stand. 3 . Make drawings on board, of ruffles, pleats, lace, gathers and other view. Dress to be on form. May Use knowledge gained through the year to make posters on 15x20 illustrator's board. Suggested Subjects: Furniture, millinery, draperies, books or drug supplies. SECOND YEAR (Ten periods per week, one unit) September 1. Make original alphabet on 15x20 illustrator's board. 2 . Foot ball poster, using rather conventional figure, if any. October 1 . Have all students make their own cover for notebook to be used throughout the year. The loose leaves to be of white drawing paper, 8%xl3% inches. Material for cover to be well contrasted book vellum and mounting paper. Directions 2 large mounting papers, 8^x15 inches. 2 large mounting papers, 8%xl3% inches. 2 pieces vellum, 4x4 inches. 1 piece vellum, 4x4 inches. 1 piece vellum, 3x13% inches 2 card boards, 914x14 inches. Cut two corners off of one side of large papers, 3 % inches each way. Measure and draw lines 1 y 2 in. from one edge of long side of card boards. Put paste on cardboard and paste down longest piece of vellum (the outside) turn down top and bottom. This leaves 1 in. between the boards. Next paste an inside strip of vellum, finishing the hinges. Cut squares diagonally and paste on outside four corners. Put paste on largest sheet of mounting paper and place on outside covers, smoothing from center out Turn down edges. Paste in lining. Set four eyelets in cardboard about one inch from top and bottom of both covers. Tie with harmonizing cord. 2. Into note books have students copy color notes of last year, making on one inch squares of white drawing paper, examples of each harmony and definition. Add the following to these notes: Meaning of Color "The appropriateness of the color makes for the perfection of the picture." Black — sin, mourning. White — purity. Yellow — (from the sun) supreme wisdom, joyous moods. Green- — truthfulness, hope, youth. Blue — (from the sky) constancy, truth, peace, contentment. Red — (from the blood) love, valor. Orange — (yellow and red) knowledge, benevolence. Violet — (blue and red) loyalty, patience. White — the union of all color. Black — the absence of all color. November 1. On a 15x20 illustrator's board make poster advertising the Christmas sale of gifts for Vantine's or some other Oriental store. This should afford a good opportunity for the use of rich complemen- tary harmonies. FOR SOUTH DAKOTA 11 2 . Make posters advertising some Bazar to be held in your city. Any church would be glad to furnish the boards in exchange for the advertising value of the posters- This will give the pupils some idea of the commercial value of their work and work wonders in heightening their interest. 3 . Begin Christmas problems. Enameling is the best thing from the standpoint of design, color and technique that has been brought into High School for use at this time of year. It is suggest- ed that practically the same type of problems will be planned and carried out as in the first year's work. The designs will, of course, be more interesting and the harmony more beautiful. December Continue enameling. If the teacher has had work in basketry and in book binding without special equipment, this would be an excellent opportunity to introduce it. Stenciling curtains, scarfs, blouses, and many other useful articles will be found interesting and enjoyable. This is the month to stress color, design and its application. The teacher will find that twice as much knowledge of design will be gained with far less effort on her part than could possibly be expected at any other time of the year. January 1 . Use as reference either Frank Alvah Parsons "Interior Dec- oration" or else Elsie de Wolf's "The House in Good Taste." From one of these choose what you consider the most interesting chapters on Period Furniture. Have these read in class and notes taken. Notes should be well written up in the note books. Spend two weeks on this study of furniture. 2. On illustrator's board, 10x15, make side wall elevation for Dining Room to be carried out in some period style. Use old plaster wall and walnut furniture. No windows. Two chairs and buffet to be inked in. Use Burnt Sienna and Sepia (tube colors) for furniture- Wash board with sponge before applying any color. February 1. From "The Tapestry book" by Helen Churchill Candee, and "Tapestries" by LeLand Hunter, choose several chapters. Have students prepare reports for class. Take notes and write up as in case of Furniture. Use two weeks of February for the study of Tapestries. 2. On 10x15 in. illustrator's board make elevation for library furnished in Period Style with large library table, one or two chairs, floor lamp and tapestry directly over the table. Be sure that the wall and tapestry are in close harmony. Never use India ink in a tapes- try. In putting on these old plaster walls, it will be well to remember that some of the most delightful effects are obtained through re- peated washing with a sponge. March 1 . Make drawing of entry way or reception hall of a town house. Use only the perspective necessary to gain desired effect in stairway. If the plan permits, a sketch may be made on the floor of a simple oriental rug. Wrought iron is suggested for the stair banister. 2 . The rest of the month of March is to be devoted to a con- struction problem. With adhesive tape fasten together on the short ends two pieces of illustrator's board about 15x20 inches. Con- struct furniture for a bedroom from Wedding Bristol Board. A bed 12 HIGH SCHOOL MANUAL about seven inches long and the other furniture in proportion. Go over this furniture with opaque color and apply tiny designs in har- monizing colors A bolster may be made by rolling a piece of water color paper and inserting and pasting tissue paper in each end. On the ends of tissue paper may be put a little lace pattern of white opaque color. Thin curtains for the windows may be made in the same way. This has been found to be an exceedingly interesting and profitable problem when pupils and teacher put into it their best efforts. It can be much elaborated upon. April 1 . Have all Costume Design work done on Wedding Bristol Board cut proper size to fit note books made in the fall. Set up straight front figure of girl of high school age. Make drawing about 8 inches high. Clothe figure in simple original spring aress. When painting use a wash with darker value of same color for folds- 2 . Using "Art in Costume Design" by Edna Mann Shover, make a study of Historic Costume for the next two weeks. Have students write in their note books answers to all questions found at the end of chapters. 3 . Design a street costume and an afternoon dress having students use their knowledge of historic ornament. May 1 . Spend two weeks in the study of Historic Ornament as applied to Architecture and Art History. Write themes in notebooks on the subjects at the end of the study periods. Two chapters which can be easily covered in this length of time will be found in "Art Education for High Schools," published by the Prang Co. 2. If the school is planning an "Operetta" or school play of any sort, a most interesting problem will be found in constructing a stage of a box about 21x28x9 inches. Scenery and a back drop to be painted by the best poster students, and the figures by those best in costume design. If the box is painted black on the outside it will set off the colors used 3 . Make posters advertising either your own or the grade schools closing exercises. REFERENCE BOOKS, AUTHOR PUBLISHER Interior Decoration, Frank Alva Parsons; Doubleday, Page & Co. The House in Good Taste, Elsie De Wolfe; Century Co. The Tapestry Book, Helen Churchill Candee; Frederick A. Stokes Co. Tapestries, George Leland Hunter; John Lane Co. Art in Costume Design, Edna Mann Shover; Milton Bradley Co. How to be a Fashion Artist, Edith Young; Edith Young. The Psychology of Dress, Frank Alva Parsons; Doubleday, Page & Co. Costume Design Packet, Human Proportion Packet, Eudora Sellner; The Davis Press, Worcester, Massachusetts. Art Simplified, Pedro J. Lemos, John T. Lemos; The Prang Co. Principles of Advertising Arrangement, Frank Alva Parsons; The Prang Co. Art in High Schools, The Prang Co. Lettering, Thomas Wood Stevens, The Prang Co. Appolo, S. Reinach, Charles Scribner's Sons. MAGAZINES PUBLISHER The School Arts Magazine, The Davis Press, Worcester, Mass. Le International Studio, John Lane Co. House Beautiful, The House Beautiful Pub. Co. The Vogue. The Vogue Co. FOR SOUTH DAKOTA 13 GENERAL EQUIPMENT Tube water colors Primary and Binary colors Opaque colors Primary and Binary colors Venus eraser, art gum and soft ink eraser Brass edged ruler Ball pointed and ruling pens Number 16 water color brush Two small brushes White opaque color Sponge 14 HIGH SCHOOL MANUAL BIBLE I. Educational Standards. 1 . The same scholastic preparation of teachers for these courses is required as is required of any teacher in the accredited high schools of the state. 2 . The requirements for attendance, punctuality and examina- tions shall be the same as those for any course offered in an accredit- ed South Dakota high school. 3 . The number and length of recitation periods shall be the same as those required in any other high school subject of equal unit value. 4 . All needed equipment such as rooms with proper heat, light and floor space, maps, charts and reference books shall be fully adequate for teaching the work offered. II. Elections in Bible Study. 1 . In order to give freedom of choice to students of different faiths, and to satisfy the demands of various schools and colleges, the following three courses are recognized as suitable component parts of a college entrance unit. Any two of these courses shall be a minimum requirement. Each course shall require five forty-minute recitations per week for eighteen weeks. COURSE 1. (One-half unit) I. Narratives and Songs of the Old Testament. 1. The Creation Stories. Gen. 1 and 2, Psalm 5. 2. The Serpent in the Garden. Gen. 3. 3. Cain and Abel- Gen. 4: 1-16. 4. The Story of the Flood. Gen. 6: 1-9: 17. 5. Abraham the Pioneer. Gen. 12: 1-17:27. 6. The Doom of Sodom. Gen. 18; 1-19:29. 7. The Offering of Isaac. Gen. 22:1-19. 8. Finding a Wife for Isaac. Gen. 24. 9. Jacob's Deception. Gen. 25:27-34; 27:1-28:9. 10. The Deceiver Deceived. Gen. 29:1-30:43. 11. Jacob at the Jabbok Gen. 31:1-32:32. 12. Joseph Sold by his Brothers. Gen. 40:1-41:57. 13. Joseph the Interpreter of Dreams. Gen- 40:1-41:57. 14. Joseph's Generosity to his Brothers. Gen. 42:1-44:34. 15. Joseph's Loyalty to his Family. Gen. 45-47. 16. Moses' Preparation for Leadership. Exodus 1-2. 17. Moses' Call to Deliver Israel Exodus 3. 18. The Deliverance from Egypt. Exodus 11-12. 19. The Covenant at Sinai. Exodus 20. 20. The Report of the Hebrew Spies. Num. 13-14:25. 21. The Balaam Oracles. Num. 22:1-24:25. 22. Crossing the Jordan. Joshua 2, 3. 23. The Capture of Jericho. Joshua 6, 7. 24. Deborah's Battle Song. Judg. 4, 5. Judg. 6-8. 25. The Sword of Jehovah and of Gideon. 26. Sampson the Hero of a Barbarous Age. Judg. 13-16. 27. The Idyl of Ruth. Ruth. FOR SOUTH DAKOTA 15 28. Samuel's Boyhood Training. 1 Samuel 1-3. 29. Samuel's Discovery of a Leader. 1 Samuel 9. 10 30. Saul's Election as King. 1 Samuel 11. 31. Jonathan's Achievement at Micmash. 1 Samuel 14. 32. David the Popular Hero. 1 Samuel 17, 18. 33. Jonathan the Loyal Friend. 1 Samuel 19, 20- 34. David the Outlaw. 1 Samuel 21-27. 35. Saul's Death and David's Lament. I Samuel 31, II Samuel- 36. Bringing the Ark to Jerusalem. II Samuel 6; Psalm 24. 37. A King's Treachery and Nathan's Parable. II Samuel 11; 12. 38. The Disloyal Son of a weak Father. II Samuel 13; 1-18:33. 39. A Popular Declaration of Independence. I Kings 12. 40. Elijah's Protest Against Baalism. I Kings 17; 1-19:18. 41. Elijah's Defense of Popular Rights (Naboth's Vineyard). I Kings 21. 42. The Elisha Stories. I Kings 19:19-21; II Kings 2-9; 13:14-21 43. The Young Prophet Isaiah. Isaiah 5, 6. 44. Jerusalem Delivered from Sennacharib. Isaiah 37; Psalm 46 45. The Faith of the Exiles. Psalms 42-43. 46. Daniel and his Three Friends- Daniel I. 47. The Feast of Belshazzar. Daniel 5. 48. Daniel in the Lion's Den. Daniel 6. 49. A message of Comfort to the Discouraged Exiles. Isaiah 4. 50. A True Servant of Jehovah- Isaiah 42: 1-6; 52; 13-52; 12. 51. Nehemiah the Builder. Neh. 1, 2; 4:33-5:19; 7:1-3 12; 31, 32, 37-40, 43. 52. A Narrow-minded Nationalist. Jonah 1:1-2; 1; 3, 4. 53. The Nature of Wisdom. Proverbs 8. 54. The Source of Wisdom. Job 28. 55. The Wonders of the Universe. Job. 38. 56. Youth and Old Age. Eccl. 11:9-12:8. 57. The Righteous Ruler. Psalm 72. 58. The Security of the One Who Trusts God. Psalm 91. 59. The Creator and Preserver of Man. Psalm 33. 60. God the Eternal- Psalm 90. Aims 1 . In general to enable boys and girls to understand and assimilate the thought and to feel the beauty and the spiritual in- spiration of those Old Testament masterpieces that appeal most strongly to their interests and needs. 2 . To supply the geographical setting and the literary and cultural atmosphere required to understand what each narrative and song sets forth. To retell or dramatize each narrative, to trace the development of the thought in each song and to help the students to formulate the principles of life which each narrative or song sets forth. Method 1 . The Bibical text used may be either the Authorized Version, the American Revised, the Douay Version, the Holy Bible Translated from the Latin Vulgate, the New Translation of the Holy Scriptures issued by the Jewish Publication Society of America, or a standard modern translation, as for example, that of the Shorter Bible. 2. In narratives where two versions have been combined, it is desirable, for the sake of literary unity, to follow the older version, and therefore books giving only this simpler text is preferable as a basis for classroom work. 3 . In general the same methods are to be employed in realizing 16 HIGH SCHOOL MANUAL the aims of this course as are followed with students of the same age in the study of English Literature. The main emphasis is to be plac- ed on the mastery of the contents and on intellectual and spiritual inspiration rather than on the minute analysis of the literary form of each narrative and song. COURSE II. (One-Half Unit) I. History of the Hebrew Commonwealth. Contents The political, social and cultural development of the Hebrew people from the Egyptian bondage to the destruction of the Jewish state by Rome Aims To give in form adapted to boys and girls a clear knowledge — 1 . Of the physical and historical geography of Palestine and of the larger world in which the Hebrews lived and developed. 2 . Of the leading races and of the intellectual and social forces with which they came in contact. 3 . Of the important periods, characters and events in their history. 4. Of the ways in which their institutions, such as the family, the state, the Church and the school developed. 5 . Of the gradual unfolding of those religious beliefs and demo- cratic ideals that constitute the chief contributions of the Hebrews to the faith and civilization of mankind. Method 1 . Definite daily assignments in a text book carefully adapted to the interests and mental capacity of the young student and largely biographical in method, in which unimportant data will be omitted, and the leading characters and events of the history will be made vivid, each institution studied in the lights of its social setting. 2 . Special assignments to the Biblical sources and to selected books of reference. 3 . Frequent, papers, classroom discussions and tests. 4 . The newer methods and standards of work that are main- tained in the corresponding courses in European and American history. COURSE III (One-Half Unit) I. Life ami Work of Jesus and Paul. Contents The development of Christianity from the Reign of Augustus to the persecution of Domitian. Aims 1 . In general to give students such vivid impression of the work and personality of Jesus and his early followers that they spon- taneously accept and apply his principles of living. 2 . In detail to give a clear idea of the contents and nature of the records of the life work of Jesus and his early followers. 3. To study — a. The geographical and historical setting of this work and the convictions and hopes in the minds of the people to whom they spoke. b. Jesus' early home training and the home of John the Baptist. c. The Purpose and plan of Jesus' public activity. d. The conditions which confronted him in Galilee and FOR SOUTH DAKOTA 17 Jerusalem. His methods, his dauntless enthusiasm and the result of his work. e. The events that led to his death and the facts underlying the Resurrection stories. f. Jesus' chief teachings regarding the right relation be- tween God and man, between man and his neighbor, each man's duty to society, the use of wealth and the essentials for true happiness. g. The life of the early Christian Communities at Jerusalem and Antioch. h . Paul's personality and early training. i. His conversion and the successive stages in his work. j. Paul's chief social teachings- k . The hopes and experiences of Jesus' followers during the last half of the first Christian century. 1. The contributions of early Christianity to human thought and civlization. Methods In general the same as in Course II. As a guide in this course the following outline is suggested: A — Jesus 1 . Extent and Power of the Roman Empire in Jesus' Day. 2 . Little Palestine, and its Sad History. 3 . The Religious Convictions and hopes of Jesus' People. 4. Jesus' Early Home Training. Mk. 1-9; 6-3. 5 . Boyhood Traits as Reflected Back from His Public Ministry. Mk. 6. 2-4; 10.7-9;9.36; 10.13-16; Lk. 241-50; 15.1-2, 10. 6. The Influence of John the Baptist upon Jesus. Mk. 1.1-11. Lk. 7.18-28. 7. Jesus' Dedication to His Prophetic Work. Mk. 1.9-11 Lk. 4.1-13. 8. The Happy Beginnings of Jesus' Work. Mk. 1.14 Lk. 4.14a. Mk. 1.15. Lk 416-22a. 9. His Contagious Enthusiasm for His Work. Mk. 1.16-20, 21-22, 27a, 28, 35-39; 6.6b-ll, 30-34, 45-46. 10. His care for the Needy. Mk. 1.23-26, 30-34, 40-45; 2.1-5, 11-12. 11. His Message of Joy and Helpfulness. Mk. 2.18-19, 21-22. 23-27, 3-1-4 Mt. 12. 11-12. Lk. 15. 12. His call for Men of Sterling Character. Lk. 6.12-13a. Mk. 3.14-19. Mk. 55. 7-12, 13-16, 20, 23, 27-28. Lk. 6 27-28, 31-36; 11.33-36; 14.25-35. 13. Jesus' Disgust with Mere Formalities in Religion. Mt. 5-20, 33-37; 6.1-4, 5-7, 16-18. Mk. 7.6-8. Mt. 15.13, 14a. 14. Discovering the Good in Other People. Lk. 6 37-38, 41-42, 39. 15. Absolute Sincerity in Religion. Mt. 7.15. Lk. 6 43-49; 11.37-44-48, 51b. 54. Mk. 12.38-40. 16. Jesus Clashes with the Teachers of His People. Lk. 11. 19-20. Mk. 7. 1-2, 5-9, 14-15. Mk. 3.23-30; 811-13, 15. 17. His family and friends turn against Him. Mk. 3-19-21, 31- 35; 6.1-6. Mt. 10.34-39. . 18. How Jesus Rose Above His Disappointments. Mk- 4.1-9. Mt. 13.44-45. Lk. 10.2-5, 11, 16, 21, 23-24. 19. His Optimism in Face of Great Odds. Mt- 13.24-30. Mk. 4.26-29, 30-32. Mt. 13.33. 20. Jesus Driven into Exile. Mk. 3, 6; 7-24, 31; 8.10-13, 27. 18 HIGH SCHOOL MANUAL 21. He Spurns Peter's Suggestion of Political Ambition. Mk. 8.27-30; 51, 33, 34-37; 9.1. 22. A Prophet's Mission and a Prophet's Doom. Mk- 9.2-4, 7-8. Lk. 9.30-32. Mk. 9.30-31a. Lk. 1249-51. 23. Living for the Good of Others. Mk. 9.33-36. Mt. 18.4. Mk 9.38-40. Lk. 11. 27-28. Lk. 17. 7-10. Mk. 10. 35-44, 18. 24. The Fight for Nobility of Life Mk. 9.43-50. Lk. 10-31-42; 13.22-25. 25. The Sacredness of a Child's Faith. Mk. 9.42. Mt. 18.10, 14. Mk. 10.13-16. 26. The Spirit of Godlike Forgiveness. Mt. 18-15. Lk. 17.3-4; 9.51-56. Mt. 18.23-35 Mk. 11.25. 27. Wholehearted Devotion to God- Lk. 9.57-62. 28. How to Make Prayer a Vital Reality. Lk. 11.1-4; 18.9-14. 29. God's Thorough Understanding of all Human Need. Lk. 11.5-13- 30. Loyalty to Conviction. Lk. 12.4-7. 31. The Dangers of Wealth. Lk. 12.13-21; 1619-31. Mk. 10.17, 19-27. 32. All Life Under the Sway of God. Lk. 12.35-40, 42-48; 16- 10-13; 1720-21. Mk. 13.28-32a. 35-36. 33. The Divine Love for the Wayward. Lk. 7.36-50. Mt. 11.28-30. Jno. 753-8. 11. Mt. 21.28-32. Lk . 15. 34. Jesus' Appreciation of the Religion of Non-Jews Lk. 10. 30-37; 7.1-9. 35. His Sorrow over the Hardened Spirit of the Jewish Teachers. Lk- 14. 15-24. Mk. 10. 32 Lk. 19-41-44. Mt. 21. 10, 11 Mk. 11. 11, 15-19. 36. Jesus' Fight to Protect the Home. Mk. 10. 2-12. 37. Jesus' Definition of "Salvation" and "Real Religion," Mk. 10. 17, 19-27. Lk. 19.11-10- Mk. 12.28-34. 38. Jesus Sees the Hopelessness of His Nation under their pre- sent Leadership. Mk. 12. 1-5, 9, 12. Mt. 22- 1-10. Mk. 13.1-2. 39. The Heroic Death of Jesus. Mk. 14.32-42, 43-49a, 50, 53- 61a, 15. 1-5, 15-20, 21-32. 33, 37, 39-41- 40. The New Life Which Jesus Imparted to His followers. Lk. 24.13-35. Jno. 1.4, 5. 16-18; 3. 16; 8.12; 10.10-11, 16; 12.24-25, 32; 13.34-35; Chap. 21. B — Paul 1. Saul — Paul and his Early Life in Tarsus- 2 . His Career as a Rabbinicial Student and Persecutor of Heretics. 3. How Paul was won by Jesus. Gal. 1.10, 15, 16; 2.7, 19, 20; 4.6, 7; 5.14; 5.22-24; 6 15, 16. Acts 9.3-19a. 4. His first work as a Disciple of Jesus. Acts 9. 19b-31. 5. His broader work at Antioch and Galatia. Acts 13.1-4- 28. 6. How Christanity became a World Religion. Gal. 2.1-10, 11-14. Acts 15. 1-35. Gal 2. 15-21; 5. 1-6:10. 7. The First Christian Churches in Europe. Acts 15. 36-19. 1. 8. to 10. Paul's Work for the Corinthian and Ephesian Churches. Acts 19. 1-21:14. I and II Corinthians. 11. and 12. His Anticipations of Work in Western Europe. Romans. 13. His Disappointing Imprisonment at Jerusalem and Caesarea. Acts 21. 15-26. 14. To Rome as a Prisoner. Acts 27. 1-28:16. 15. His last work in the Roman Prison. Acts 28. 17-31, Phile- mon. Clossians. Philippians. Note: As a desirable preparation for later Bible work it is recommended that students between the ages of nine and thirteen, FOR SOUTH DAKOTA 19 either in the home or the school, be directed and encouraged to commit to memory the following Biblical passages: Old Testament 1. The Ten Commandments. Exodus 20. 1-17. 2. The two Great Commandments. Deut. 6:4, 5 and Lev. 19:18b 3. Ten Great Proverbs. (1) Prov. 16:3; (2) 29:11; (3) 16:32; (4) 16:8; (5) 15:7; (6) 15:1; (7) 16:18; (8) 26:27; (9) 11:25; (10) 14:34. 4. True Religion. Micah 6:8; Isaiah 58:5-9b. 5. The Two Ways of Thinking. Psalm 1. 6. The Psalmist's Decalogue. Psalm 15. 7. The Psalm of Trust. Psalm 23. 8. God's Message through His Works and Word, Psalm 19. 9. The Goodness of God. Psalm 103. 10. God's Rule on Earth. Isaiah 2:1-4. New Testament 1. The First Christmas. Luke 2:8-18. 2. Jesus' Love for Children. Matt. 19:13,14. 3. A Universal Prayer. Matt. 6:9-13. 4. Golden Rule. Matt. 7-12. 5. The Beatitudes. Matt. 5:3-12. 6. Ten Sayings of the Great Teacher. (1) Matt. 7:7-8; (2) Matt. 7:1; (3) Luke 12:48b: (4) Matt. 6:1, 3; (5) Luke 6:38; (6) Mark 10:43b, 44; (7) Matt. 7:16, 17; (8) Matt. 6:21; (9) Matt. 5:44, 45; (10) John 15:13. 7. The Parable of the Good Samaritan. Luke 10:30-37. 8. Right Thinking. Phil. 4:8. 9. Paul's Song of Love. I Cor. 13. 10. The Value of the Bible. II Timothy 3:16, 17. 20 HIGH SCHOOL MANUAL COMMEKCIAL I. Suggested Course of Study for Commercial Students: First Year. Second Year English I. English II. Elementary Algebra Plane Geometry Elective Bookkeeping Elective Elective Third Year. Fourth Year English III. English IV. Year of Science American History and Civics Com. Arithmetic and Geography Typewriting Com- Law and Salesmanship Shorthand II. Explanatory: 1 . In this course, the bookkeeping, typewriting and shorthand work is to be done in five eighty-minute periods (in the clear) per week throughout the year. 2 . Schools desiring to extend the work in typewriting and shorthand over two year periods may do so by offering bookkeeping in the first year of the course, commercial arithmetic and geography in the second year, and typewriting and shorthand as half unit courses each in the third and the fourth years. If this is done the courses in commercial law and salesmanship should be offered in the fourth year, allowing an elective in the third year. 3 . Since four units of work in English are required of all students for graduation from high school. Business English is not offered in the foregoing outline. Schools desiring to offer a unit's work in Business English in addition to the English Course outlined elsewhere in the Manual may do so as an elective in the second year- If this is not done, Business English shall be emphasized throughout the four years of required English so that the students upon graduation, shall have acquired the necessary training which mastery of this subject gives. Double Entry Bookkeeping (One Unit) I. First Six Weeks: 1 . Fundamental Principles and Bookkeeping Terms. Debiting and Crediting, Journalizing, Posting, Trial Balance, Statements, Opening and Closing Accounts in the Ledger, Notes Receivable. Notes Payable, Inventory, Business Tran- sactions, Merchandise, Cash, Expense, Etc. 2 . Classification of Accounts. a. Real accounts. 1. Assets — Cash, notes receivable, accounts receivable, inventories, real estate, buildings, fixtures, office furniture, and delivery equipment. 2 . Liabilities — Notes payable, accounts payable. 3 . Proprietary Interest Accounts — Proprietor investment, proprietor drawing and profit and loss. b . Nominal Accounts. 1 . Income Accounts — Merchandise sales, interest earned, merchandise discount on purchase. 2 . Expense Accounts — Merchandise purchases, salaries, freight and cartage out, delivery expense, insurance, FOR SOUTH DAKOTA 21 office supplies, sundry general expense, interest paid, merchandise discount on sales, collection and ex- change. 3 . Books of Original Entry — Journal, Cash Book, Sales Book, Purchase Book. 3 . Books of Classified Accounts — Ledger. 4 . Auxiliary Books — Check stubs, note stubs, draft stubs, re- ceipt stubs, and bank pass book. 5. Business Papers — Bills or invoices, receipts, checks, notes, statements. 6 . Supplementary Exercises in Text II. Second Six Weeks. 1 . Review Fundamental Principles. 2 . Business Papers — Invoice, check and note. 3 . Introduction of the Cash Book. 4 . Blank Set with Text used covering above material. 5 . Supplementary Exercises in Text. III. Third Six Weeks- 1 . Introduction of Purchase Book and Sales Book 2. Bank Account — Bank, deposit, checks, pass book, bank statement, receipt, invoice, and promissory note. 3 . Checking Errors in Trial Balance. 4. Blank Set with Text used covering above material. 5 . Supplementary Exercises in Text. IV. Fourth Six Weeks. 1 . Partnership — Articles of Copartnership. 2 . Introduction of the Three Column Cash Book. 3 . Blank Set with Text used covering above material 4 . Supplementary Exercises in Text. V. Fifth Six Weeks- 1 . Introduce Journal Method of Closing. 2 . Business Papers — draft, bill of lading, monthly statement of accounts, orders, telegrams. 3 . Blank Set with Text used covering above material. 4 . Supplementary work in Text. VI. Sixth Six Weeks. 1. Finish blank sets. 2 . Supplementary Exercises in Text. 3 . Review. COMMERCIAL ARITHMETIC (One-half Unit) I. Aim: 1 . Absolute accuracy and as much speed as the pupils are capable of developing in the time allowed for this subject in computation demanded in general by the business world 2 . A working knowledge of commercial forms and commercial processes in general use in the business world. II. Suggestions as to the Course: 1 . While a text book is essential in this course, the teaching must omit from the course such content of the text as is not essential in realizing the aims of the course. 2 . The work done in commercial arithmetic should be closely related to business procedure of the community so that the students may realize that what they are doing in this course is what the business world demands. 3 . The instructor must realize that this is not essentially a review of work done in the grades, but that the art of general computation is what is being taught. 22 HIGH SCHOOL MANUAL 4 . All so-called short cuts which may be of special value in any given business, but which have no application in the general business world are to be omitted. 5 . Credit for work done in this course shall depend on progress made in developing habits of accuracy and speed and compu- tation, and shall be denied if such development has not resulted. < ( >MMERCIAL GEOGRAPHY (One-half Unit. I . Aims : 1 . The student completing this course should know. a. The natural resources of the world, and especially those of his own nation. b. The commercial interests and activities of the nations of the world, and especially those of the United States- c. The effect which these natural resources and commercial activities have had upon his own life, and the opportuni- ties for future accomplishment which they offer him. II. Suggestions as to the Course: 1 . Commercial geography to be worth while, should be approach- ed and pursued from the standpoint of cause and effect rather than from the standpoint of the much used .fact- memory method. 2. The pupil should study the effect of latitude and terrestrial wind systems, and topography until, given the location and topography of a country, he is able to determine her natural resources in so far as they are determined by these factors. 3 . Other determining factors of natural resources should be studied with the same end in view. 4 . The pupil should relate the natural resources of a nation to its commercial interests and activities as to cause and effect. 5 . He should relate both the natural resources and the com- mercial interests and activities of this nation to his own life. 6 . The students will be interested in materials which can be secured from state immigration departments and chambers of commerce showing the natural resources and commercial activities of all parts of the United States and they should secure this material through their own correspondence. 7 . The students should become familiar with the Consular Ser- vice through their research work in connection with the com- through their research work in connection with the com- mercial geography of foreign nations. (Secure the last Consular Report from Washington. D C). COMMERCIAL LAW (One-half Unit.) I. Aims: 1 . The student shall know the conditions and limitations of business. 2 . Their personal rights and responsibilities in the business world. 3 . How to avoid litigation by observing the laws governing business transactions II. Suggestions as to the Course: 1 . Emphasize: a. The nature and essentials of the contract. b . The nature of property and property rights. c. Bailments. d . Negotiable instruments. FOR SOUTH DAKOTA 23 e. Partnerships and corporations. f. Agency. g . Insurance. h . Real property and titles, including deeds, mortgages and liens. 2 . In this, as in similar commercial courses, there should be no attempt at specialization. Only matters pertaining to the general business world should be included in this work SALESMANSHIP I. Aims: Salesmanship should be studied that the student may — 1 . Know the problems and methods of salesmanship that the fullest cooperation may exist between him in his work in the business office and the sales force of his employer. 2. Have a preliminary training which shall arouse interest in the production phase of business to the end that the student may finally enter the sales force and increase his own earning power, should he so desire. II. Suggestions as to the Course: 1 . Advertising. a . Importance to business and to the purchaser. b. Methods of advertising and relative value of each. c. Psychology of suggestion in advertising. d . Advertising in closing the sale. 2 . Selling. a. Importance of study of the line. b . Importance of studying the prospective customer and his needs c. The negative approach in selling. d. The positive approach in selling. 1 . Curiosity. 2 . The need, the desire. 3 . Closing the sale. e . Methods and value of displaying the line. 3 . This course offers a large field for practice by the students in actually doing the things about which they are studying. They should have charge of the advertising of all school activities such as games, entertainments, carnivals, bazaars and other sales put on by the school. Business men will be interested in their advertising work and will furnish them with opportunity to do real work in advertising if properly approached in the matter. These same sources will give the students an opportunity to practice salesmanship also A sales room in connection with schools giving voca- tional work is an easy possibility in the schools of the state. This room will allow the class to practice in dis- playing and selling goods made by the students of vocational courses and will do much to secure the enthusiastic support of the community in the school and its activities. TYPEAVKITING (One Unit) I. Aim: To secure credit for this course the pupil shall write forty words per minute for ten minutes without more than five errors. II. Suggestions as to the Course: 1. Grading Papers: Daily work is all checked for any errors, erasures, or overstrikes. Papers must be rewritten when they show erasures or overstrikes and when they are not written as assigned. While speed tests are not to be empha- 24 HIGH SCHOOL MANUAL sized till the second half of the work, the following standards of grading shall be followed in the first semester. Twenty-five words per minute for ten minutes using new material secures a hundred per cent grade. Fifteen words per minute for ten minutes using new material secures the minimum passing grade of seventy five per cent. Above the minimum passing rate add two and one-half per cent for each word written per minute for ten minutes using new material. First Semester (or Year). 2 . Technique. a. Sitting Position — height of table, twenty-five or twenty- nine inches, shoulders erect, directly in front of machine, wrists level, elbows straight with shoulders, hands easy slant from keyboard, fingers must be curved, strike with tip of finger, wrist level, quick, firm touch with fingers. b. Third finger drilling. c. Fingers over guide keys. d. Little fingers on anchor keys. e. Bring fingers back to guide keys. f. Space bar — May be struck different ways Best first one thumb and then the other. g . Proper way to return carriage — Left hand shift return with hand, right hand shift with thumb. 3 . Touch Mastery of Keyboard. 4. Working knowledge and Features of Machine — -Inserting and removing the paper, spacing and beginning a new line, releasing the carriage, operating space bar, inspecting the writing, adjustment of the paper, the scales, the printing point, the back spacer, line space gauge, cleaning type and machine, the paper guides, the marginal stops, the marginal release, regulating carriage tension, the envelope holder, the paper side guide, line spacer, tabulator, shift key, ribbon movement, changing ribbons, oiling machine. 5 . Work for steady development of speed 'with increased ac- curacy. 6 . Practise exercises for finger action, perfection technique, and increasing speed. 7 . Special emphasis on use of figures and signs. 8 . Write words of high frequency. 9 . Write words of different combination. 10. Write finger twister alphabetical sentences, etc 11. Study of correct letter forms, telegrams, cablegrams, and de- tails of business correspondence. Second Semester (or Year). I. Grading: The minimum rate for a unit of credit for typewriting shall be thirty words per minute of new material for ten minutes, which secures a grade of seventy five per cent. Add two and one-half per cent for each word the rate is increased. A rate of forty or above secures a one hundred per cent grade. II. Suggestions as to course: 1. Work for high speed and 100 per cent accuracy. 2 . Speed and accuracy tests from one to ten minutes on new and practical material. 3 . Present day business and office methods. 4 . Spelling tests on machine. 5 . Preparation of constitutions and by-laws- 6 . Convention and club programs. 7 . Difficult tabulation. FOR SOUTH DAKOTA 25 8. Billing, bank statements, report, railroad and other financial statements. 9 . Legal forms. 10. Stencil cutting. 11. Direct dictation. SHORTHAND (One Unit) I. Aim: To secure one unit of credit in shorthand, the student shall be able to take one hundred letters dictated at from eighty to one hundred words per minute with ninety five per cent accuracy, and pass a test of five hundred words dictated at the rate of one hundred words a minute with not more than twenty five errors. II. Suggestions as to Course: 1 . Follow the manual adopted by the Board of Education. 2 . At the request of practically all the commercial teachers in the state, the following outline of the Gregg System of shorthand is herein inserted. This is in no sense an adop- tion or a recommendation for adoption of this system for the state- Gregg System of Shorthand. I. Text — Gregg's Shorthand Manual. Supplementary texts — Gregg's Speed Studies, Gregg Writer, Beginners Letter Drills, Gregg's. Supplementary Exercises, and Gregg's Progressive Exercises. Also Constructive Dictation, by E. H. Gardner. II. First Semester. 1 . Principles and rules of shorthand. a. Rules for joining circles. b . Rules for circles taking the form of a loop. c. Location of word on line. f. Rules for W and Y. d. Rule for the O hook. g. Rules for joining S with Tt e. Rule for the OO hook. h. Rules for expressing R. 2 . Word signs and simple phrasing. 3 . Diphthongs. 4 . Blended Consonants. 5 . Compound words and abbreviations. 6 . Read all the sentences in the first ten lessons of the Manual and Gregg Writer. 7 . Vocabulary Drills. 8 . Dictation of simple sentences from Gregg's Supplementary Exercises. Gregg's Progressive Exercises and the Gregg Writer. 9 . Complete first ten lessons of Manual. III. Second Semester. 1 . Drill on phrase writing from manual, Speed Studies and Gregg Writer. 2 . Rules for the omission of vowels. 3 . Master prefixes and suffixes, joined prefixes, compound join- ed prefixes, tr principle, disjoined prefixes, compound dis- joined prefixes, joined suffixes, disjoined suffixes- 4 . Advanced phrase writing. 5 . States and territories. 6 . Principal cities. 7 . Points of compass. 8 . Vocabulary drills. 9 . Review word signs. 10. Finish Speed Studies. 11. Drill in dictation until aim of course is accomplished. 12. Test as described in the statement of the Aim in shorthand- 26 HIGH SCHOOL MANUAL ENGLISH FOUR YEAR COURSE Xo attempt is made in this syllabus to give an exhaustive treat- ment of the study of English. The aim is to give to all schools working under widely varying conditions, the same working basis. Each school is free to work out the details of the course according to the methods best adapted to the particular school. The English includes the study of composition, grammar, rhetoric, literature and oral expression. The study of literature, composition and oral expression should be emphasized each year of the course. Four units of English credit are required of all students for graduation. COMPOSITION The study of composition as a whole should be given very careful attention. After the completion of the composition course, the pupil should be able to produce a theme correct as to formal detail, spelling, grammar, punctuation, and written in a neat, legible handwriting. Forming right habits should be the primary aim the first two years- Nothing can accomplish this but thorough drill, consistently and per- sistently carried on. The study during the third and fourth years should strengthen habit and become the basis for more advanced thinking and more finished expression. Expression in writing includes:* 1 . Ability to write a courteous letter according to forms in general use, and of the degree of formality or informality appropriate to the occasion. 2 . Ability to compose on first draft a clear and readable para- graph or series of paragraphs on familiar subject matter with due observance to unity and order, and with some specific detail. 3 . Ability, with due time for study and preparation, to plan and work out a clear, well ordered, and interesting report of some length upon one's special interests — literary, scien- tific, commercial, etc. *Report of the Commission of National Joint Committee on Re- organization of English. There are three clearly defined methods of teaching composition: First — that which depends upon good models and the pupil's faculty of imitation — a method which lays stress on reading in the teaching of composition. Second — that which permits the pupil to write in his own way of his own experiences, and then points out his errors and leads him to discover and apply the principles of writing — a method that emphasizes the development of the pupil's personality. Third — that which frankly presents the principles and rules and requires the pupil to apply them in his writing. These may be termed the imitative, inductive and deductive methods. One method may be best for one pupil, another for another, or all may be effective at different stages of the pupil's development The teacher should employ any means that will serve best the needs of the individual pupil. FOR SOUTH DAKOTA 27 ORAL COMPOSITION Since oral expression is used more than written expression, the value cannot be over-emphasized. Expression in speech includes:* * New York State Syllabus. 1 . Ability to read ordinary prose and poetry aloud intelligently and expressively. 2 . Ability to answer clearly, briefly and exactly a question on which one has necessary information. 3 . Ability to collect and organize material for oral discussion. 4 . Ability to join in a conversation or an informal discussion contributing one's share of information or opinion, without wandering from the point and without discourtesy to others Every English recitation should aim to improve the speech of the pupil. Each department in high school should co-operate with the English department by insisting upon good oral work in recitations. Success in overcoming bad habits of speech and acquiring good ones, requires absolute uniformity in the enforcement of standards by all teachers in the school. LITERATURE There are at least three reasons for teaching literature: First — to teach a love for reading; Second — to deepen and enrich the life of the pupil through his power to read with appreciation; Third — to stimulate the pupil's power of self-expression. Everything possible should be done to create a love for reading where the tendency is lacking. One the other hand the indiscriminate reader should be guided in order to cultivate a taste for good read- ing. Very little, if any, intensive and critical study should be done the first two years. Such work should be left for the junior and senior years. Extensive reading and class-room discussions, if skill- fully handled, will create and stimulate a taste for good literature. REQUIRED OUTSIDE READING AND REPORTS Before a pupil may receive credit for any year's work offered in this outline he shall have read and reported, either orally from an outline or faith a written report, the content of enough books selected from the READING LIST of that year's work to total twenty points. Each book in the several lists has been assigned a value. If a fresh- man should read and report during the first semester, the first four books in the list for the ninth grade he would thereby earn eleven points, thus completing his semester's outside reading. The instruc- tor should insist that each semester's work in outside reading and re- ports be completed early in the semester. The purpose of this work is to develop reading habit, and an appreciation of literature. The former aim must be realized first, and to this end the pupil should be allowed to select from these lists whatever interests him. ENGLISH — FIRST YEAR (One unit) FIRST SEMESTER: The work of the semester is divided thus: composition, word study, grammar and literature with the greatest stress upon com- position and grammar. Composition — The aim in teaching composition in the first year is to teach accuracy. Short themes, both oral and written, based primarily upon the child's experience should be required every day during the weeks devoted to composition. Emphasis should be placed upon sentence and paragraph unity, coherence and clearness. Devote the semester's work to narration with some emphasis upon descrip- 28 HIGH SCHOOL MANUAL tion. Give special attention to spelling, capitalization, punctuation and penmanship. No paper dificient in penmanship and spelling should be accepted, no matter how proficient in other details. Oral Expression — Definite time should be given to oral work which should be planned as carefully as the written composition. Short talks to the class on subjects interesting to the class should be given frequently. Devote some time to current events and memorizing selec- tions from poetry and prose. "" Word Study- — A good text on word study should be in the hands of each pupil. Drill in the use of the dictionary should be given early in the course. The pupil should be able to find a word quickly, un- derstand the signs of syllabification, accent, pronunciation and deri- vation. Lack of facility in expression is not due to lack of ideas, but to the lack of means to express ideas. Grammar — The purpose of the study of grammar is to develop "sentence sense" and to give the pupil a working use of grammatical principles that will enable him to correct his own mistakes and lay the foundations of correct speech. Therefore, the work in grammar should include the analysis of sentences, consisting in drill in syntax of words, phrases and clauses. Avoid intricate constructions which are beyond the mental ability of the class. Do not indulge in routine parsing. To give the pupil knowledge of grammatical principles, drill to overcome errors in the following — 1 . Agreement between subject and verb. 2. Agreement of pronoun with antecedent. 3 . Confusion of tenses, especially of the present tense with the past tense or the past tense with the present parti- ciple. 4 . Confusion of verbs. 5 . Use of double negatives. 6 . Confusion of adjectives and adverbs. 7 . Use of wrong case. Literature — The purpose of the study of literature in the first year is to create a love of reading. Read for the joy of reading. Do not kill the interest in a good book by intricate study or by dwelling too long upon the book. Two classics are recommended for class study each semester. They should consist mainly of narration. The follownig classics are suggested for class study for the first semester. Choose one narrative poem, and one novel. The Ancient Mariner, Coleridge The Lady of the Lake, Scott Snowbound, Whittier Selections from American poetry. (About sixty pages from any standard collection.) Old English Ballads. (Any standard collection.) The Last of the Mohicans, Cooper Selections from the Odyssey Treasure Island, Stevenson Stories of the Day's Work, Selected Modern Readings; Davis & Getchel SECOND SEMESTER: Composition — Continue the work in theme writing, occasionally requiring a theme of greater length. Require outlines for each com- position. Much drill should be given letter writing, both the busi- ness and friendly letter. Stress the substance of the letter as well as correct form. Word Study — Continue the work of the first semester. Give special attention to synonyms. At the end of this semester the pupil FOR SOUTH DAKOTA 29 should be reasonably accurate in spelling and pronunciation, and should have increased his vocabulary considerably. Grammar — The grammar drill during this semester should con- sist of sentence analysis and drill on the "minimum essentials." Only those parts of grammar should be taught which can be made useful to the child in his writing and speaking. Literature — During this semester study one drama and one other selection. Encourage much outside reading. It is not essential that a pupil give a long and technical report on his reading during the first year. The following are suggested for class study: Old Testament Stories Tales of a Wayside Inn, Langfellow. Boy's King Arthur, Lanier. The Jungle Book, Kipling. As You Like It, Shakespeare. First Year Reading List: 2 Alcott, L. M., Eight Cousins; Little, Brown Co. 2 Alcott, L. M., Joe's Boys; Little Brown Co. 2 Alcott, L. M., Little Women; Little, Brown Co. 2 Aldrich, Story of a Bad Boy; Houghton-Mifflin. 3 Allen, Flute and Violin; Harper. 2 Bacheller, Dri and I; Grosset. 3 Barrie, Little Minister, Crowell, Boston. 3 Barrie, Peter and Wendy, Scribners. 2 Bishop, Bob Thorpe-Sky Fighter. 2 Catherwood, Story of Tonty; McClurg, Chicago. 3 Clemens, Prince and the Pauper, Harper, New York. 3 Connor, Glengarry School Days, Revell, Chicago. 3 Cooper, Last of the Mohicans; Dutton, New York. 3 Cooper, Deerslayer; Dutton, New York. 3 Davis, Victor of Salamis; Grosset, New York. 2 Dickens, Christmas Stories; Dutton, New York. 3 Dickens, Oliver Twist; Dutton, New York. 2 Doyle, Adventures of Sherlock Holmes; Harper, New York. 2 Dodge, Hans Brinker; Grosset, New York. 3 Eggleston, Hoosier Schoolmaster; Grosset, New York 2 Ewing, Flatiron for a Farthing; Burt. 2 Ewing, Jan of the Windmill; Burt. 2 Field, Eugene; Christmas Tales and Christmas Verse. 3 Fox, Little Shepherd of Kingdom Come; Scribner, New York. 2 Gates, Biography of a Prairie Girl; Century, New York. 2 Griswold, Latta, Deering of the Deal; MacMillan. 3 Goss, W. L., Life of Grant for Bays; Crowell, New York. 3 Hawkins, Prisoner of Zenda; Holt. 2 Hasbrouck, L. S., Boy's Parkman; Little, Brown Co. 2 Hawthorne, Grandfather's Chair; Houghton-Mifflin. 2 Hough, Story of a Cowboy; Appleton. 3 Hughes, Tom Brown's School days; Harper, New York. 3 Irving, Tales of a Traveler; Houghton-Mifflin. 4 Jackson, Ramona; Little, Brown Co. 2 Lang, Andrew, Story of Joan of Arc. 2 Lucas, E. V., Slow Coach. 2 Lee, M. C, Quaker Girl of Nantucket; Houghton-Mifflin. 2 Moore, N. H., Deeds of Daring Done by Girls. 2 Martin, Emmy Lou; Doubleday, New York. 2 Muir, Stickeen; Houghton-Mifflin. 3 Nicolay, Helen, Boy's Life of Abraham Lincoln; Century, N. Y. 1 Richards, L. E., Captain January. 3 Rihbany, Hidden Treasure of Rasmola. 30 HIGH SCHOOL MANUAL 2 Seton, Biography of a Grizzly; Doubleday, New York. 2 Seton, Two Little Savages; Doubleday, New York. 2 Smith, Caleb West; Houghton-Mifflin. 2 Stoddard, Dab Kinzer; Scribners. 3 Spyri, Johanna, Heidi; Ginn & Co. 3 Stevenson, Black Arrow; Scribner. 3 Stevenson, Kidnapped; Scribner. 3 Trowbridge, Cudjo's Cave; Lothrop. 2 Trowbridge, Tinkham Brother's Tide Mill; Lothrop. 3 Tarbell, He Knew Lincoln; MacMillan Co. 3 Tarkington, Gentleman from Indiana; Doubleday Co. 3 Van Dyke, The Blue Flower; Scribner. 3 Verne, Around the World in Eighty Days; Dutton. 3 White. Blazed Trail; Doubleday. Non-Fiction: 5 Antin, Promised Land; Houghton-Mifflin. 2 Bishop, The Story of the Submarine. 3 Bolton, Sarah, Lives of Girls who Became Famous; Crowell. 4 Bond, Inventions of the Great War. 3 Fabre, Secret of Everyday Things. 5 Hadgdorn, Life of Roosevelt; Harper. 3 Holland, Historic Boyhoods. 3 Holland, Historic Girlhoods. 3 Lummis, Some Strange Corners of our Country; Century. 4 Roberts, Kindred of the Wild; Page, Boston. 4 Roberts, Watchers of the Trails; Page, Boston. 3 Roosevelt, Letters of His Children; Scribners. 3 Stockton, F. R., Buccaneers and Pirates of Our Coast; Grosset. 3 Stuck, Hudson, Ten Thousand Miles with a Dog Sled. 4 Wallace, Lure of the Labrador Wild; Revell, Chicago. ENGLISH — SECOND YEAR (One Unit) FIRST SEMESTER. Composition — The theme writing of this semester should be based on description, narration and exposition. Emphasis should be placed upon clearness through connectives, the direct placing of modifiers and direct reference. Review punctuation. Oral English — Definite drill in oral work in the form of reports which call for organization on the part of the pupil should be re- quired each week. The subjects should be of special interest to the pupil. Outlines should be prepared for each report. Study and memorize Lincoln's Gettysburg Speech. Literature; — Three classics should be studied this semester. The following are suggested: The House of Seven Gables, Hawthorn. The Sketch Book, Irving. Autobiography, Franklin. The Blue Bird, Van Dyke. Lorna Doon, Blackmore. Silas Marner, Eliot. The Making of an American, Rues. SECOND SEMESTER. Composition — Continue the writing of themes as during the first semester with special attention to exposition and letter writing. Make a study of the newspaper. Require editorials and news items of local interest. Work along this line can be stimulated by working with the school paper or the local papers. Give careful study to figures of speech. FOR SOUTH DAKOTA 31 Oral English — Continue the work of the first semester, placing emphasis upon current events. Literature — Three of the following are suggested for class study: An Inland Voyage and Travels with a Donkey, Stevenson. Henry V., Shakespeare. The Merchant of Venice, Shakespeare. The Piper, Peabody. Twelfth Night, Shakespeare. Up From Slavery, B. T. Washington. Selections from Modern Poetry. Types of Short Stories. READING LIST — SECOND YEAR Fiction. Value. Author. Title. Publisher. 2 Allen, Kentucky Cardinal; Macmillan Co. 3 Atherton, The Conqueror; Harper. 3 Bacheller, Eben Holden; Lothrop. 3 Bacheller, The Light in the Clearing; Lothrop. 3 Churchill, The Crisis; MacMillan Co. 3 Churchill, Richard Carvel; Macmillan Co. 3 Churchill, The Crossing; Macmillan Co. 2 Connor, Black Rock; Revell. 2 Connor, Man from Glengarry; Revell. 2 Deland, Dr. Lavender's People; Harper. 2 Doyle, White Company; Grosset. 2 Duncan, Dr., Luke of the Labrador; Revell. 3 Ebers, George, Egyptian Princess; McClurgs. 2 Fox, Trail of the Lonesome Pine; Scribners. 2 Gras, Felix, Reds of the Midi; Appleton. 3 Henry, O., Four Million; Doubleday. 3 Johnston, To Have and To Hold; Houghton-Mifflin. 2 Liljencrantz, Thrall of Lief the Lucky; McClurg. 4 Mitchell, Adventures of Hugh Wynne; Century. 3 Norris, Frank, Pit; Doubleday. 3 Tarkington, Magnificent Amberons; Doubleday. 3 Tarkington. Monsieur Beaucaire; Doubleday. 3 Verne, 20,000 Leagues Under the Sea; Henry Coates. 2 Webster, Daddy Long Legs; Century. 3 Johnston, To Have and To Hold; Houghton-Mifflin. 3 Wister, The Virginian; Macmillan Co. Non-Fiction: 3 Burroughs, Camping and Tramping with Roosevelt; Houghton- Mifflin Co. 3 Brooks, J. G., American Citizen; Houghton-Mifflin Co. 3 Franck, H. A., A Vagabond Journey Around the World; Century. 3 Grayson, Adventures in Contentment; Doubleday. 3 Grayson, Adventures in Friendship; Doubleday. 2 Grenfell, Adrift on an Ice Pan; Houghton-Mifflin Co. 3 Keller, Helen, Out of the Dark; Doubleday. 3 Maeterlinck, Life of the Bee; Dood, New York. 3 Muir, John, Story of My Boyhood and Youth; Houghton. 3 Ritter, G. H., Impressions of Japan. 4 Roosevelt, Hunting Trips of a Ranchman. 4 Roosevelt, African Game Trails; Scribners. 3 Smith, White Umbrella in Mexico; Houghton. 3 Stern, My Mother and I. 3 Washington, B. T., Up From Slavery; Doubleday. 32 HIGH SCHOOL MANUAL ENGLISH — THIRD YEAR (One Unit) FIRST SEMESTER. Composition — The composition work done in the third year should show a distinct advance over that of the preceding year. Study exposition this semester as a preparation for the study of argumenta- tion in the second semester. Stress unity, coherence and emphasis in the paragraph, choice of words with attention to barbarisms, collo- quilisms. provincialisms, slang, solecisms. Oral English — During this semester place emphasis upon oral expression. Strive for distinctness, correct pronunciation, clear enunciation and well modulated tones. Literature — American Literature. Three periods a week. The study of the history of literature should be a study of the principal movements and tendencies. There are several compilations of Ameri- can poetry and it is advisable that some such compilations be in the hands of each pupil. In so far as practical, the pupil should read from each author, not merely about him. Some suitable text book, not a college text, should be used. At the end of the semester the pupil should have read something of Irving, Bryant, Cooper, Hawthorne, Emerson. Longfellow, Poe. Holmes. Thoreau, Lanier, Webster, Park- man and Whitman. SECOND SEMESTER. Composition — Study argumentation and brief making. Oral English — Much of the time devoted to oral expression may well be devoted to current events through some good periodical. Literature — Three of the following classics are suggested for class study: Idylls of the King, Tennyson. She Stoops to Conquer, Goldsmith. Julius Caesar, Shakespeare. The Tempest, Shakespeare. Selections from Burns. A Tale of Two Cities, Dickens. Modern Poetry — English and American. Pride and Prejudice, Jane Austen. Prue and I, Curtis. THIRD YEAR READING LIST Fiction. Value. Author. Title. Publisher. 2 Aldrich, Majorie Daw; Houghton-Mifflin. 3 Auerbach, On the Heights. 4 Austen, Pride and Prejudice, Dutton. 3 Bacheller, Man for the Ages. 4 Bronte, Jane Eyre; Burt. 3 Cable, Old Creole Days; Scribners. 2 Davis, Soldiers of Fortune; Scribners. 2 Deland, Old Chester Tales; Harpers. 4 Dickens, Old Curiosity Shop; MacMillan. 3 Ford. Hon. Peter Sterling; Holt. 4 Kipling, Kim; Doubleday. 5 Kipling, The Light That Failed; Dutton. 4 Redde, Cloister and the Hearth; Dutton. 3 Parker, Right of Way; Grosset. 5 Scott. Kenilworth; Dutton. 3 Smith, Col. Carter of Cartersville; Houghton. 3 Thanet. Man of the Hour. FOR SOUTH DAKOTA 3 3 3 Van Dyke, Little Rivers; Scribners. 3 Van Dyke, Ruling Passion; Scribners. Non-Fiction. 3 Barrie, Margaret Ogilvy; Scribner. 2 Bennett, How to Live on 24 Hours a Day. 3 DeLoach, Rambles with John Burroughs; Doran. 3 Driggs, Heroes of Aviation. 3 Franck, Four Months Afoot in Spain. 3 Rolfe, Shakespeare, the Boy. 3 Turley, Charles, The Voyage of Captain Scott. 4 Wald, House on Henry Street. 3 Warner, My Summer in a Garden. 3 Wilson, Francis, The Eugene Fields I Knew. 2 Wilson, Woodrow, On Being Human. ENGLISH — FOURTH YEAR (One Unit) FIRST SEMESTER. Composition — The composition work of the fourth year should be of a more general nature than that of the previous years. There should be greater freedom in choice of literary forms. Continue the work in argumentation requiring at least one argument of consider- able length. Review thoroughly the principles of unity, coherence, emphasis in sentences, paragraphs and compositions. Pupils should be able to use correct, forceful, clear and idomatic English. Oral English — The pupils of the fourth year should be able to appear before the class or before the whole school and make a clear, forceful speech. He should be able to preside satisfactorily at class meets or general meetings. Place emphasis on logical development of thought and pleasing manner of presentation. Literature — English Literature: this should be taken up in con- nection with the selections read as indicated in the outline for Ameri- can Literature. A definite study of the various periods and move- ments in English Literature should, however, be given. The value to a high school student of that portion of the literature before the Revival of Learning is somewhat doubtful, but may be briefly studied if the teacher deems such study advisable. Considerable attention should be given to the Age of Elizabeth, the Puritan Age, the Litera- ture of Restoration, the Literature of the Eighteenth century, the Romantic period and the Victorian Age. In connection with each of these, notice not only the characteristics of leading writers, but also the political, religious and economic tendencies and conditions of the time. The mere incidents in the lives of the various writers are of minor importance compared to the general movement. It is recom- mended that a suitable text be in the hands of the pupil for this work. Three classics should be studied intensively. Modern English Poetry. Modern Essays. Carlyle's Essay on Burns. Macaulay's Life of Johnson. Macbeth. Hamlet SECOND SEMESTER. Continue the study of English literature. Brief courses in one of the following are suggested: journalism, commercial correspond- ence, short story, dramatization. It is recommended that each pupil be provided with a handbook of English, such as Wooley's "Hand- book of English" or some other good manual, to use as a self help in theme work. 34 HIGH SCHOOL MANUAL FOURTH YEAR READING LIST Fiction. Value. Author. Title. Publisher. 3 Allen, Choir Invisible; American News. 4 Barrie, Sentimental Tommy; Crowell. 4 Bennett, Anna of the Five Towns; Doran. 2 Burnett, T. Tembaron; Scribners. 5 Black, Alexander, Great Desire; Harpers. 5 Cervantes, Don Quixote; Coates. 3 Chesterton, Innocence of Father Brown; John Lane, New York. 4 Crawford, Mr. Isaacs; MacMillan Co. 5 Dickens, David Copperfield; Burt. 5 Dickens, Pickwick Papers; Burt. 5 Eliot, Mill on the Floss; Lovell. 5 Eliot, Adam Bede; Lovell. 3 Farnol, Broad Highway; Little, Brown Co. 3 Gaskell, Cranford; Dutton. 4 Hawthorne, Marble Faun; Crowell. 5 Hawthorne, Scarlet Letter; Houghton-Mifflin. 3 Holmes, Elsie Vernier; Houghton. 5 Hugo, Les Miserables; Burt. 3 Lane, Nancy Stair; Appleton. 5 Thackeray, Harry Esmond; Dutton. 5 Thackeray, Vanity Fair; Dutton. 5 Trollope, Barchester Towers; Dutton. 5 Wells, Mr. Brittling Sees it Through; Macmillan. 4 White, A Certain Rich Man; Macmillan. 4 Zangwill, Children of the Ghetto. Non-Fiction. 3 Bennett, Your United States; Harper. 3 Eaton, Green Trails and Upland Pastures. 4 Galsworthy, Inn of Tranquility. 4 Hazlitt, Table Talk. 4 Howells, My Mark Twain; Harper. 4 Mitchell, Dream Life; Scribners. 4 Muir, Travels in Alaska; Houghton-Mifflin. 4 Steiner, Introducing the American Spirit. 4 Stevenson, Vailma Letters; Scribners. 4 Torrey, Friends on the Shelf. Drama — 3 Bennett, Arnold, Knoblock. 3 Edward, Milestones. 3 Brown, Everywoman. 4 Barrie, Echoes of the War. (Four little plays) 3 Galsworthy, Pigeon; Scribners. 2 Goldsmith, She Stoops to Conquer. 2 Housman, Prunella. 4 Ibsen, Doll's House; Appleton. 3 Kennedy, Servant in the House; Harper. 3 Loti, Gautier, Daughter of Heaven. 4 Maeterlinck, Blue Bird; Dodd. 3 McGroarty, Mission Play. 3 Noyes, Alfred, Sherwood. 3 Rostand, Cyrena de Bergerac. 2 Sheridan, The Rivals. 2 Syange, Riders of the Sea. 2 Yeats, Land of Heart's Desire. 3 Zangwill, Melting Pot; MacMillan. FOR SOUTH DAKOTA 35 BOOKS FOR THE TEACHER Bates, Arlo, Talks on Teaching Literature; Houghton. Blakely, Gilbert, Teaching Outlines for Studies in English. Briggs and Coffman, Methods of Teaching Reading; Row, Peterson. Carpenter, Baker, Scott., The Teaching of English; Longman. Chubb, Percival, The Teaching of English; MacMillan. Colby, J. R., Literature and Life in School; Houghton. Corson, Hiram, The Aims of Literary Study; MacMillan. Corson, Hiram, The Voice and Spirtual Education; MacMillan. Everts, K. J., Speaking Voice. Principles of Training Simplified and Condensed; Harper. Gardner, E. H., Effective Business Letters; Ronald. Goldwasser, Methods in the Teaching of English; Heath. Greenough, J. B., Words and Their Ways in English Speech; MacMillan Hunt, T. W., Literature, its Principles and Problems. Moulton, R. G., World Literature and its Place in General Culture; Houghton. Orcutt, W. D., The Writer's Desk Book; Stokes. Palmer, G. H., Self Cultivation in English; Houghton. The Ideal Teacher, Houghton. Perry, Bliss, A Study of Fiction; Houghton. Shuman, E. L., How to Judge a Book; Houghton. Thomas, How to Teach English Classics; Houghton. Trent, Hanson Brewster, An Introduction to English Classics; Ginn & Company. Webster, W. F., English for Secondary Schools; Houghton. ARGUMENTATION AND DEBATE (One-half Unit.) First Semester of Eleventh Year: Topics to be studied: 1 . Evidence. Where to get material and how to classify it. 2 . The Main issues. Analysis of evidence obtained. 3 . The brief. How to construct the outline of the argu- ment. 4 . Construction of the argument. Includes suggestions as to how to secure conviction and persuasian. 5 . Refutation. Study of various methods. Includes tests of generalizations, analogies, cause and effect. 6 . Parliamentary procedure. Selections from standard authors should be studied for practice in briefing. Contemporary writers are preferred if they are men of influence. Class debates should be held at least once in two weeks. This subject may be substituted for one half of the English course, and credit should be allowed to the extent of one-half unit. Participation in interscholastic debates and the practice for such debates may be substituted for part of the class work. PUBLIC SPEAKING (One-half Unit) A. Place in the course, one semester of twelfth year. B. Topics to be studied: 1 . Original speaking. This includes impromptu, extem- pore and memory speaking. 2 . Vocal interpretation of literature. This includes the study and giving of good readings or parts from plays. 36 HIGH SCHOOL MANUAL 3 . Delivery. Special attention should be given to con- versational mode, action, breath control, enunciation and pronunciation. C. Special suggestions: 1 . Extempore speaking should be emphasized more than any other method as it is the practical method in use today. 2 . The conversational mode of delivery should be stressed as it gives the pupil originality and ease in speaking. FOR SOUTH DAKOTA 37 FOREIGN LANGUAGES One year of Latin, German, French or Spanish receives no credit, but two years receive two units, three years three units, and four years four units. Schools giving only two years of Latin should teach it largely from the English standpoint to familiarize the pupils with the deriva- tion of the English words and also to develop a broader knowledge of English. All pupils in our high schools ought to study at least one foreign language. Goethe is said to have remarked, "No one understands his own language until he has mastered three foreign languages." The significance of this statement is apparent. Such study, too, arouses a greater interest in humanity and gives one a broader and more sympathetic outlook on life. The method of teaching a foreign language should be eclectic. No one method is now considered the best. We demand a combina- tion of such methods as will bring the best results. The eye, ear, hand, tongue — all must be trained to serve in the mastery of a foreign language. We must remember, too, that pupils of different ages demand different methods of instruction. Too much attention cannot be given to phonetics. A ready and correct pronunciation is absolutely fundamental and necessary. There is not much use to try to teach any language to pupils who stumble and stagger over pronunciation. Reading in concert is excellent drill and conversation is necessary. The fundamental principles of grammar must be learned in the first year. In the second year there must be a systematic review of these fundamental principles of grammar with advanced work in syntax, which of course, will continue during the entire course. Gram- mar is necessary for high school and college students. Our tendency to get away from it is bad and very much to be deplored. Composition should be systematically pursued either in con- nection with the classics used as reading material or as separate work. Free composition is to be desired, but for high school pupils, it is wise to use also a regular composition book. Two recitations each week may well be devoted to this work which carries with it grammar review and conversation. One cannot over-emphasize the importance of the systematic and persistent building of an active working vocabulary. This should not be given up at the end of the first year and left to the pupils themselves, as is too often the case. High school pupils will not, of their own accord, continue to build up such a vocabulary. LATIN The following course has been devised to meet the growing de- mand to emphasize the practical value of LATIN: THE FIRST YEAR LATIN: (One Credit) The aims of the elementary course are to familiarize pupils with the vocabulary and to teach the principles of syntax. The contents of any standard first year book should be covered as far as possible. Often the more difficult constructions in the text are left until the first month of the third semester. 38 HIGH SCHOOL MANUAL SECOND YEAR LATIN: (One Credit) College entrance credits are granted for either of the second year courses mentioned here. It seems to be the general opinion that the contents of four books of Caesar is too far advanced for students having two semesters of preparation. There are possible, therefore, two courses for the second year: a course consisting of simple reading matter such as Fabulae Faciles and Biographies and two books of Caesar, or the course comprising four books of Caesar alone. THIRD YEAR LATIN: (One credit) Those pupils who have pursued the first course may read two books of Caesar and three orations of Cicero. Those who have followed the second course will naturally study six orations of Cicero. # Select- ed letters of Cicero may be found a profitable substitute for part of his orations. FOURTH YEAR LATIN. (One credit) Recommended for the fourth year are six books of Virgil's Aeneid or its equivalent: 15 00 lines of Ovid and selections' from the Aeneid amounting to three books. Study of appropriate pictures and classi- cal myths appearing in English literature is interesting and profitable collateral work. Composition Work — The principles of grammar are best under- stood by actual practice of translating short English sentences into Latin. One day a week is often devoted to this work. Another method is favored by many: the daily assignments of a few sentences based on the difficult constructions of the lesson. Methods — There are many devices that may be used to stimulate interest in Latin study in the second and third years. Much can be learned of Roman customs and history from Latin clubs and pro- grams. Miss Paxon's Handbook for Latin Clubs is an excellent aid for this work. Games are greatly favored as an attractive way of con- ducting vocabulary drills and forms of a syntax. The Classical Journal prints the addresses of several companies handling these games. In order to increase the comprehension of the English lang- uage, the more common Latin stems should be studied in connection with their many derivations. Derivation blanks may be procured and used with satisfactory results. A great variety of practical exhibit work based on classical mythology, Roman customs, architecture, history and derivations may be successfully worked up. These ex- hibits are intended to have two effects; to intensify the pupils' inter- est in the practical value of Latin and to attract others to the Latin course. A very helpful aid in developing this phase of Latin work may be found in Miss Sabin's Manual on Relation of Latin to Practical Life. (Frances E. Sabin, Madison, Wis.) 1. Relation of Latin to Practical Life, Frances Ellis Sabin; F. E. Sabin, 244 N. Oak Park Ave., Oak Park, 111. 2. Handbook for Latin Clubs, Susan Parson; D. C. Heath & Co. 623S Wabash Ave., Chicago, 111. 3. Classical Journal, December 1921, University of Chicago Press; 58th. St. & Ellis Ave., Chicago, 111. SPANISH Spanish pronunciation seems to offer real difficulties to many pupils. However, records may be procured, spoken by native Span- iards, which will assist the teacher and train the ear and tongue of the pupil. Write to the "Student Education Records, Inc.," Lakewood, New Jersey, for records speaking about one year's work from D. C. Heath's "First Spanish Course" by Hills and Ford. Write to "The Iturralde Language Method Company" Alexander Hamilton Hall, 18 Astor Place, New York City, for the Iturralde Method for the Study FOR SOUTH DAKOTA 39 of Spanish — a book and twenty double records. There are several other sets of records on the market. These may be used separately or with other courses. FIRST YEAR. (One unit) There are many beginner's grammars on the market. For the first year's work one can select from the following long list: Moreno-Lacalle, Elementos De Espanol; Benj. Sanborn Co. Hills and Ford, First Spanish Course; D. C. Heath. De Vitis, Brief Spanish Grammar and a Spanish Grammar; Allyn & Bacon. Espinosa-Allen, Elementary Spanish Grammar; American Book Co. Olmstead, First Course in Spanish; H. Holt & Co. Dorado. Primeras Lecciones De Espanol; Ginn & Co. Cherubini, Curso Practico De Espanol; The Jno. Winston Co. Haussler-Parmenter, Beginner's Spanish; Chas. Scribners Co. Espinosa-Allen, Beginning Spanish; American Book Co. Hall, Poco A Poco and All Spanish Method. (Two books) ; World Book Company. Readers for the first year may be selected from: Solano, Cuentos Y Lecturas En Castellano; Silver Burdett Co. Harrison, Elementary Spanish Reader; Ginn & Co. Pittaro, A Spanish Reader; D. C. Heath Co. Roessler-Remy, A First Spanish Reader; American Book Co. Hathaway-Berge-Soler Easy Spanish Reader; MacMillan Co. Walsh, Primer Libro De Lectura; D. C. Heath Co. Ray, Lecturas Para Principiants ; American Book Co. SECOND YEAR. (One unit.) A more difficult grammar should be used in the second year, or probably better, some such book as Outlines of Spanish Grammar by Hymen Alpern, for review. (D. C. Heath Co.) Some such book as Ford's Spanish Fables and Verse may be introduced during the latter half of this year. Selections may be made from the following for reading matter: Escrich, Amparo; American Book Co. Escrich, Fortuna. Valera, El Pajaro Verde. Doyle-Rivera, En Espana; Silver Burdette Co. Haussler and Parmenter, Spanish Reader; Chas Scribner Co. Mapes-Velasco, Cuba Y Los Cubanos; Gregg Piib. Co. Phipps, Pajinas Sudamericanas; World Book Co. Sparkman, Industrial Spanish; Allyn & Bacon. Carrion Asa, Zaragueta; Sanborn, Heath, and Silver-Burdette Co's. Dorado, Espana Pintoresca; Ginn & Co. Martinez Sierra Teatso De Ensueno; World Book Co. Those who wish composition texts in addition to the exercises that most of the boks now edited for reading contain, can select from the following list: Crawford, Spanish Composition; H. Holt Co. Umphrey, Spanish Prose Comopsition ; American Book Co. Wilkins and Alpern, Exercise Book in Spanish; Globe Book Co., N. Y. FRENCH A two year course is required for credit. A combination of the grammatical and direct methods is advised. FIRST YEAR (One unit) Grammar to the subjunctive, pronunciation, simple French-Eng- lish and English-French translation, vocabulary drill, frequent dicta- tion. Secure a thorough foundation in grammar, pronunciation and vocabulary, and read simple French stories. 40 HIGH SCHOOL MANUAL Suggested Library list from which lesson assignments may be made: Malot, Sans Famille; Holt & Co., Chicago. LaBedolliere, La Mere Michel et Son Chat. Cerf. & Giese, Beginning French; Holt & Co. Chicago. The New Chardenal, Allyn Bacon Co. Meras, First French Book; American Book Co. SECOND YEAR. (One Unit) Persistent drill on pronunciation, verb form, oral work and dicta- tion. Complete the grammar. Read: "L'Abbe Constantine," "Colom- ba" and one of the following: "La Poudre aux Yeux," "L' Ete de la Saint Martin," or some of the Contes by Maupassant. Suggested Library list from which lesson assignments may be made: Daudet, Trois Contes Choisis. Labiche, La Grammaire. Labiche, La Poudre aux Yeux. Labiche, Le Voyage de M. Perrichon. Laboulaye, Contes Bleus. Mariet, La Tache du petit Pierre. Moinaux, Les Deux Sords. Daudet, La Belle — Nivernaise. Daudet, Let Petit Chose. Daudet, Lettres de Mon Moulin. Dumas, La Tulipe Noire. Dumas, La Tulipe Noire. Dumas, Monte-Chisto. Dumas, Les Trois Mousquetaires. France A., Le Crime de Sylvestre Bonnard. Halvey, LAbbe Constantine. Halvey, Un Mariage d' Amour. Maupaussant, Huit Contes Choisis. Moliere, L'Avare. Moliere, Le Bourgeois Gentilhomme. Moliere, Le Medicin Malgre Lui. Moliere, Le Misanthrope. Moliere, Les Femmes Savantes. GERMAN FIRST YEAR. (One unit.) The work should be based upon some such book for beginners as SCHMIDT-GLOKKE'S DAS ERSTE JAHR DEUTSCH, D. C. Heath Co., or SPANHOOFD'S ELEMENTARBUCH DER DEUTSCHEN SPRACHE D. C. Heath Co. The grammar must be thoroughly learned. Easy poems should be committed to memory. A reader with more difficult reading matter should be used, especially toward the end of the year Selections for this year can be made from the following list: Kern, German Stories Retold; American Book Co. Guerber, Marchen and Erzahlungen; D. C. Heath Co. Lange, Easy German Reading; Allyn & Bacon. Allen, Daheim; H. Holt & Co. Anderson, Marchen; D. C. Heath & Co. Seeligmann, Altes and Neues; Ginn & Co. SECOND YEAR. (One unit.) The work of this year should include a thorough review of grammar, using some such book as Harris GERMAN GRAMMAR, American Book Co. Use, too, during this year, some such composition book as Wesselhoelft's GERMAN EXERCISES. D. C. Heath Co. Some such book of poems as Dillard's AUS DEM DEUTSCHEM DICHTER- FOR SOUTH DAKOTA 41 WALD, American Book Co., is advised — many poems being read, some learned. Selections be made from the following list for semes- ter's reading: Storm, Immensee; American Book Co. Stokl, Alle Funf; D. C. Heath Co. Spyri, Moni, Der Geissbnb; D. C. Heath Co. Benedix, Nein; D. C. Heath Co. Volkmann, Kleine Geschichte; D. C. Heath Co. Menchkwitz and Unwerth, Edelsteine; Ginn & Co. Grimm, Marchen; American Book Co. Spyri, Rosenresli; D. C. Heath Co. SECOND YEAR — Second Semester. Selections can be made from the following list: Bluthgen, Das Peterle Von Nurnberg; American Book Co. Bolt, Peterle am Lift; D. C. Heath Co. Wilhemini, Einer Muss Heiraten; H. Holt & Co. Benedix, .Eigenainn; H. Holt & Co. Heyse, L'Arrabbiata ; Allyn & Bacon. Von Hillern, Hoher als die Kirche; Allyn & Bacon. Zschokke, Der Zerbrochene Krug; Allyn & Bacon. Elz, Er 1st Nicht Eif ersuchtig ; D. C. Heath Co. 42 HIGH SCHOOL MANUAL MATHEMATI( 1 K In the reorganization of Secondary Education, it is being demand- ed that every subject must have a direct social objective. Mathe- matics has this, but it has not always been taught with the social aim in mind. Too often it has been taught as an end in itself and not as a means of determining the pupil's welfare. From now on. if it remains in the curriculum, it must have a social value. In all mathematics courses emphasis should be placed upon the process of thinking involved, rather than upon the mere manipula- tion of abstract numbers and figures. Problems which deal with every day life should be introduced, thus stimulating the students' interest, and revealing the practical value of high school mathematics. A certain minimum amount of knowledge must be accquired as a working basis. This is indispensable for further study of mathematics, of the sciences and for college entrance. The courses have been arranged with this in view, and the minimum requirement is one year of elementary algebra and one year of plane geometry. Those pupils who will continue their education in technical and engineering colleges, should elect an additional half year each of algebra, solid geometry, and plane trigonometry. Elementary Algebra (One unit.) I. The division by months is only suggestive but the entire course should be completed in one year. (1) The pupils should be introduced to algebraic symbols, simple equations and to the positive and negative sign. ( 2 ) Pupils must be taught to represent quantities and to in- dicate mathematical relations and operations by means of the algebraic symbols and to translate these symbols into words. ( 3 ) Signs of aggregation should be mastered, first the removal of the symbols from algebraic expressions and then the inserting of specified terms of expressions with the symbols. (4) Addition and subtraction of numbers having a common fac- tor. ( 5 ) Multiplication and division of monomials and polynomials by a monomial. i 6 I To form equations for simple problems. II. (1) The meaning of "plus" and "minus" should be explained clearly. Use the graph. It will be a great help in teach- ing this. (2) Solving examples that employ transposition. ( 3 ) Checking or verifying results. III. (1) Four fundamental operations with positive and negative quantities should be taken up now with marked emphasis on accuracy and then speed. Literal co-efficients and exponents should be taken up as well as the numerical co- efficients and exponents. The pupil should have no more difficulty with the one than the other. (2) Multiplication and division of polynomials by polynomials. FOR SOUTH DAKOTA 43 IV. (1) A great many problems should be given to teach the pupil to form equations and to use algebraic signs and symbols. Also teach them to write problems from equations given. (2) Introduce simultaneous equations by use of graphs. (a) Graphic representation of statistics. (b) Graphic representation of problems of motion. (c) Graphic representation of simple or linear equations. (d) Graphic representations of simultaneous equations. (3) When graphs are mastered the pupils are interested in checking the graph by means of some other method. The solution of simultaneous equations can now be taught by eleminatiting by (a) addititon and subtraction (b) substitu- tion (c) comparison. Care should be taken that pupils know the name of each method and that they learn to choose the method best suited to each problem. (4) Emphasize the fact that there exists only one value for X and Y and that the same values are found by all methods. (5) Check all results. V. (1) Special rules for Multiplication. (2) Factoring. Since factoring is perhaps the most essential part of algebra, plenty of time should be given to the sub- ject. Oral work is necessary here and all factoring should be done by inspection. At least seven type forms should be given in the first year and care should be taken that speed as well as accuracy is acquired. The seven import- ant cases are: (1) Common monomial factor. (2) Perfect trinomial square. ( 3 ) Difference of two squares. (4) Sum of two cubes. (5) Difference of two cubes. (6) Cross Products. (7) Grouping. VI. (1) Highest Common Factor and Least Common Multiple should be taught in their simple forms. This gives a good re- view of factoring. (2) Reducing fractions to lowest terms. (3) Reduction of fractions to Common Denominator. (4) Reduction of mixed expressions to fractions with Common Denominator. VII. (1) Addition and subtraction of fractions. (2) Multiplication and division of fractions. (3) Equations that involve all forms of fractions. (4) Problems that involve fractions. VIII. (1) Involution and Evolution. ■ (2) Powers and roots require drill for accuracy. (3) Pupils should learn squares of numbers from 1 to 25 and cubes from 1 to 12. (4) Square root needs particular attention as it is so very im- portant in quadratics. IX. (1) Can be devoted to radical and simple quadratics or to a general review of the year's work by means of supplemen- tary examples and problems. 44 HIGH SCHOOL MANUAL Advanced Algebra (One-half unit) The course in advanced algebra is a semester subject to be offer- ed not earlier than the third year and after the pupil has had a course in Plane Geometry. The work serves as a review of elementary algebra as well as a study of the more advanced principles. The student should be sufficiently developed at this stage to gain some appreciation of Mathematics as a science. A brief outline of the work is as follows: I. (1) Review of fundamental operations, factoring, L. C. M., H. C. F. (2) Multiplication and division with exponents that are literal, also fractional exponents. (3) Development of more difficult work in complex fractions, continued fractions, H. C. F., L. C. M. (4) Review simultaneaous equations, by the four methods, also formula method. II. ( 1 ) Radicals of all kinds. i l! i Quadratic equations by five methods. A. Factoring. B. Complete square, 1st and 2nd methods. C. Formula. D. Solving by use of graph. III. (1) Simultaneous quadratic equations with the special method of solution. (2) Problems involving simultaneous quadratics. IV. (1) Progressions, Arithmetical and Geometrical. (2) Ratio and Proportion. (3) Logarithms sufficient to illustrate the workings of expon- ents. V. (1) The last two weeks of the course should be given over to review. Where the class is sufficiently strong the Binom- ial Theorem may be developed. Geometry (One unit) The disciplinary value of Geometry, to the extent that we former- ly thought of it, is seriously in question. Psychologists, however, will grant that what there is in method and general procedure can be transferred. The method of forming conclusions has all the power of formal logic. What the lever is to the mechanic in lifting weights, logical mathematical procedure is to the mathematician in solving his problem. Mechanical advantage to the one corresponds to mathe- matical advantage to the other. In its practical value, Geometry cultivates space intuitions and appreciation of, and control over, forms existing in the material world, which can be secured from no other topic in the high school curriculum Its applications to mensuration and the satisfaction derived by the pupil in unifying the formulas of mensuration already met by him in arithmetic, are well recognized by all teachers. The lists of theorems which follow are not to be taken as ex- haustive and it is distinctly understood that theorems may be added at the discretion of the teacher, e. g.: the theorem on the existence of regular polyhedra may find a place in certain courses. Some FOR SOUTH DAKOTA 45 theorems are omitted only with the understanding that they may be inserted as exercises for the student. The Minimum of theorems follows: I. Theorems for Informal Proof (The following theorems may be stated as assumptious, or may be given such informal proof as the circumstances may demand.) I . All straight angles are equal. 2 . ATI right angles are equal. 3 . The sum of two adjacent angles whose exterior sides lie in the same straight line equals a straight angle. 4 . If the sum of two adjacent angles equals a straight angle, their exterior sides form a straight line. • 5 . Only one perpendicular can be erected from a given point in a given line. 6. The length of a circle (circumference) lies between the lengths of the perimeters of the inscribed and circumscribed convex polygons. 7 . The area of a circle lies between the areas of inscribed and circumscribed convex polygons. (It is recommended that state- ments 6 and 7 be used as definitions to be inserted as con- text. ) 8 . Two lines parallel to the same line are parallel to each other. 9. Vertical anges are equal. (Very informal proof sufficient.) 10. Complements of equal angles are equal. II. Supplements of equal angles are equal. 12. The bisectors of vertical angles lie in a straight line. 13. Any side of a triangle is less than the sum of the other two and greater than their difference. 14. A diameter bisects a circle. 15. A straight line intersects a circle at most in two points. II. Congruence of Triangles 1. Anv two triangles ABC and A'B'C are congruent if: (1) a = a' b = b' C = C (2) a = a' B = B' C = C (3) a = a' b = b' c = c' (4) a = a' c = c' C = C' = 90° 2. A triangle is determined when the following are given: (1) a, b, C; (2) a, B, C; (3) a. b, c; (4) a, c, C = 90° (Synonymous to 1.) 3. Construction of triangles from given parts; measurement of unknown parts by ruler and protractor. Given: (1) a. b, C; (2) a, B, C; (3) a, b, c; (4) a, b, C, possible two solutions. (This is the fundamental elementary idea of trigonometry.) 4. In any two triangles if a = a' and b = b', either the inequali- ties c = / = c' or C = / = C is a consequence of the other. III. Congruent Right Triangles 1 . Two right triangles are congruent if, aside from the right angles, any two parts, not both angles, in the one are equal to cor- responding parts of the other. 2 . If two oblique lines c and c' be drawn from a point in a perpendicular p to line AA', cutting off distances d and d', then any one of the equalities c = c', d = d', A = A', B = B', is a consequence of any other. 3 . A diameter perpendicular to a chord bisects the chord, the subtended angle at the center, and the subtended arc; conversely, a diameter which bisects a chord is perpendicular to it. 4 . If two oblique lines, c and c', be drawn from a point in a perpendicular p to a line AA', cutting off unequal distances d and d', 46 HIGH SCHOOL MANUAL then either of the inequalities c = /=c', d = / = d', is a consequence of the other. (In particular, c is greater than p.) 5. If, in a triangle ABC, a = b, the perpendicular from C on c divides the triangle into two congruent triangles. 6. In a triangle ABC, either of the equations a = b. A = B, is a consequence of the other. 7. In a triangle ABC, either of the statements a = / = b, A = / = B, is a consequence of the other. IV. Subtended Arcs, Angles and Chords 1 . In the same circle, or in equal circles, any one of the equa- tions d = d', k = k', c = c', = 0', is a consequence of any other one of them. (A6, 7, 8, 9, G9.) 2 . In any circle an angle at the center is measured by its in- tercepted arc. (Only the commensurable case.) 3 . If a circle is divided into equal arcs, the chords of these arcs form a regular polygon. 4. To construct an angle equal to a given angle. (Regular polygons and other approximate constructions may be drawn by means of the protractor.) V. Perpendicular Bisectors 1 . The perpendicular bisector of a line-segment is the focus of points equidistant from the ends of the segment. 2 . To draw the perpendicular bisector of a given line-segment. 3 . To erect a perpendicular at a given point in a line. 4 . To construct a perpendicular from a given point to a given line. (Corollary to 2.) 5. To bisect a given arc or angle. (See III, 3.) 6 . To inscribe a square in a circle. 7 . One, and only one, circle can be circumscribed about any triangle. 8 . Three points determine a circle. Two circles can intersect, at most, in two points; this will happen when the distance between their center is less than the sum of the radii and greater than the dif- ference of the radii. (Corollary to 7.) 9. Given an arc of a circle, to find its center. (Corollary to 7.) 10. A circle may be circumscribed about any regular polygon. 11. The perpendicular bisectors of the sides of a triangle meet at one point. , VI. Bisectors of Angles. 1 . The bisector of any angle is the locus of points equidistant from the sides of the angle. 2. A circle can be inscribed in any triangle. (Construction to be given.) 3 . A circle can be inscribed in any regular polygon. 4 . Of the inscribed and circumscribed regular polygons of n and 2 n sides for a given circle, to draw the remaining three polygons when one is given. 5 . The bisectors of the angles of any triangle meet at one point. VII. Parallels. 1 . When two lines are cut by a transversal, the alternate in- terior angles are equal only, if those two lines are parallel. When two lines are cut by a transversal, the alternate interior angles are unequal, only if the lines are not parallel. 2 . When two lines are cut by a transversal, the corresponding angles are equal, and the two interior angles on the same side of the transversal are supplementary, only if the two lines are parallel. 3 . The two lines in the same plane perpendicular to the same line are parallel. (Only one perpendicular can be let fall from a point without a line to that line.) FOR SOUTH DAKOTA 47 4 . A line perpendicular to one of two parallels is perpendicular to the other also. 5 . If two angles have their sides respectively parallel or re- spectively perpendicular to each other, they are either equal or sup- plementary. 6 . Through a given point draw a straight line parallel to a given straight line. 7 . A parallelogram is divided into two congruent triangles by either diagonal. 8 . In any paralleogram, the opposite sides are equal, the oppo- site angles are equal, the diagonals bisect each other. 9. In any convex quadrilateral, (a) if the opposite sides are equal, or (b) if the opposite angles are equal, or (c) if one pair of opposite sides are equal and parallel, or (d) if the diagonals bisect each other, the figure is a parallelogram. VIII. Angles of a Triangle 1 . In any triangle the sum of the angles is equal to two right angles. 2 . In any triangle any exterior angle is equal to the sum of the two opposite interior angles. 3 . The sum of the interior angles of a polygon of n sides is 2 (n — 2) right angles. 4. To inscribe a regular hexagon in a circle. (To construct an angle of 60°. Synonymous to 4.) IX. Inscribed Angles 1 . An angle inscribed in a circle is measured by half of its intercepted arc. 2 . Angles inscribed in the same segment are equal to each other. 3 . An angle inscribed in a semicircle is a right angle. 4 . The two arcs intercepted by parallel secants are equal. 5 . The angle between a tangent and a chord is measured by half the intercepted arc. 6 . The angle between any two lines is measured by half the sum, or half the difference, of the two arcs which they intercept on any circle, according as their point of interesection lies inside of, or outside of, the circle. 7 . The tangent to a circle at a given point is perpendicular to the radius at that point. 8 . For a given chord, construct a segment of a circle in which a given angle can be inscribed. 9 . Draw a tangent to a given circle through a given point. 10. The tangents to a circle from an external point are equal. X. Segments Made by Parallels 1 . If a series of parallel lines cut off equal segments on one transversal, they cut off equal segments on any other transversal. 2 . The segments cut off on two transversals by a series of parallels are proportional. (Only the commensurable case.) 3 . A line divides two sides of a triangle proportionally, the segments of the two sides being taken in the same order, only if, it is parallel to the third side. (Only the commensurable case.) 4 . Divide a line-segment into n equal parts or into parts pro- portional to any given segments. 5 . Find a fourth proportional to three given line-segments. XI. Similar Triangles 1. Two triangles ABC and A'B'C are similar if: (1) A = A' B = B' C = C or (2) a = ka' b = kb' C = C or (3) a = ka' b = kb' c = kc' 4 8 HIGH SCHOOL MANUAL where k is a constant factor of proportionality. ( See pre- face, Article 7.) 2. Given a fixed point P and a circle C. the product of the two distances measured along any straight line through P, from P to the points of intersection with C, is constant. This product is also equal to the square of the tangent from P to C if P is an external point. 3 . The bisector of any angle of a triangle divides the opposite sides into segments proportional to the adjacent sides. 4 . Construct a triangle similar to a given triangle. XII. Similar Figures 1 . Polygons are similar only if they can be decomposed into triangles which are similar and similarly placed. 2 . Regular polygons of the same number of sides are similar. 3 . The perimeters of similar polygons are proportional to any two corresponding lines of the polygons. 4 . Construct a polygon similar to a given polygon. XIII. Similar Right Triangle* (Numbers 2, 3, 4, following should have a place where time for their discussion can be secured.) 1. Any two right triangles are similar if an acute angle of the one is equal to an acute angle of the other, or if any two sides of one are proportional to the corresponding s'ides of the other. 2. For a given acute angle A, the sides of any right triangle ABC (C = 90°) form fixed ratios, called the sine (a/c), the cosine (b/c) the tangent (a/b). 3 . Computation of a two-place table of sines, cosines, tangents from actual measurements. 4 . Solution of right triangles with given parts by Use of the preceding table of ratios. (Height and distance exercises.) XIV. Right Triangles 1 . In any right triangle ABC the perpendicular let fall from the right angle upon the hypotenuse divides the triangle into similar right triangles, each similar to the original triangle. 2 . The length of the perpendcular p is the mean proportional between the segments m and n of the hypotenuse; i. e., p 2 = mn. 3 . Either side, a or b, is the mean proportional between the whole hypotenuse c and the adjacent segments m or n; that is, a 2 = cm; b 2 = cn. 4. To find a mean proportional between two given line-seg- ments. 5 . The sum of the squares of the two sides of a right triangle is equal to the square of the hypotenuse: a 2 + b 2 = c = . (It should be noticed that the proposition can be proved either algebraically or geometrically.) 6. In any triangle ABC, if B is less than 90°, then b 2 = a 2 + c 2 — 2cm; if B is greater than 90°, then b 2 = a 2 + c 2 + 2cm, where m is the projection of a on c. 7 . Given the radius of a circle and a perimeter of an inscribed regular polygon of n sides, to find the perimeter of the circumscribed regular polygon of n sides and the perimeter of the inscribed regular polygon of 2 n sides. XV. Areas 1 . The area of a rectangle is the product of its base and its altitude; i. e., a = bh. (This formula may be taken as the definition of area.) 2 . Parallelograms or triangles of equal bases and altitudes are equivalent. FOR SOUTH DAKOTA 49 3 . The area of a parallelogram is the product of its base and its altitude, i. e., a = bh. 4 . The area of a triangle is one-half the product of its base and its altitude; i. e., a= 1 / £bh. 5 . The area of a trapezoid is one-half the product of its altitude and the sum of of its bases; i. e., a= y 2 (b 1 + b : ,)h. 6 . The areas of similar triangles or polygons are proportional to the squares of corresponding lines. 7 . The area of a regular polygon is one-half the product of its perimeter and its apothem. 8 . The area of any circle is one-half the product of its cir- cumference and its radius. 9 . The areas of two circles are proportional to the squares of Wieir radii. (May be treated as suggested in preface, article 3.) 10. Construct a square equivalent to the sum of two given squares. (Pythagorean proposition.) 11. Construct a square equivalent to a given rectangle. (Mean proportional.) SOLID GEOMETRY (One-half unit) In solid Geometry the utilitarian features play an increasingly important part. The mensuration involved in plane geometry is so simple as to be fairly well understood as presented in arithmetic. Solid Geometry, however, offers a rather extended field for practical mensuration in connection with algebraic formulas. A further appli- cation is found in the power afforded to visualize solid forms from flat drawings, a power that is essential to the artisan and valuable to every one. A minimum of theorems follows: I. Theorems for Informal Proof 1 . If two planes cut each other, their interesction is a straight line. 2 . Two dihedral angles have the same ratio as their plane angles. 3 . The face of every section of a cone made by a plane passing through the vertex of the cone is a triangle. 4 . The face of every section of a cylinder made by a plane passing through an element of the cylinder is a parallelogram. 5 . The area of a sphere lies between the areas of a circum- scribed and inscribed convex polyhedrons. 6. The volume of a sphere lies between the volumes of circum- scribed and inscribed convex polyhedrons. (It is recommended that statements 5 and 6 be used as defini- tions to be inserted at context.) 7 . The projection of a straight line upon a plane is a straight line. II. Corollaries from Plane Geometry (The ability to make the transfer from plane geometry to solid geometry, and vice versa, in forming conceptions and in logical de- ductions is of the utmost importance. The following theorems are easily reducible to plane geometry in, at most, two or three planes. The intention is that careful proofs be given, but the student should see that these theorems result immediately from known theorems of plane geometry.) 1 . The intersections of two parallel planes with any third plane are parallel. 2 . A plane containing only one of two parallel lines is parallel to the other. 50 HIGH SCHOOL MANUAL 3 . If a straight line is parallel to a plane, the intersection of the plane with any plane drawn through the line is parallel to the line. 4 . Through a given point, only one plane can be passed parallel to two straight lines not in the same plane. 5 . Through a given straight line only one plane can be passed parallel to any other given straight line in space, not parallel to the first. 6 . Through a given point, only one plane can be drawn parallel to a given plane. 7 . If a perpendicular PO be let fall from a point P to a plane L, any one of the equalities a = a', c = c', B = B', A = A' is a consequence of any other of them, and any one of the inequalities a = / = a', c = /=c', B = B', A = A' is a consequence of any other of them. 8 . The perpendicular PO is shorter than any oblique line. 9 . Two straight lines are parallel to each other only if they are both perpendicular to some one plane. 10. If two straight lines are parallel to a third, they are parallel to each other. 11. Two planes are parallel to each other only if they are both perpendicular to some one straight line. 12. The locus of points equidistant from the extremities of a straight line is a plane perpendicular to that line at its middle point. 13. If two straight lines are cut by three parallel planes, their corresponding segments are proportional. 14. The locus of points equidistant from two intersecting planes is the figure formed by bisecting planes of their dihedral angles. III. Planes and Lines 1. If a straight line is perpendicular to each of two other straight lines at their point of intersection, it is perpendicular to every line in their plane through the foot of the perpendcular. 2 . Every perpendicular that can be drawn to a straight line ata given point lies in a plane perpendicular to the line at the given point. (Corollary to I.) 3 . Through any point only one plane can be drawn perpendi- cular to the given line. (Corollary to I and II, 11) 4. Through a given point only one perpendicular can be drawn to any given plane. (Corollary to 1.) 5 . If two angles have their sides respectively parallel and lying in the same direction, they are equal, and their planes are parallel. 6 . If a line meets its projection on a plane, any line of the plane perpendicular to one of them at their intersection is perpen- dicular to the other also. 7 . Between any two straight lines not in the same plane only one common perpendicular can be drawn, and this common perpen- dicular is the shortest line that can be drawn between the two lines. 8 . Two planes are perpendicular to each other only if, a line perpendicular to one of them at a point in their intersection lies in the other. 9 . If a straight line is perpendicular to a plane, every plane passed through the line is perpendicular to the first plane. (Corollary to 8.) 10. If two interesecting planes are each perpendicular to a third plane, their intersection is also perpendicular to that plane. (Corol- lary to 8.) 11. Through a given straight line oblique to a plane only one plane can be passed perpendicular to the given plane. 12. The acute angle which a straight line makes with its own FOR SOUTH DAKOTA 51 projection on a plane is the least angle which it makes with any line of the plane. 13. Two right prisms are congruent if they have congruent bases and equal altitudes. 14. If parallel planes cut all the lateral edges of a pyramid, or a prism, the sections are similar polygons; in a prism, the sections are congruent; in a pyramid, their areas are proportional to the squares of their distances from the vertex. 15. Every section of a circular cone made by a plane parallel to its base is a circle, the center of which is the intersection of the plane with the axis. 16. Parallel sections of a cylindrical surface are congruent. IV. Spheres 1 . Every section of a sphere made by a plane is a circle. (Several corallaries may be added.) 2 . The interesection of two spheres is a circle whose axis is the line of centers. 3 . The shortest path on a sphere between any two points on it is the minor arc of the great circle which joins them. 4 . A plane is tangent to a sphere only if it is perpendicular to a radius at its extremity. 5 . A straight line tangent to a circle of a sphere lies in a plane tangent to the sphere at the point of contact. 6 . The distances of all points of a circle on a sphere from either of its poles are equal. 7 . A point on the surface of a sphere, which is at the distance of a quadrant from each of two other points, not the extremities of a diameter, is the pole of the great circle passing through these points. 8 . A sphere can be inscribed in or circumscribed about any given tetrahedron. 9 . A spherical angle is measured by the arc of a great circle described from its vertex as a pole and included between its sides (produced if necessary.) V. Spherical Triangles and Polygons (Every theorem stated here may also be stated as a theorem on polyhedral angles.) 1 . Each side of a spherical triangle is less than the sum of the other two sides. 2. The sum of the sides of a spherical polygon is less than 360°. 3 . The sum of the angles of a spherical triangle is greater than 180° and less than 540°. 4 . If A'B'C is the polar triangle of ABC, then, reciprocally, ABC is the polar of A'B'C 5 . In two polar triangles each angle of the one is the supple- ment of the opposite side in the other. 6 . Vertical spherical triangles are symmetrical and equivalent. 7 . Two triangles on the same sphere are either congruent or symmetrical if: a = a' B = b' c = c' or a = a' b = b' C = C or a = a' B = B' C = C orA = A' B = B' C = C 8. Either of the equations a = b, A = B is a consequence of the other. VI. Mensuration (The relation between the areas and volumes of similar solids may be treated as corrollaries in individual cases. It is understood 52 HIGH SCHOOL MANUAL that certain statements concerning limits may be assumed either ex- plicitly or implicitly. These are not stated as theorems. 1. An oblique prism is equivalent to a right prism whose base is a right section of the oblique prism and whose altitude is a lateral edge of the oblique prism. 2. A plane passed through two diagonally opposite edges of a parallelopiped divides it into two equivalent triangular prisms. 3 . The lateral area of a prism is the product of a lateral edge and the perimeter of a right section. (Corollary of plane geometry.) 4 . The lateral area of a regular pryramid is one-half the product of the slant height and the perimeter of the base. (Corollary of plane geometry. ) 5 . The lateral area of a right circular cylinder is the product of the altitude and the circumference of the base; i. e., S = 2 | | rh 6 . The lateral area of a right circular cone is one-half the product of the slant height and the circumference of the base. 7 . The lateral area of a frustum of a regular pyramid is one- half the product of the slant height and the sum of the perimeters of 8. The lateral area of a frustum of a right circular cone is one-half the product of the slant height and the sum of the circum- ferences of the bases. 9 . The area of a zone is the product of its altitude and the cir- cumference of a great circle. 10. The area of a sphere is the product of its diameter and the circumference of a great circle. 11. The area of lime is the surface of a sphere as the angle of the lune is to 360°. 12. The area of a spherical triangle is to the area of the sphere as its spherical excess is to 7 20°. 13. The volume of a rectangular parallelopided is the product of its three dimensions. (This may be taken as a definition.) 14. The volume of any parallelopided is the product of its base and altitude. 15. The volume of any prism is the product of its base and its altitude. 16. The volume of any pyramid is one-third the product of its base and its altitude. 17. The volume of a circular cylinder is the product of its base and its altitude. 18. The volume of a circular cone is one-third the product of its base and its altitude. 19. The volume of a spherical sector is one third the product of the radius and the zone which is its base. 20. The volume of a sphere is one-third the product of its radius and its area. PLANE TRIGONOMETRY (One-half unit.) The work in Trigonometry is open to pupils who have completed the work in third semester algebra and solid Geomerty. In Trigo- nometry as in no other high school mathematics the student can realize the practical value of algebra and plane geometry. Much field work should be done in order to make the work concrete. Where a transit is available, heights of vertical objects should be calculated and various triangles should be laid out and the areas computed. FOR SOUTH DAKOTA 53 The following minimum outline of work is suggested: 1 . Definitions and the relations of the six trigonometric func- tions as ratios; circular measurement of angles. 2. Familiarity with the graphs of each of the six trigonometric functions. 3 . Functions of complementary and supplementary angles. 4 . Inverse functions. 5 . Tracing the changes in sign of each of the six functions as the angle passes from one quadrant to another. 6. The derivation of the values of the six trigonometric func- tions for angles of 0°, 30°. 45°, 60°, 90°, 180°, and 270°. 7 . Solution of right triangles and applications involving angles of 30°, 45° and 60°. 8 . Proofs of principal formulas in particular those for sine, cosine, and tangent of the sum and difference of two angles, of double an angle, and half an angle, and the transformation from the sum to the product of two sine or cosine functions. 9 . Solutions of numerous identities applying the formulas developed. 10. Solutions of trigonometric equations of a simple character. 11. Logarithms ( five-place table.) 12. Derivation of all formulas involved in the solution of oblique triangles. 13. Solution of oblique triangles. 14. Practical applications involving the solution of oblique triangles. Reference Material Teaching of Geometry, Florence Milner; D. C. Heath & Co. A Source Book of Problems for Geometry, Mabel Sykes; Allyn & Bacon Real Problems in Geometry, James F. Millis; Teachers College Record, March, 1919. Real Problems in Geometry and Algebra, School Science and Mathe- matics. Lessons in Experimental Geometry, Hall & Stevens; The Macmillan Co. Numerous Problems in Geometry, J. G. Estill; Longman Green & Co. Mensuration, G. B. Halsted; Ginn and Co. Elementary Mensuration, F. H. Stevens; The MacMillan Co. Science and Mathematics Magazine, Smith & Turton; Mount Morris, Morris, 111. Elements of Mechanics, M. Merrimen; John Wiley & Sons. Shop Problems in Mathematics, Beckenridge; Ginn & Co. Mathematical Recreations and Problems, Ball; The MacMillan Co. Exercises in Factoring; D. C. Heath & Co. The Teaching of Geometry, David Eugene Smith; Ginn & Co. 54 HIGH SCHOOL MANUAL MUSIC In the high school the study of music should be broadened out beyond the study of technical phases of the subject or the incidental singing of songs. Music should lead to the knowledge, appreciation, interpretation, and rendering of some of the best things in the field of music expression. The providing of special music courses is the latest development in the growth of music in the high school. This affords opportunities for students who are studying music from the professional stand point and at the same time, it gives a practical course in subjects quite necessary to them as members of a community where some de- gree of culture and intelligence is essential. A large number of high schools are offering music courses in one form or another and in most instances are granting credit. SUMMARY OF COURSES COURSES Recitation 40 minute Periods Weekly Preparation 40 minute Periods Weekly Total Time 40 minute Periods i-H C a> 1 I. Chorus 2 Singing None 2 v± 1 II. Ensemble Glee Club 2 Orchestra Band 2 4 v 2 2 | III. Appreciation 1 1 1 2 y 4 1 IV. Theory of Music Harmony History Sight-Singing and Ear-Training 2 2 4 % 2 V. Applied Music Voice, Piano, Pipe-Organ Symphonic Instruments One 30 Minute Period Seven 60 Minute Hours Weekly 03 3 o X E- i 4 Any of the above courses may be elected by students who de- sire to major in Music, with the intention of making it their life work. Other students may elect only courses I, II and III. If such students elect all of these three courses they must have at least six- teen units of credit for graduation. FOR SOUTH DAKOTA 55 Course I — Chorus Singing: Two periods a week and a public program once a year. One- fourth unit per year. If possible, the songs and choruses studied should be graded beginning with simple unison and four-part songs and progressing to more difficult choruses and cantatas. At least, one contata should be performed annually in public. There are many reasons why good cantatas and part songs should be studied. By singing this type of music the student's ability to appreciate the best in music gradually increases and through him the taste at home is improved then finally the community. Through the use of good choral music, the student develops an ability to use his voice properly and to discriminate between the great and less important works. The music of the high school ought to function directly into the community. What will do that better than the master choral works, good part songs and cantatas? Every voice in the chorus should be tested individually and assigned to a regular part. The plan of individual singing that is so often used in the grade school should be fololwed to some extent in the high schools. The principal aim of all work in both the grades and the high school is Education and chorus work should be a combination of hard work and recreational singing. Course II — Ensemble: Two periods weekly amounting to one-half unit per year. The students should also appear at school assembly and occasional public programs. Students of symphonic instruments who apply for outside credit should be required to play in the orchestra. Piano students should be required to act as accompanists when needed and voice students required to attend Glee Club rehearsals regularly. Course III — Appreciation: One period a week with outside reading in Music Hitsory. One- fourth unit a year. This course is offered to students without pre- vious technical work, as the aim of this course is to develop a love for good music and more intelligent music listeners. Students should be made familiar with the World's folk music vocal and instrumental forms. Study selections from Oratorios and Operas and Symphonies. The study of the different types of voices and combinations qC the Symphonic instruments should be included in this course The more advanced students in applied music, the orchestra and the phonograph should be used in presenting this course. Course IV — Theory of Music: * Harmony, History, Sight-Singing, and Ear Training: Two pre- pared recitations a week. When taken alone, one-half unit a year. This course should be required of all students planning to follow music as a profession and who elect music as a major subject. Course V — Applied Music : Voice, Piano, Pipe Organ, and Symphonic Instruments: One lesson a week and seven hours practice is required. One credit will be given for one year's work. Each student must take one 30 minute lesson a week for each thirty-six weeks of the school year, from a teacher of music, holding a valid vocational certificate of Music from the Department of Public Instruction. Practice seven hours a week, appear at any entertainment given by school authorities, when requested. Pupils in these subjects must pass an examination upon beginning their work and at the end of each semester. This examina- tion to be given by the Supervisor of Music or teacher of High School music. Lessons or practice omitted must be made up before credit is granted. 5 6 HIGH SCHOOL MANUAL The parent or guardian of a pupil must make application upon blank forms prescribed by the schools for the granting of music credit for private study. Monthly reports must be made to the Director of Music or to the High School principal, signed by the par- ent stating the number of practice hours, and signed by the instructor stating satisfactory recitations. At the end of each semester the private teacher of music must report upon blanks provided, the number of lessons taken, the length of each lesson, the pupils pro- gress, the compositions and exercises studied, and such other informa- tion as may be requested to aid in determining the musical schol- arship of the student and the testing of his work. Assembly Music: At least one-half hour each week should be spent in ensemble singing under the leadership of the special teacher of music or of any other teacher possessing ability as a song leader. Assembly singing is not chorus work as voices are not tested. A definite pro- gram should be prepared in advance, the music should be carefully selected and rehearsed with the leader and pianist. In school which have glee club and orchestra organizations, the assembly period will afford an opportunity for public performance by these organizations, and for the rendering of a valuable service to the School. These organizations should be given a place occasionally on the program for special numbers. Suggested List of Two, Three, and Four Part Music for High Schools. Two Part Songs 'Tis the Hour for Music, Farmer; Birchard & Co.. Boston. Swing Song, Lohr; Birchard & Co., Boston. The Angel, A Rubinstein; Schirmer, N. Y. Toreadors, Bizet; Schirmer, N. Y. Sing On, Denza; Schirmer, N. Y. Three Part Songs Lullaby, Brahms; C. C. Birchard, Boston. Welcome, Pretty Primrose. Pinsuti; C. C. Birchard, Boston. Maria, Mari, Di Capua; C. C. Birchard; Boston. Chit-Chat, Moffat; C. C. Birchard, Boston. Song of the Mill Stream, Adams; Birchard & Co., Boston. Amaryllis, Parlow; Birchard & Co., Boston. Woodland Breezes, Weiser; Schmidt, N. Y. The Nights, Roberti; Ginn & Co., Chicago. Blue Danube Waltz, Strauss; Schirmer, N. Y. The Happy Miller, Veazie; Ginn & Co., Chicago. Will O' the Wisp, Cherry; Ginn & Co., Chicago. Esmeralda, Levey; J. S. Fearis & Co., Chicago. Lullaby from "Jocelyn" Godard; Schirmer, N. Y. Snow Flakes, Cowen; Schirmer, N. Y. Our High School, Miessner; Schirmer, N. Y. Wake, Miss Lindy, Warner; Schmidt, N. Y. The Girl with the Curl, Fearis; J. S. Fearis & Co., Chicago. Rock-a-by Lady, Prescott; Birchard & Co., Chicago. Come Sweet Morning, Matthews; Ricordi, N. Y. Strauss Waltz-Song, arr Harris; Schirmer, N. Y. The Owl and the Pussy Cat, Ingram; Schirmer, N. Y. Lift Thine Eyes, Mendelssohn; Schirmer, N. Y. Morning Invocation, D. Buck; Schirmer, N. Y. Evening Hymn, D. Buck; Schirmer, N. Y. Autumn, S. S. A. A. Gaynor; Clayton F. Summy, Chicago. FOR SOUTH DAKOTA 57 Four Part Music Away to the Fields, Wilson; J. S. Fearis & Co., Chicago. The Call to Arms, Veazie; Ginn & Co., Chicago. Who Will Come With Me?, Gluck; Ginn & Co., Chicago. The Kerry Dance, Molloy; Ginn & Co., Chicago. The Red Scarf, Veazie; Ginn & Co., Chicago. America Triumphant, Demarest.... Fearis & Co., Chicago. Away, Away at Break of Day, Gingrich; Fearis & Co., Chicago. Singing to You, Old High, Parks; Fearis & Co., Chicago. The Sailor's Dance, Molloy; Ginn & Co., Chicago. Bridal Chorus, Cowen; Ginn & Co., Chicago. Oh, Italia, Italia, Beloved, Donizetti; John Church & Co., N. Y. The Silent Sea, Neidlinger; Schirmer, N. Y. Books for Boy's Glee Laurell Glee Book, C. C. Birchard, Boston. Part Songs, Meyers; American Book Co., Chicago. Ruff Stuff Songs, C. C. Birchard, Boston. Appolo Song Book, Ginn & Co., Chicago. Part Songs On the Sunny Side, Nyvall; Fearis & Co., Chicago. The Barks, Hastings; Schirmer, N. Y. A Ford Song, A Fliver; G. Schirmer, N. Y. Home Again With You, Logan. Over the Morning Sea, Wilson; Fearis & Co. Chicago. Old Farmer Slow, Geibel; Fearis & Co., Chicago. Flags of the Stars, Fearis; Fearis & Co., Chicago. Topical Song, Howley, Schirmer, N. Y. Tinkers' Song, De Koven; Schirmer, N. Y. High School Operettas Captain of Plymouth, Mixed; C. C. Birchard & Co., Chicago. Sylvia, Mixed; C. C. Birchard & Co. hicago. Nautical Knot, Mixed; . C. Birchard & Co. Chicago. Bulbul, Mixed; C. C. Birchard & Co., Chicago. The Bosns Bride, Mixed; C. C. Birchard & Co., Chicago. The Japanese Girl, H. S. Girls; C. C. Birchard & Co., Chicago. Pinafore, Mixed; C. C. Birchard & Co., Chicago. Chimes of Normandy, Mixed; C. C. Birchard & Co., Chicago. Little Tycoon, Mixed; C. C. Birchard & Co., Chicago. Mikado, Mixed; C. C. Birchard, Chicago. The Pennant, Mixed — Foot Ball Operetta; C. C. Birchard & Co. Princess Chrysanthemum, Unison and two Part; C. C. Birchard & Co., Chicago. Feast of Red Corn, Unison and two Part, C. C. Birchard & Co. The Maid and the Middy, Mixed; C. C. Birchard & Co., Chicago. Little Lycoon, Mixed; C. C. Birchard & Co., Chicago. Cherry Blossoms, Mixed; C. C. Birchard & Co., Chicago. Yanki Sun, H. S. Girls; C. C. Birchard & Co., hicago. Pirates of Penzance, Mixed; C. C. Birchard & Co., Chicago. High School Cantatas Pied Piper of Hamelin, Two Parts; Educational Bureau Co., Chicago. Pan on a Summer Day, Three Parts; Educational Bureau Co., Chicago. Legend of Nacoochie, Three Parts; Educational Bureau Co., Chicago. A Day in Roseland, H. S. Girls; Educational Bureau Co., Chicago 58 HIGH SCHOOL MANUAL King Rene's Daughter, H. S. Girls; Educational Bureau Co., Chicago. Melusina Mixed; Educational Bureau Co., Chicago. Erl King Daughter, Mixed; Educational Bureau Co., Chicago. Mound Builders, Sop. Alto and Bass; Educational Bureau Co., Chicago. Feast of Little Lanterns, H. S. Girls; Educational Bureau Co., Chicago. Hiawatha, Mixed; Educational Bureau Co., Chicago. Chicago. Wreck of the Hesperus, Mixed; Educational Bureau Co., Chicago. List of Orchestra Music Pull Orchestra: Grade I — Easy Grade II — Moderately difficult Grade III — Difficult 1. March — Pomp and Circumstances, No. 182 — Elgar, Grade 3 Selection — Madam Butterfly — arr Godfrey — Grade 3. Boosey & Company, New York. 2. The Imperial Concert Collection — Grade II. John Church Co., Cincinnati. 3. Fantasia — Campus Echoes — Rollinson — Grade 2. Overture — Folies of Cupid — Gruenwald — Grade 1. Novellete — Springtime — Atherton — Grade 1 . Amateur Orchestra Folio — Grade 2. Oliver Ditsan Co., Boston. 4 . Grand America Fantasia — America Forever — Fobani — Grade 3. Moment Musical — Shcubery — Grade 2. March- — Flag Day — Schramm — Grade 2. Pizzicoti Polka from Sylvia — Delibes — Grade 3. Pantasia Gems from Stephen Foster — Grade 2. Album Leaf — Wagner — Grade 2. Carl Fischer, New York. 5. Idyll — Mill in the Forest — Grade 2. Ameteur Orchestra Journal Vols III, V, and II — Grade 2. Overture — Golden Septre — Grade 2. Peerless Beginners Orchestra Book — Grade I. March — Millitarie — Schubert— Grade 3. Carl Fischer, New York. 6. Jenkins Beginners Orchestra Books — Grade 1 and 2. Jenkins & Son, Kansas City, Mo. 7. Intermezzo — Cavalleria Rusticana — Grade 1. Selections — The Merry Widow — Grade 1. March — The New Ideal — Grade 2. Waltzes — L' Edyudiantina — Grade 2. Medley — Gems from the Overtures — Grade 3. J. W. Pepper & Son, Philadelphia, Pa. 8. Old Glory — National Air — Seredy- — Grade 1. Selection William Tell — Rossini — Grade 1. Barcarolle — Tales of Hoffman — Offenbach — Grade 1. Selections on Southern Airs — Seredy — Grade 1. FOR SOUTH DAKOTA 59 NATURAL SCIENCES BIOLOGY (One Unit) It is neither possible nor desirable to have uniform courses of biology in the different schools of the state. Decided variations in courses must necessarily occur because of the great differences in the training and experience of teachers, in the extent and kind of equipment, in the character of the local fauna and flora, and in the general attitude of pupils due to either urban or rural home environ- ment. 1. Aims. All courses in biology should have certain well di- fined aims. The main ones of these may be stated as follows: 1 . To develop the scientific attitude of mind. This includes among other things to seek knowledge at first hand, to observe cor- rectly, discriminate sharply between essentials and non-essentials, compare carefully, record findings accurately and draw only well- founded conclusions. For this purpose courses in biology are admir- ably adapted. The back-bone of the course is the study of living organisms in nature and in the laboratory under experimental con- ditions where the whole procedure should be an application of the principles of the scientific method. 2 . To present those biological facts and principles which will best enable the pupils to realize such educational objectives as "health, worthy home membership, vocation, citizenship, the worthy use of leisure, and ethical character." This is only making effective the principle that the purpose of secondary education is to teach boys and girls rather than subjects. (a) Health — The fundamental life processes in plants and animals are mainly alike. The knowledge of these obtained in biological courses are largely directly applicabe to human beings and should be so presented. Likewise, a knowledge of the life history of plants and animals parasitic upon man will do wonders in securing prevention of disease in the individual and will create the attitude of mind which will support all intelligent efforts along the line of sanitation and public health regulations. (b) Worthy *Home Membership — To this biology should contri- bute by developing, among other things, an interest in the planting of trees, shrubs and flowers on the lawn around the home, and in the cultivation of appropriate flowers in- side the house, and by encouraging song birds and other birds to nest in the trees around the home. (c) Vocation — The biological courses of the high school cannot prepare for any vocation, but they can create interest in, and point the way to, the many vocations which have their be- ginnings in biology, such as agriculture, medicine, forestry, horticulture, floriculture, animal and plant breeding, public health work, and teaching and research in the various fields of biology. (d) Citizenship — The course should develop an appreciation of the work done by the great workers in biology and of their great sacrifices and privations in reaching their results, 60 HIGH SCHOOL MANUAL and thus demonstrate to the pupils the value of intensive study of biological sciences as means through which scienti- fic progress is attained. In the degree to which this is done, will the methods and results of the work of the biolo- gist be reflected in intelligent thought and action on the part of those so trained. (e) The worthy use of leisure — Development along this line is especially needed in our times. Courses in biology are especially adapted for this purpose. Properly presented they may call forth a response to the esthetic appeal of plants and animals, and create a permanent pleasure-giving interest in the occurence, life-history, habits and interrelationships of plants and animals. The opportunities offered for a voca- tional education by these courses are almost without number. (f) Ethical character — Biological courses demonstrate con- cretely the principle that all living organisms are subject to the great laws of nature. Effect follows cause with never-failing certainty. Only inside the limits of these laws can organisms thrive and prosper. Human beings must likewise live their lives in accordance with them. The significance of sex and the facts of heredity are best master- ed in connection with courses in biology, and this knowledge shoud bring home the duties and obligations which indivi- duals owe to the welfare of unborn generations. Duty and responsibility can nowhere be more strongly emphasized. Stated in other words these educational objectives are only different forms of the adjustment and adaptations which human beings are called upon to make. And since so large a part of biology deals with adjustment and adaptations to organisms to their enviorment, it follows that its study should be made to aid the pupils in their life adjustment, while retaining the power of making new adjustment, which is one of the principal purposes of life and education. 3 . To secure a bird's eye view of the animal or plant kingdom through first-hand knowledge of typical speciments of their main subdivisions. This will bring home to the pupil the gradually increas- ing complexity of organization and the wonderful unity in the midst of variety which characterizes living organisms. 4. To point out the material and economic values of animals and plants. 5 . To give some training in the use of manuals for classifying plants and animals. The text books and manuals should be selected on the basis of being best adapted to the realization of the aims in- dicated above. II. Methods. Naturally the methods will vary somewhat with the environment of the school. But in all schools there should be field work, laboratory work, text-book assignments, collateral reading, quizzes, and possibly a limited amount of lectures. There should be definiteness to the field work. The teacher should know beforehand the material which is likely to be available and the specific objects to be acomplished. Likewise the work in the laboratory must be well planned. It should have a definite purpose, and everything connected with it should be so arranged as to waste no time. Intricate experiments, difficult to understand, and detailed high power microscopic work should be reduced to a minimum. Drawings should not be considered an end in themselves, but should serve mainly to secure accuracy and correctness in observance. Accuracy, neatness and legibility in labeling should be insisted on. FOR SOUTH DAKOTA 61 Complete an ddetailed study should be made of the type specimens while allied forms may be studied in less detail, but more from a view of comparison with the type form. Comparisons should also be made to bring out similarities as well as differences existing be- tween the type specimens representing the different groups and thus work out at first-hand the distinguishing characteristics of the groups. III. Point of View — The point of view from which the subject matter is presented is of great importance. The pupil should not be made to feel that one day or one week he is studying morphology, physiology, or ecology as ends in themselves. As far as possible, he he should be impressed with the idea that he is studying living organ- isms whose main purpose of existence is to maintain themselves and provide for the race; that self-maintenance and reproduction involve a number of difference kinds of activities such as those which are usually included under the term physiology in the narrower sense, and in addition several others such as overcoming physical environment difficulties, competition with its fellows for space and food, struggle with natural enemies which must be met by offense, defense or flight — all classed under the term ecology; that for the performance of all these different functions plants and animals must have organs or structures adapted to carry on this work. Thus physiology and ecology are the dynamic phase and morphology the static phase of the same life process — the process of adjustment and adaptation in the maintenance and propagation of living organisms. From this point of view it naturally follows that the practical work in field and laboratory should be carried on as far as possible in connection with living specimens. In this way it will be possible to interrogate nature by the formulation of problems for solution, in other words, the course will be experimental as well as observational, and thus become an ideal in developing the scientific attitude of mind. It would also follow that the organisms studied must be largely those which occur in the school environment, or can readily be secured in the living condition. Forms which can only be studied in the preserved condition should be few and should be limited to those not found in the locality and which are absolutely necessary in making the birds-eye view possible. The point of departure for the course is not of vital importance as long as sequence in the presentation is maintained and the unity of the course is not lost. The plan of the text-book selected will probably largely determine the order of presentation. IV. Contents — The length of the course will largely determine the number of forms which can be considered, and how many of these can be taken up for detailed study. In botany, there should be more or less detailed consideration of two or more green algae; some pathogenic and non-pathogenic forms of bacteria; one or more of each of parasitic and saprophytic forms of fungi; one liverwort and one moss; one or more of the pteridophy- tes; one gymnosperm; one monocotyledon and one dicotyledon. In zoology the more detailed consideration should be given to two or more protozoa; one annellid; one crustacean; one insect; and one or more vertebrates. Other forms in these groups should be studied more superficially in a comparative way. Typical specimens of other great groups may be taken up in a more general way, unless there should be time enough for a more thorough study. In Botany the economic values of plants should be pointed out all along the course, and in Zoology the same should be done with reference to animals. And in both subjects, some training should be given in the use of manuals for the determination of species. It is of the 62 HIGH SCHOOL MANUAL greatest importance that the main facts of heredity be taught in con- nection with both sciences. All along the course the facts and principles mastered should be given their proper human applications. CHEMISTRY (One Unit) I. CHEMICAL AND PHYSICAL CHANGES. 1 . Chemical changes (a) Simple decomposition of water: Hydrogen and Oxygen (b) Direct combination of Sulphur and Oxygen. (c) Combustion: Conditions of — combustible materials, sup- porter of combustion, kindling temperature. Explosive mixtures: matches, dynamite. Spontaneous combustion. Slow oxidation: rotting, rusting, weathering. 2 . Physical changes (a) Water: freezing, boiling. (b) Solutions: dilute, concentrated, saturated, supersaturat- ed, equilibrium, changes of solvent and solute. (c) Purification: boiling, distillation, filtration, crystalli- zation. II. THEORY. 1. The Molecular Theory: developed from 2a and 2b under I. (a) Atoms, valence. Reducing and Oxidizing agents. Use of simple equations to express what occurs in chemical reactions throughout the course. III. NON-METALLIC ELEMENTS AND COMPOUNDS. 1. Oxygen. (Learn symbols of common elements and compounds incidentally). (a) Preparation: decomposititon of KCLO s with Mn0 2 as catalytic agent. Equation. (b) Properties. Physical: color, odor, solubility in water, weight. Chemical: valence, nasency, (Ozone), atomic weight. 2 . Hydrogen. (a) Preparation: Electrolysis of water and the reaction of dilute H.SO, with metallic Zn. (b) Properties. Physical: see oxygen. Chemical: burns in air, reducing agent, valence, atom- ic weight. Explosive mixtures of O and H — The Hydro- gen gun. (c) Uses: oxy-hydrogen flame, military balloons, (compare with helium.) (d) Compounds: H.O and H.O L 3 . Nitrogen. (a) Preparation: Burn phosphorus on float in air confined in bell jar until O is exhausted. (b) Properties: Physical: color, odor. Chemical: nasency, relation to combustion, valence, atomic weight. (c) Compounds: ammonia, HN0 3 N.O. Uses of each. 4 . Chlorine. (a) Preparation: by reaction of HC1 with Mn0 2 . (b) Properties: color, odor, weight in comparison with air. (c) Uses: bleaching agent, deodorizer and disinfectant. (d) Compounds: HC1 and NaCl. FOR SOUTH DAKOTA 63 5 . The Remaining Halogens. (a) Bromine: its nature, properties and uses. (b) Iodine: its nature, properties and uses. (c) Fluorine: its nature, properties and uses. 6. Carbon: (a) Graphite, uses: stove polish, lubricant, lead pencils. (b) Diamond, uses: jewelry, glass cutter, rock drill. (c) Lampblack, use: pigment. (d) Fuel: wood, charcoal, coal, coke, petroleum. (e) Oxides of Carbon. Carbon Monoxide CO. Prepared by reducing carbon dioxide. Uses: in fuel gas, in water gas. Physiological effect of breathing CO. Carbon Dioxide, C0 2 . Preparation: burning carbon, reaction of HC1 with CaC0 3 . The Lime Water Tests. Uses: in beverages, fire-extinguishers, leavening agent. (f) Decolorizer. 7 . Sulphur. (a) occurance, extraction. (b) Uses: vulcanizing rubber, making matches, sulphur dioxide, hydrogen sulphide, sulphuric acid. 8. Silicon: (a) Occurence. (b) Forms: quartz, sand, agate, (Si0 2 ). Other compounds are feldspar, mica, clay. 9 . Phosphorus. (a) Occurrence and preparation. (b) Properties: chemical and physical. (c) Handling, and uses, such as matches and vermin exter- minators. 10. Acids, Bases and Salts. (a) Definition of acid: a compound which gives up a posi- tive H radical on ionization. (The study of ioniza- tion should be done here. (b) Characteristics: sour taste, effect on litmus, usually formed with non-metallic elements. (H 3 As0 4 ) (c) Definition of base: a compound which gives up a nega- tive OH radical on ionization. (d) Characteristics: brackish taste, effect on litmus, formed with OH negative radical and metallic positive radical. (e) Definition of salt: a compound which gives up neither a positive H nor negative OH upon ionization. (f) Characteristics: Often crystalline solid. Color white, pink, blue and green. (g) Study three type acids: H 2 S0 4 as the "Father of Acids", commercial importance, production; HC1, production and uses; HN0 3 , how produced, uses. (Other acids should be studied and tests for all of these studied should be done by students preparing for College entrance.) IV. METALLIC ELEMENTS AND COMPOUNDS. 1 . Sodium. Compounds: chloride, carbonate, nitrate. Hydroxide, use: neutralization of acids, solvent for fats. 64 HIGH SCHOOL MANUAL 2. Potassium: occurence, properties, uses. 3. Calcium: compounds are, hydroxide, oxide for mortar, car- bonate for building material, making quick lime, flux in iron furnaces, sulphate, in water, hard and soft water, types of softness, how determined, how hard water is softened, phosphate for fertilizers, and bleaching powders for disinfecting and bleaching. 4. Magnesium: occurence, compounds, preparation, properties. 5. Aluminum: occurence, properties, preparation, uses. 6 . Study the following list of metals with special emphasis on (a) Practical uses and common compounds. (b) Electrolytic processes used in their separation from their compounds. (c) Their commercial production with the chemistry in- volved in the processes. i d ) Chemistry of iron and steel and their alloys. (e) The list of metals. 1 . Lead 4 . Iron 7 . Silver 2 . Copper 5 . Zinc 8 . Gold 3 . Tin 6 . Mercury 9 . Platinum (f) The list of alloys. 1. Brass 5. Fusible metal (Fire 2. Bronze 6. Sterling prevention.) 3 . Solder 7 . Pewter 4. Type metal 8. Gold coin NOTE: It is recommended that, so far as is possible, those stu- dents who are preparing to enter college shall continue the study of metals to the end of the second semester. Qualitative analysis should be introduced. This work, if offered, must be carefully and ac- curately done. A scientific and yet simple process of qualitative work can be found in "Unknowns" by M. C. White. (Write to Head of the Department of Chemistry, State College, Brookings, S. D. Price of pamphlet is 35c.) Those students who will not enter college should finish the remainder of this outline. Note: The following list of compounds should be perfectly familiar to the student at the end of his work in METALS. The list is not to be drilled on, but should be mastered as it naturally comes in the study of metals. Chemical Name. Ammonium Chloride Calcium Carbonate Calcium Carbonate Calcium Carbonate Calcium Oxide Calcium Oxide Calcium Oxide Calcium Oxide Calcium Sulphate Calcium Sulphate Copper Sulphate . Copper Sulphate Ferrous Sulphate Ferrous Sulphate Hydrochloric Acid Magnesium Hydroxide Magnesium Oxide Magnesium Oxide Common Name. Sal Ammoniac Chalk Marble Whiting Burnt Lime Quick Lime Lime Unslacked Lime Gypsum Plaster of Paris Blue Vitriol Copperas (Blue) Copperas (Green) Green Vitriol Muriatic Acid Milk of Magnesium Magnesia Epsom Salts Formula NH 4 C1 CaCO., CaCO, CaCO, CaO CaO CaO CaO CaS0 4 CaS0 4 CuS0 4 CuSO, FeS0 4 FeS0 4 HC1 Mg(OH) 2 MgO MgS0 4 FOR SOUTH DAKOTA 65 Potassium Acid Tartrate Cream of Tartar Potassium Nitrate Sodium Bicarbonate Sodium Carbonate Sodium Carbonate Sodium Carbonate Sodium Chloride V Niter Baking Soda Sal Soda Washing Soda Soda Salt (table) KHC 4 H 4 6 KN0 3 NaHC0 3 Na 2 C0 3 Na 2 C0 3 Na,C0 3 NaCl The Soil. 1 . Formation. 2 . Kinds. 3 . Chemical changes therein. 4 . Manures and fertilizers. VI . Function and Use of Food in the Body. 1. Carbohydrates: transformed into fat. Starch, glucose formation from starch, cane sugar. 2. Protein materials: build and repair tissues. Albumin, white of egg, casein, curd of milk, lean meat. 3. Fats and Oils: stored as fat. Butter and its substitutes: lard and its substitutes, olive oil, oil of corn and cotton seed, fat of meat. 4. Mineral matter of ash: shares in forming bones and assists in the processes of digestion. 5. Milk: testing, sterlization, pasteurization, products. 6 . Methods of food preservation and use of preservatives. 7. Fermentation: fermentation and digestion. 8 . Principles of nutrition; correct eating. VII. Cleansing Agents and Materials. 1 . Soap, polishing soaps, powders, alkalies, washing soda, borax, solvents, boiling in an aluminum dish. VIII. Protective Coatings. 1. Hard: tin, tinware, zinc, galvanized iron, nickel, nickel plat- ing. 2. Others: enamel, paints, varnishes. IX. Textiles. 1 . Typical fibers. 2 . Distinguish wool from cotton by sodium hydroxide test. 3 . Distinguish real from artificial silk by HC1 test. 4 . Destructive effect of heat on wool. THE COURSE IN CHEMISTRY should be based on the following: 1. At least thirty experiments by the pupils. (Required) 2 . Experiments by the teacher where lack of equipment or nature of the experiment prevents the pupils from doing them. 3. Subject matter as outlined. (Minimum). 4 . Adequate apparatus and chemicals with which pupils may work. 5 . Excursions for the study of local industries List of Suggested Experiments 1 . Electrolysis of water. 2 . Freezing mixture. Testing water for organic impurities by means of KMn0 4 Testing water for chlorides by means of AgN0 3 Testing water for ammonia by means of Nessler's Test 3. 4. 5. Solution, 6. 7. glowing 8. H 2 S0 4 Preparation of Oxygen by means of KC10 3 and MnO., Testing Oxygen as a supporter of combustion by means of splinter, fine wire, watch spring, glowing charcoal pencil. Preparation of Hydrogen by means of Zn strips and dilute 66 HIGH SCHOOL MANUAL 9 . Testing Hydrogen for its explosiveness by means of the Hydrogen gun — make gun from gas pipe 1 inch in diameter. Put iron plug in one end. Bore small hole through which mixture is to be fired. Confine two parts H and one part O in gun by means of cork. Apply match to firing hole and note results. 10. Testing Hydrogen for its inflamability by making soap bubbles of Hydrogen. Supply of H must be prepared and confined in gas bag (Bladder from volley ball) which is attached to pipe. Ignite bubbles with small torch (stick with candle attached) AFTER THEY LEAVE PIPE. 11. Soap: its uses in softening water and in testing the hardness (relative) of water. 12. Preparation and testing of nitrogen, (see suggestions in Course). Determine its properties. 13. Ring Test for Nitrates. 14. Carbon dioxide: preparation, test for properties. 15. Sulphur: several forms. 16. Preparation of Chlorine. 17. Preparation of Chlorine water under direction of Instructor. 18. Preparation of HC1. 19. Test products as in 4. 20. Test for Sulphates with BaCL. Note: If qualitative analysis is attempted the remainder of the year should be spent in experiments to perfect the students in the technique of that process. The following experiments should, in that case, be disregarded. 21. Soap making. 22. Soils: testing for acids, and vegetation analysis. 23. Formation of glucose from starch. 24. Determination of fats in milk. 25. Fermentation: action of yeast. 26. Stain removal from fabrics. 27 . Testing fibers. 28. Testing fire-proofing materials. 29. Solubility, conditions affecting. 30. Iron Compounds — blue prints. Laboratory Suggestions for Chemistry. 1 . An experiment may occupy a double period or any part thereof. 2 . Orderly arrangement of laboratory equipment and suggestions needed for safety should introduce this work. 3. The notebook may be divided as follows: (a) Experiments. (b) Classroom notes and outlines. (c) Clippings pertaining to the work. 4 . The above thirty experiments are suggestive only. Should the Instructor find some others of equal or greater importance he may substitute sucn instead of any of the experiments in the list. 5 . Suggestions for experiments may be had from (a) Manual No. 1. Experimental Course in Chemistry, Chemi- cal Rubber Co., Cleveland. (b) Book No. 1, The Fairyland of Chemistry, Nat'l Scienti- fic Supply Co., Cleveland. (c) Jones' A Laboratory Study of Household Chemistry, Allyn & Bacon. (d) Dull-Laboratory Exercises in Chemistry, Henry Holt & Company. (e) Smith-Mess, Exercises in Chemistry, Henry Holt & Co. FOR SOUTH DAKOTA 67 (f) Williams and Whitman's Lab. Exercises in Chemistry, American Book Co. (g) Allyn's Elementary Applied Chemistry, Ginn & Co. ( h ) Black's Laboratory Experiments in Chemistry, Macmillan (i) Nichol's Manual of Household Chemistry, Ginn & Co. CLASSROOM DEVICES To stimulate the pupils' memory of the properties of some of the unfamiliar substances they are using in the laboratory, the teacher might say, "I am thinking of some substance that you have used in the laboratory." The students then ask questions that can be answer- ed by "yes" and "no," e. g. "Is it a solid?" "Has it color?' This is continued until some pupil identifies the substance. The winner then thinks of some other substance and the game continues. As a drill method on the properties of the chemicals used, this game is very useful. In learning symbols and formulas, three or four short questions may be written on small cards, which should be placed face down on the desk. The questions should require only definite short answers, e. g., "What is the formula for sulphuric acid?" "What is the name given to the salts of nitric acid?" The first pupil should read the question from his card and call on some pupil volunteering for it. If the person called answers correctly, the card is passed to him and he reads the next question. If the first pupil called fails to answer, two other pupils are asked in turn. If the third fails to respond correctly the pupil who read the question may keep the card. At the end of the period the pupil holding the greatest number of cards has won. To measure accurately the individual student's knowledge of an assignment, the following devices are very useful: Twenty question, each of which may be answered in from one to five words, should be read slowly enough to permit the replies to be written at once. These should be marked immediately by the writer or another pupil. The papers may or may not be handed in. Some sort of report of results should be given, e. g., "Those who had 100 raise their hands." Then all who had from ninety to one hundred, etc. This need take but ten minutes for the writing and five for the results, not over 15 minutes in all. Ten minutes should be allowed for a written lesson, in paragraph form, on any single topic. Some of these may be read at once, or all may be collected and read by the teacher. The best and the worst may then be read to the class at the next period. Whether they should be simply recorded and destroyed or graded and returned, would depend upon the time at the disposal of the teacher for such work. Five practical questions that require an application of the assign- ment may be given, e. g., the following on sulphur dioxide and hydrogen sulphide: "Why do straw hats turn yellow with age?" "Why does white paint inside a house turn dark?" 'How and why may sulphur be used to put out a fire in a chimney?" "Why do eggs or mustard discolor a silver spoon?" "Why do copper ornaments in the house turn black?" This test should be answered in ten minutes. It may be tried at the beginning of the period after an assignment on the compounds named. The papers may be collected at once, and the questions then answered orally. The lesson may be continued until the last ten minutes and the same test then repeated. The two papers from each student may then be graded on the amount of improvement shown in the second attempt. 68 HIGH SCHOOL MANUAL Supplementary Reading Each student should select and report on one or two topics dur- ing the semester. A suggested list follows: 1 . The Commercial uses of oxygen. 2. The manufacture of lead pencils 3 . Carborundum 4 . Commercial uses of compressed air 5 . The Electric furnace 6. The mining of sulphur 7 . The making of matches 8 . Gunpowder 9 . Modern explosives 10. Manufacture of ink 11. Dyes and dyeing 12. Paints, oils and varnishes 13. Commercial fertilizers 14 . Story of alcohol 15. Story of sugar 16. Patent medicines 17 . Headache preparations 18. Food adulteration 19 . Uses of sulphuric acid 20. Manufacture of washing soda 21. Manufacture of soap 22. Manufacture of glass 23. Manufacture of cement 24. Manufacture of paper 25. Fixation of nitrogen from air 26. Cotton and linen 27 . Silk and wool 28. Photography 29 . Refrigeration 30. Bleaching 31 . Uses of lime 32. Food and diet 33. Rubber 34. Story of oil 35. Uses of nitric acid Textbooks in Chemistry McPherson & Henderson. Chemistry and Its Uses; Ginn & Co. Vivian, Everyday Chemistry; American Book Co. Willaman, Vocational Chemistry; Lippincott. Kahlenberg & Hart, Chemistry and its Relations to Daily Life; Macmillan Co. Ostwald & Morris, Elementary Modern Chemistry, Ginn & Co. Dull, Essentials of Modern Chemistry; Henry Holt Co. Brownlee et al., Chemistry of Common Things; Allyn & Bacon. Black and Conant, Practical Chemistry; Macmillan Co. Newell, General Chemistry; D. C. Heath. McPherson & Henderson, First Course in Chemistry; Ginn & Co. Irvin, Rivett and Tatlock; Elementary Applied Chemistry; Ginn & Company. Smith's, Elements of Chemistry; Century Co. A directory of publishers may be found in the Educational Red Book, and Bibliography of Agriculture Reference Books. Published by Division of Agricultural Education, University of California, Berke- ley, Calfornia, Jan., 1922. FOR SOUTH DAKOTA 69 Manuals for Teachers Smith & Hall, The Teachings of Chemistry; Longmans-Green Co., New York. Godfrey, Elementary Chemistry; Longmans. Perkins & Lean, Introduction to the Study of Chemistry; Mac- Millan Weed, Chemistry in the Home; American Book Co. Reference Books for Pupils Handbook of Chemistry and Physics, 8th edition; Chemical Rub- ber Company, Cleveland. Slosson, Creative Chemistry; Chemical Foundation, N. Y. Sadtler, Chemistry of Familar Things; Lippincott. Snell, Household Chemistry; MacMillan. Richards & Elliott, Chemistry of Cooking and Cleaning; Whit- comb & Barrows. Benedict, Chemical Lecture Experiments; Macmillan. Olsen, Pure Foods; Ginn & Co. Sherman, Chemistry of Food and Nutrition; Macmillan. Bailey, Sanitary and Applied Chemistry; MacMillan. McCollum, The Newer Knowledge of Nutrition; Macmillan. Bird, Modern Science Reader; MacMillan. Duncan, Chemistry of Commerce; Barnes. Duncan, Some Chemical Problems of Today; Barnes. Duncan, The New Knowledge; Barnes. Martin, Triumphs and Wonders of Chemistry; Van Nostrand. Philips, Romance of Modern Chemistry; Lippincott. Snyder, Chemistry of Soils and Fertilizers; Chemical Publishers. Minimum List of Chemical Apparatus Table with drawers for individual apparatus. 1 Trip balance and set of weights 2 Thermometers. 10 to 110c 3 Nests of beakers 2 Graduated cylinders. 25 C. C. 2 Conical graduates. 250 c. c. 3 Pkgs. filter paper to fit funnels 6 Florence flasks. 250 c. c. 6 Four ounce bottles, glass stoppers. 6 Hard glass test tubes 2 One liter bottles with glass stopper. 1 Earthen-ware waste jar 2 U Tubes — 6 inch and 2 one-hole stoppers to fit. 2 Bunsen burners or alcohol lamp 1 Blast lamp 10 Feet rubber burner tubing. 2 Blowpipes 2 Wing tops for burners 2 Squares thick asbestos board 12x12 2 Iron stands with ring, clamp and Burette clamp 2 Test tube racks 6 Test tube holders 6 Test tube brushes 2 Deflagrating spoons 6 Pieces wire guaze 4x4 inches 12 Rubber stoppers — one hole — to fit 8x1 inch tubes 12 Rubber stoppers — two holes — to fit 8x1 inch tubes 6 Feet rubber tubing to fit glass tubing 4 Iron forceps or crucible tongs 70 HIGH SCHOOL MANUAL 1 Gross test tubes 6x3/4 inch 6 Crucibles and covers 3 Porcelain mortars and pistles 6 50nimx5 0mm Colbalt blue glass 1 in platinum wire in glass rod holder — 1 per student. 11 Visual Instruction MOTION PICTURES IN TEACHING CHEMISTRY. Film Mag. Sept. 1920. Henry Bollman, 67 W 44th St., New York City, lists the following films: The Story of Sulphur The Story of the Lucifer Match Smoke Rings — third series — Science at Home Chemical and Mechanical Experiments. Part 2 — Science at Home Science of a Soap Bubble The Chemistry of Combustion. — Also produced by Educational Films Corp. Tests of Building Construction Material Childhood The University of Wisconsin lists appropriate films under pamph- lets entitled "Nature Study and Science Teachings" and also "Home Economics." Chemical Action: Crystals, Beseler; Educational Film Co., New York City. Marvels of Crystalization, Chas. F. Herm, 220 W. 42nd St., New York City. Pathe Review No. 109, Making of Radium; Pathe Pathe Review No. 113, Luminous Radium; Pathe Crystals in Formation, S. Kleine Asphyxiation Gases, Educational Films Corp. How Plaster is Obtained, Beseler Liquid Air, Atlas Educational Film Co. The Electrolysis of Metals, Educational Films Corp. Oxygen, Atlas Educational Film Co. Crystals, Atlas Educational Film Company. See "General Science" division for address of Film Companies and list of free films Illustrative Material Unless indicated, the following material may be had free of charge. CEMENT AND CONCRETE. 1. American Portland Cement Co., 140 S. Dearborn St., Chicago, Illinois. 2 . Pacific Portland Cement Co,, Pacific Bldg., San Francisco, Calif. 3 . Old Portland Cement Co., San Francisco, California. ASBESTOS. H. W. Johns Manville Co., 201 Clyborn St., Milwaukee. BUTTONS. German American Button Co., Rochester, New York. Baking Powder. Royal Baking Powder Co., New York City. Cream of Tartar Exhibit. CEREALS. Quaker Oats Co., Fort Dodge. Iowa, Pillsbury Flour Co., Minnea- polis, Minn. CARBORUNDUM. Carborundum Company, Niagara, New York. FOR SOUTH DAKOTA 71 COTTON. Textile Industries. Chamber of Commerce. Manchester, N. H. CHOCOLATE Hershey Chocolate Company, Hershey, Pa. FERTILIZERS Virginia-Carolina Chemical Co., Richmond, Va. Western Meat Company, San Francisco, Calif. Morris Packing Company, Chica- go, Illinois. Armour and Company, Chicago, Swift and Company, Chicago, Illinois. FIBER. American Vulcanized Fiber Co., Wilmington, Del. International Harvester Co., Chicago, 111. (35 cents) OILS. New York Lubricating Oil Co., 20th & Minn. St., San Francisco, Calif. Tidewater Oil Co., San Francisco, Calif. FLOUR. Washburn, Crosby Co., Minneapolis, Minn. The Sperry Flour Company, Stockton, Calif. Russell Milling Co., Minneapolis, Minn. PENCILS. Eberhard Faber, New York City. PETROLEUM Standard Oil Co., San Francisco, Calif. POSTUM — GRAPE NUTS. Postum Cereal Co., Battle Creek, Michigan. SILK. Nonotuck Silk Co., Florence, Mass. Cheney Silk Co., 7th and Clark Ave., St. Louis, Mo. T. A. Kelleher, Box 82, Washington, D. C. — $1.75 Ig. col. SALT. Diamond Crystal Salt Co., St. Clair, Mich. German Kali Works, Chicago, 111. SOAP. Larkin Co., Buffalo, N. Y. Java Cocoanut Oil Co., Kansas City, Mo. SOILS. Bureau of Soils, N. S. D. A., Washington, D. C. ($1.75) THREAD. Spool Cotton Company, 315 4th Ave., New York City. TUNGSTEN ORE. General Electric Co., Schenedtady, N. Y. — Fine exhibit. WOOL AND YARN. National Wool Warehouse & Storage Co., Chicago, 111. North Star Woolen Mills Co., Minneapolis, Minn. WOOD. Southern Cypress Ass'n., New Orleans, La. BULLETINS. Great Fraud Patent Medicines. American Med. Ass'n., Dearborn St., Chicago, 111. Food Comparisons. Nat. Dairy Council, 910 S. Michigan, Chicago. 111. Food Value of Dairy Products. California Dairy Council. San Francisco, Calif. Soil Sense. Oliver Chilled Plow Works, San Francisco, California. Bibliography Garber E., Teaching Chemistry by the Project Method. School Science & Mathematics. May 1921. Send for price lists No's 40 and 46, Superintendent of Documents, Washington, D. C. 7 2 HIGH SCHOOL MANUAL GENERAL SCIENCE (One Unit — Half Unit.) I. The Air and Its Use. 1 . Air as a real substance. Does air have weight? Calucate weight of air in room. Does air exert pressure? Make a mercurial barometer. Types of barometers, and uses (to indicate height and forecast weather); Suction, force, exhaust, and bicycle pumps; sip- hon; compressed air; liquid air; balloons; airplanes; foot- ball; automobile tires. 2 . Air for Fire and Breathing. Composition of air: How is the amount of oxygen and carbon dioxide kept constant? Nitrogen: relation to soil fertility and plant life. Helium: its use in balloons. Oxida- tion; Matches. Oxidation helps us work. The value of deep breathing. 3 . Air and health. Ventilating the home; dust in the air; cleaning and dusting; contagious disease; prevention and spreading of disease; insects and disease; health officers and school hygiene; how to keep well; antiseptics and germicides; importance of clean methods of handling foods; relation of molds and yeast to man's life. n. Water and Its Uses. 1. Water in our homes (see "proposed projects"). Impurities in water; methods of purifying; city water sys- tems; the home water supply system; water pressure; sewage disposal; the physical states of water; idea of molecules and atoms; cooking food by boiling; water as a solvent; hard and soft water. 2 . Water in the air. Evaporation; the thermometer; temperature and amount of water vapor in the air; humidity of the air — relation to health; wet and dry bulb thermometers; wind; weather maps; the weather bureau and its importance. 3 . Water and the soil. The action of water, ice, wind, air, plants, and animals in making soil; physical structure and fertility of the soil; how water rises in the soil; how to save the moisture in the soil; drainage and irrigation; reclaiming desert regions; reclaiming swampy regions; acid soil and how to correct it. III. Foods. 1 . Plants Importance in the life of man; how is plant life carried on? Nitrogen-fixing bacteria; organic and inorganic foods. 2 . For the Human Body. Classification of foods; how to select foods; tea, coffee and alcoholic drinks; taste and digestibility; why we cook foods; quality and cleanliness; balanced meals according to age, seasons of year and occupation. ACCORDING TO AGE 5-10 yrs. 10-20 yrs. 20-30 yrs. Breakfast Peaches Prunes Orange Milk Two Eggs Eggs or Milk Oatmeal Oatmeal Wheat or C Bread Honey Milk Steamed Figs FOR SOUTH DAKOTA 73 Milk Wheat Bread Corn Egg Custard Peas or Beans Potato Cheese Raisins Bread Pudding Lunch Potato W. or C. Bread Vegetable Milk Dinner Corn Peas Fish or egg Bran Gems Custard Egg Sandwich Corn Muffins Nuts Milk Vegetable Soup Celery or Lettuce Potato Fish or Buttermilk Ice Cream or Gelatin Spring and Summer Melon, Peaches or Pi Dates or Figs Nuts or Cream Ripe Banana Egg (whipped) Bran Pint Buttermilk New potato Whole Wheat Bread Butter Lettuce and celery Smoked fish Cheese and peanut butter Young Carrots as a salad Potato (small amount) Peaches or Prunes ACCORDING TO SEASON (Sedentary Workers) Fall and Winter Breakfast Lunch Dinner Grapes or Peaches Oatmeal or Boiled Rice Cream Eggs or Milk Corn Bread Butter Buttermilk Vegetable Soup Celery, nuts Potato Turnips Baked Beans Gelatin or Custard 3 . In the home. Why foods spoil; action of bacteria, molds and yeast on food; yeast as a friend and foe; drying foods; canning; pure food and drug laws; danger in meat; cleanliness in the kitchen. IV. The Earth in Relation to Astronomical Bodies. 1 . The sun and other stars. Constellations, the north star, and solar system. 2. The moon, planets and comets. Years, seasons, day and night, time, and gravitation. V 7 . Protection and Comfort. 1 . Building our homes. Choosing, planning, beautifying and constructing the home — the foundation, walls, floors, and roof; materials used in building; brick, concrete, stone, and stucco construction. 2. Lighting our homes (see "proposed projects") Why objects are visible; reflection, refraction, mirrors; use of lens in reading glass, moving-picture machine, stere- opticon and microscope; camera; the human eye, over and under illumination and its attending eye strain; candle, kero- sene, gas and electric lights; electric cells, conductors and insulators; fuses; switches. 74 HIGH SCHOOL MANUAL 3 . Heating our homes. Kinds of fuel; radiation, conduction, and convection; the fire- place, s*tove, and furnace as a heater; hot-air, hot-water, and steam heat; chimneys; refrigeration and its uses; fireless cooker, electric toaster, iron and other appliances. 4. Clothing. Purpose of clothing; cotton, linen, wool, and silk: clothes as conductors of heat; perspiration; cooling effect of evapora- tion; relation of color of clothing and their warmth; water- proof clothes; the action of soap: how to remove stains; clothes moths. VI. The Work of the World 1 . Machines Simple machines; the lever — its mechanical advantages; the crank, axle, pulley, inclined plane, wedge and screw; com- plex machines — mowers, binders and sewing machines; friction; measure of work. 2. Communication. Telegraph; telephone; newspaper; study of electric bell, and its repair; wireless telegraph and telephone; electromagnets; compass and its use; writing and printing; signaling; types of magnets. 3 . Transportation. On land — locomotive, electric trolley, automobile; on water — steamboat and submarine; by air — airships and airplanes; compare steam and gas engines; parts and working of an electric motor; principle of the dynamo; Archimedes prin- ciple. 4 . Life upon the earth. Reproduction in plants and animals; kinds of pollination; the meaning of heredity, and selection; destroying flies and mosquitoes. r> . "Safety First." Cause and prevention of accidents; sinking; taking chances; danger in and about the home; use of gasoline and benzine; dangers outside the home; emergency treatment. THE COURSE IN GENERAL SCIENCE should be based on the following: 1 . Subject matter of value secured from the student's environ- ment which will therefore vary in different localities. 2. Laboratory work (including well-planned excursions fol- lowed up in class) in the problem or project form — 30 ex- periments being required. 3 . A full time one-year course, offered to ninth grade pupils only. 4 . At least two double time weekly periods for laboratory work performed by the pupils themselves. 5 . Adequate equipment and reference books. The work should be simple but fundamental. Abstract formulae are to be avoided. And the presentation of facts and their analysis and correlation should be made from the non-mathematical point of view. List of Suggested Experiments Other topics or projects may be introduced or substituted. 1 . Some uses of the vacuum. 2 . The Mercury Barometer. 3 . Expansion and contraction of solids by temperature. 4. Ventilation and humidity (at home). FOR SOUTH DAKOTA 7 5 5 . Hot-water heating systems. 6 . Principles of fireless cookers and thermos bottles. 7 . Nature of carbon dioxide and its relation to respiration. 8 . Comparative study of the elements oxygen and hydrogen. 9 . How molds and yeast plants live and grow. 10. Changes in volume when water freezes. 11. What happens when water boils? 12. Effect of evaporation upon temperature. 13. How liquids are transferred by the siphon and lift pump. 14. What determines whether objects float or sink? 15. Individual study of farm machines such as mowers and bind- ers. 16. Comparative results of pulleys and pulley systems (at home) 17. Comparative results of levers (3 horse eveners), wheel and axle. 18. How a flashlight operates, also door bell and telegraph in- strument. 19. How is the cost of electricity determined? 20. Permanent magnets and their uses. 21. How does the electric motor and steam engine operate? 22. The ability of soils to hold water. 23. The moon's change in appearance. 24. Preparation of soap and the action of acids and bases. 25. Action of heat and baking powder in baking. 26. The removal of stains. 27. Milk testing and the feeding of farm animals. 28. Variation in ears of corn. 29. What makes soil fertile? 30. How plant roots absorb water. Supplementary Reading Each student should select and report on one or two topics dur- ing the semester. A suggested list follows: 1. Home insects 10. Control of the plant world 2. Communication 11. Planting a window box 3. Metals of my neighborhood 12. Growing an acre of potatoes 4. Electricity in the home 13. How life begins 5. Our planets 14. Control of animal life 6. How to keep clean 15. Relative value of asbestos, 7 . Story of River sawdust and ground cork. 8. The Weather (reference: — U. S. Govern- 9. Water for the home ment Pub. S. & R. Catalog.) Proposed Projects Lighting our Home 1 . Natural light in the home. a. Reflection and diffusion of sunlight. b . Arrangmeirt of windows. c. Choice of wallpaper and hangings. d . History of glass, how it is made. Ref: — Caldwell and Eikenberry; Van B. and Smith; Hunter and Whitman; Trafton. 2 . Artificial light in the home, a . Candles. Find conditions needed for a candle to continue burning and study burning of candle. Also special report, "How candles are made." Ref: — Caldwell and E. Van B. and S.; Trafton. 7 6 HIGH SCHOOL MANUAL b. Oil. Study structure and working of kerosene lamp. Also special reports on "Sources and Method of purifying coal oil." and "Description of oil well." Ref: — Caldwell and E.; Van Buskirk and Smith; Trafton; Clark; Hunter and Whitman. c. Electricity. Visit power plant. How distributed? How do the fuses protect my home? What causes the bulb to give light? Why can I light one lamp without lighting all? Why does pushing a button put out the light? How is the bulb made? Why better illumination from tungsten filament than car- bon? How is electricity measured? How may electricity be changed to light? What things conduct and what do not? How are lights connected? Read the meter and com- pute cost of electricity used. Ref: — Caldwell & E; Van B. and Smith; Trafton; S & J; H. & W. d . Arc lights. How does a carbon arc work? See Smith and Jewett. 3 . Direct and Indirect Lighting. a. Advantages and disadvantages of each. b. Relation of light to good eyesight. c. Requirements for proper artificial lighting. Ref: — Caldwell and E; Smith & Jewett; Hunter & Whitman. For laundry, sanitation, beverage, cooking foods, heat carrier. Wat or in Our Homes 1 . Uses. and power. 2. Sources: In my community. Why selected? Is it sufficient in case of exceptionally long draught? If not, what other provisions are made? 3 . How transferred from source to consumer. Note reservoirs, basins, standpipes, pumps, filtration plant. 4 . How purified. Precaution taken to keep source clean. What are some im- purities found in water? What chemicals are used? Why? How efficient is filtration plant considered? Has any out- break of disease ever been traced to water supply? How often tested? Compare methods of other communities. 5 . Pressure in mains. What added pressure does the sandpipe give? Is there suf- ficient pressure for the outlying districts? 6 . Special Considerations. a . Kinds of water and characteristics of each. Hard and soft water. Influence upon fabrics in wash- ing. Tests for hardness. Action as solvent. Kind in this community. b . Action upon pipes and vessels. Materials to use. Power of rusting and erosion. c. Methods of control. Faucets, taps, automatic float feeds . Study advan- tages of the different types. Compute cost of leaky faucet for a month. Textbooks in General Science Caldwell & Eikenberry, "General Science"; Ginn & Co. Caldwell, Eikenberry & Green, "Laboratory Problems"; Ginn & Co Van Buskirk & Smith, "Science of Everyday Life"; Houghton, Mifflin. FOR SOUTH DAKOTA 77 Hodgdon, "Elementary General Science"; Hinds, Hayden & Eld- redge. Hunter & Whitman, "Civic Science in the Home"; American Book Co. Trafton, "Science of Home and Community"; MacMillan. Smith and Jewett, "General Science"; MacMillan. Hunter and Whitman, "Civic Science in the Community"; Ameri- can Book Company. Washburn, "Common Science"; World Book Co. Elhuff, "General Science"; Heath. Snyder, "Everyday Science"; Allyn and Bacon. Waekel & Thalman, "A Year in Science"; Row, Peterson & Co. Barber, "Science for Beginners"; Henry Holt & Co. Fall, "Science for Beginners"; World Book Co. Manuals are published for most of these text books. Reference Books for Students Bond, "Inventions of the Great War." Collins, "Inventions for Boys." Collins, "Book of Electricty." Collins, "Book of Wireless." Lane, "Triumphs of Science." Gilmore, "Boys' Book of Astronomy." Martin, "Friendly Stars." Mitton, "Book of Stars for Young People." Proctor, "Giant Sun and his Family." Pearson, "Bird Study Book." Rodgers, "Wild Animals Every Child Should Know." Rodgers, "Trees Every Child Should Know." Rodgers, "Useful Plants Every Child Should Know." Smith, "Romance of Aircraft." Turner, "Air Craft of Today." Bodmer, "Book of Wonders." Corbin, "Romance of Submarine Engineering." Fournier, "Wonders of Physical Science." Bolton, "Famous Men of Science." Official Handbook, Boy Scouts of America, Doubleday, Page & Co. "The Barometer as the Foot Rule of the Air" and "The Moun- tains of Cloudland and Rainfall" 10 cents each, Taylor Instrument Co., Rochester, N. Y. Charts of Automobile, Steamship and Gas Engine (50 cents each) Popular Mechanics. Creative Chemistry, and Bulletins Chemical Foundation, 81 Fulton St., N. Y. Value Compressed Yeast (free), Fleishman Yeast Co.. 701 Wash. St. N. Y. City. Monographs B-l, B-2, B-3, B-5, Western Elect. Instrument Co., Newark, N. J. Free Exhibit Material Aluminum — Aluminum Co. of America, Westminister Bldg, Chicago. Asbestos — Keasby and Mattison Company, Ambler, Pa. Baking Powder — Royal, 135 William St., New York City. Cocoa and Chocolate — Walter Baker Co., Milton, Mass; Hershey Choco- late Co., Hershey Pa.; Walter Lowney Co., Hanover St., Boston, Coffee — National Coffee Roaster Ass'n. 39 Oldslip, N. Y. ($1.00) Cork — Armstrong Cork Co., Pittsburgh, Pa. Corn Products — Amer. Mrg. Ass'n. of Products from Corn, 20 8 LaSalle St. Chicago. Fertilizers — York Chemical Works, York, Pa., or Swift & Co. South St. Paul, Minn. Flour — Pillsbury Flour Co., Minneapolis, Minn. Grain — Postum Cereal Co., Battle Creek, Mich., or Quaker Oats Co., Chicago. 7 8 HIGH SCHOOL MANUAL Limestone — Indiana Granite, 112 W. Adam St. Chicago. Paints and Varnish — Sherwin-Williams Co. 611 Canal St. Cleveland, Ohio. Salt — Worcester Salt Co. 71 Murray St., New York City. Silk — Belding Brothers & Co., 201 W. Monroe St. Chicago. Zinc — N. J. Zinc Company, 55 Wall St. New York City. Watches — Elgin National Watch Co., Elgin, 111. Larkin's School Exhibit — Buffalo, N. Y., (35 cents). Assortment of Elegant food charts — U. S. Dept. of Agri. ($1.00) Home Economics States Relations Service. Send for list of mounted material from University School Supply Co., Columbia, Mo. Also "School Set of Seeds", Bureau of Plant Industry, U. 5. Dept. of Agri. Cement — The Atlas Portland Cement Co., New York. Seeds — Northrup King & Co., Minneapolis, Minn. Armour Fertilizers Works at Chicago and Sherwin-Williams Co., Chicago also have free exhibits for schools. Wilson's Meat Charts, c/o Dom. Sci. Dept. Wilson & Co., Chicago. Classroom Devices To ascertain ability of pupils, early in term, for sectional assign- ment, the following tests may be given: TEST NO. I. Fill in blank spaces with the proper word. 1 . A is used to measure temperature. 2 . The year is divided in four . 3 . The force of causes objects to fall to the earth. 4 . The of a plant develops into fruit. 5 . Iron is extracted from . 6. Water freezes at degrees Fahrenheit. 7 . It is now the season in Chile. 8 . Gasoline is usually extracted from . 9. When the sun's light is shut off by the moon an occurs. 10. Many diseases are communicated by —on soiled hands. TEST NO. II. — If statement is true, underscore "true", if false under- score "false" 1 . New moon comes on the first day of each month. True. False. 2 . T. N. T. is a much-used explosive. True. False. 3. Electricity is a liquid flowing through wires. True. False. 4 . The sun travels around the earth. True. False. 5 . Living things are either plants or animals. True. False. 6 . Birds go south in winter to raise their young. True. False. 7 . Cows have cloven hoofs. True. False. 8 . Wireless telegraphy was discovered by Benjaman Franklin. True. False. 9 . Wool is grown on a tropical plant. True. False. 10. Worms fall to earth during severe rains. True. False. TEST NO III. — Write after each the thought suggested: 1. Sunkist 13. Vacuum cup 2. Fifty-seven 14. Lusitania 3. His Master's Voice 15. It floats 4. Mazda 16. Chases dirt 5. Skookum 17. There's a reason 6. Eat-more 18. Eventually, why not now?.... 7. Peruna 19. Shot from guns 8. Keds 20. Hasn't scratched yet 9. Foch 21. Pershing 10. Overland 22. Paramount 11. Bolsheviki 23. Collier's 12. Kryptok 24. Ever-ready FOR SOUTH DAKOTA 79 The time at the start and again at the finish should be indicated at the top of the front page; together with the name and age of the pupil. General Science Equipment Practically all material needed will be found in the Physics and Chemistry laboratory. An "Erector," "Meccano", "Exchem-co", and "Chemcraft" set are very good for science clubs, and automobile clubs. A minimum list is arranged below. 2 beakers pyrex, 250 cc 1 battery jar 100x125 mm 1 meter stick 1 ringstand, 2 rings 1 glass plate 4x4 inches 1 bar magnet 1 compass, magnetic 12 feet rubber tubing, 3/16 inch 2 lbs. glass tubing, 5 to 7 mm 1 lb. iron filings 2 pkgs. blue and red litmus paper 1 box candles 1 lb. copper wire, insulated 48 test tubes 5x5/8 12 corks, assorted 12 test tubes 8x1 in. 1 triple scale 1 set weights, iron, 10-500 g. 1 burdette clamp 1 force pump, glass model 2 pulleys, single and double 1 bell jar 1 barometer tube and pipette 1 electric bell, 2y 2 in. gong 2 push buttons 1 test tube holder 1 thistle tube 1 mirror, plane, 4x15 cm 12 bottles, wide mouth 8 oz. 1 alcohol lamp, 4 oz. or Bunsen Burners 3 ft. rubber tubing 1/4 inch 1 rubber stopper, 2-hole 2 flasks, pyrex, 500 cc 1 lb. nitric, and hydrochloric acid 1 lb. sulphuric acid 1 lb. copper sulphate 4 oz. Fehlings sol. "A" and "B" 4 oz. oxalic acid, crystals 1 lb. manganese dioxide and marble chips 1 lb. sulphur and potassium chlorate 3 clamp holders 1 graduate, cylindrical, 100 cc 1 lift pump, glass model 1 air pump, vacuum and pressure 6 feet rubber tubing 1/4 inch 1 Washington collection rocks and mineral 1 pound mercury and mercury well 4 dry cells 1 telegraph set 80 HIGH SCHOOL MANUAL Visual Instruction Many industrial and commercial companies have motion picture films of educational value, which they are willing to loan free of charge to schools. A splendid classified list of such films may be had by writing to the Bureau of Education, Washington D. C. for the "Extension Leaflet No. 2" entitled "Films in Possession of Associa- tions, Commercial and Manufacturing Companies." Another list may be found in the Educational Red Book. Film Distributors and Their Nearest Exchange Associated First National Pictures, Inc., Des Moines, la., 326 Iowa Bldg. Atlas Educational Film Co., Oak Park, 111., 1111 South Blvd. Bureau of Commercial Economics, Washington, D. C. Beseler Educational Film Co., New York City, 71 W. 23rd St. Carter Cinema Co., New York City, 220 W. 42nd St. Community Motion Picture Bureau, Chicago, 111., 5 S. Wabash Ave. Educational Films Corp. of America, Minneapolis, Minn., Loeb Arcade. Educational Motion Picture Bureau, Boston, Mass., 308 Boylston. Educational Pictures Co., Chicago, 111., 406 Englewood Ave. Equitable Film Corp., Kansas City, Mo., 928 Main St. Famous Lasky Players Corp., Minneapolis, Minn., 601 N. First Ave. Exhibitors Mutual Dist. Corp.. New York City, 1600 Broadway. First National Exhibitors, New York City, 6 W. 48th St. First National Exchange, Ltd., Vancouver, B. C, Standard Bank Bldg. Fox Film Corporation, Minneapolis, Minn., 608 First Ave. N. General Film Company, New York City, 25 W. 44th St. Goldwyn Distributing Corp., Minneapolis, Minn., 16 N. Fourth St. Goldwyn-Ford, Minneapolis, Minn., 16 N. Fourth St. International Church Film Corp., New York City, 920 Broadway. Kineto Company of America, New York City, 71 W. 23rd St. George Kleine, Chicago, 111., 63 E. Adams St. Lea-Bel Company, Chicago, 111., 64 W. Randolph St. Metro Pictures Corp., Minneapolis, Minn., Produce Exchange Bldg. New Era Film Co., Chicago, 111., 207 S. Wabash Ave. Pathe, Inc., Minneapolis, Minn., 608 First Ave. N. Red Cross Travel Series, American Red Cross, New York City. Robertson-Cole Dist. Corp., Minneapolis, Minn., 309 Loeb Arcade Bldg. Triangle Film Corp., New York City, 1457 Broadway. United Artists Corp., Minneapolis, Minn., 420 Film Exchange Bldg. Universal Film Exchange, Minneapolis, Minn., 721 Third Street. Vitagraph Exchange, Minneapolis, Minn., 608 First Ave. N. World Film Corp., New York City, 71 W. 23rd St. Y. M. C. A. Motion Picture Bureau, New York City, 347 Madison Ave. Y. W. C. A. of the United States of America, New York City, 600 Lexington Ave. An extended list classifying the number of reels available for distribution by the State Universities of the country, will be found in the reference book entitled "1001 Films" compiled by the Motion Picture Age, Chicago, 111. This booklet also classifies the films listed. A very complete classification of film subjects may be found in the "Loose-Leaf Catalog and Information Service" published by the Educa- tional Film Magazine, 33 West 42nd Street, New York City. Additional film companies are listed in the Educational Red Book published by C. F. Williams & Sons Inc., Albany, New York. The United Projector & Film Corp., 67 W. Mohawk St., Buffalo, N. Y., publishes a general science course hand-book of motion picture films. FOR SOUTH DAKOTA 81 For suggested films in general science see "Chemistry" and "Physics" divisions. A handbook of general information entitled "Motion Pictures and Motion Picture Equipment" is published by the U. S. Bureau of Edu- cation. Bulletin, 1919, No. 82. Magazines For Pupils: The Illustrated World. Scientific American and Supplement. Literary Digest. Popular Science Monthly. (The Teacher's Service Sheets furnished with each issue are very valuable.) The above mentioned should be available in every high school. American Boy. Boy's Life (Boy Scout Magazine.) Boys' Magazine. Popular Mechanics. Science & Invention (formerly The Electrical Experimenter). Scientific Monthly. For Teachers: General Science Quarterly. School Science and Mathematics. American Journal of Science. Classified list of all American periodicals, giving subscription prices, may be procured from the Moore-Cottrell Subscription Agency, North Cohocton, New York; The J. M. Hanson-Bennett Magazine Agency, Jackson Blvd., Chicago; The A. W. Rundquist Company, West Lake Street, Minneapolis, Minnesota. Bibliography Moore, J. C. Project Science, Progressive. Sch. Sci. & Math., Nov. 1916. Stevenson, J. A. Project in Science Teaching. Sch. Sci. & Math. Jan., 1919. Trafton, G. H. Project Teaching in General Science. Sch. Sci. & Math., April, 1921. Wade, E. G. Utilization of the Chance Project in Science. Sch. Sci. & Math. December, 1920. Wake, W. S. Project Method in General Science. Sch. Sci. & Math. October, 1919. Woodhull, J. F. Project Method in Teaching Science, Sch. & Soc. Jan. 13, 1918. Woodhull, J. F. Projects in Science. Teach. Co. Rec. 17:31, 1916. Woodhull, J. F. Science Teaching by Projects. Sch. Sci. & Math. 15:225, 1915. Com. Report. Reorganization of Science in Secondary Schools. Bulle- tin No. 26, 1920. u. S. Bureau of Education. Loomis & Carr. A course in Gen. Sci. for vocational home economics schools. General Science Quarterly, November, 1921. Webb, H. A. Gen. Sci. instruction in the grades. Bulletin No. 4, George Peabody College for Teachers, Nashville, Tenn. Price List No. 48 and 42. Superintendent of Documents, Washington, D. C. Send for the "Record of Current Educational Publications" issued monthly by the U. S. Bureau of Education, Library Division. 82 HIGH SCHOOL MANUAL PHYSICS SYLLABUS (One unit) CONTENT OF THE COURSE I. MECHANICS Properties and classification of matter: 1 . Solids. (a) Practical illustrations to define work and unit for measuring work (foot-pound). Force and methods of measuring force. See "Introductory Lesson." (b) Composition and resolution of forces: traveling crane, child pulling sled or cart, the pendulum. (c) Simple machines. Inclined plane; jack-screw, wedge, practical hauling. Lever: parts and application in whipple-tree, block and tackle (pulley), eveners, wheel and axle, effect of size of wagon wheel upon pull re- quired. Efficiency: measure work in and work out. Distinction between mechanical advantage and effici- ency; power; friction, laws of friction; hot-boxes. (d) Study of moments. Derived from discussion of levers. Visits to local machine shops, foundries and power plants will clinch a practical application of machines and their work. (e) Mechanical energy. (f) Stability. Introduced by "Tumble Jack", "Ballast in a Ship", Center of gravity and means of increasing sta- bility. (g) Laws of universal gravitation, inertia, action and re- action, momentum. 2 . Fluids. (a) Pressure due to gravity. Atmospheric: barometer, principle as applied in suction, milking machines and breathing. Liquids: water-supply, artesian wells, force pump, gravity system in community, siphon. (b) Boyle's Law: air pump, bicycle pump, tires, basket- ball, football. (c) Archimedes' principle: buoyancy, submarines, balloons, airplanes, boats, density, volume of irregular body. (d) Pascal's law: hydraulic elevator, hydraulic press, bar- bers' chairs. (e) Molecular forces: capillarity, absorption of gases (illus- trated by lamp wicks and ammonia fountain). (f) Application of work principle to flowing liquids under pressure. II. HEAT 1. Study of school heating system. (See "Heating System of High School.") This will lead to methods of heat trans- ference which should be found by visiting different heating plants in the community. Units of measuring heat may be introduced by asking "which gives more heat, a pound of wood or a pound of coal?" "Here heat must be measured, but how?" This leads to a discussion of thermometers, test- ing accuracy of thermometers, absolute zero, Charles' Law. 2 . Problems of ice manufacture, refrigeration, distillation of water and petroleum, formation of dew, rain, hail, snow, and frost, will lead to vaporization in its various forms, "Heat of Vaporization" and "Heat of Fusion." 3 . Specific heat. Expansion due to heat. Effect on railway rails. 4 . Heat and work. Study steam and gas engines. FOR SOUTH DAKOTA 83 5 . Mechanical equivalent of heat. 6 . Heat a form of energy, transformation of energy, conser- vation of energy. III. ELECTRICITY. Approach may be made by taking up the fundamental principles of electricity and magnetism first, if desired. 1 . Study the electric bell and telegraph. This will develop a study of complete circuits, cells, kinds of cells with their weak and strong points, methods of connecting them, electro- magnets and the earth's magnetism. 2 . Lighting effects of a current. If a storage plant or power plant is not available improvise a miniature electric lighting plant with dry cells and three 3-volt lamps. 4 . Heating effects of a current. From the lighting and heat- ing effects derive the idea of resistance and E. M. F., and units for measuring these (ohm and volt). 5 . Chemical effect of a current. (a) Storage cell — lead type only, electro-plating. From this derive the idea of current and unit for measuring it. (ampere). 6. Relation of volt, ohm and ampere. (Ohm's law.) 7 . Cost of operating modern electric appliances — lights, iron, vacuum cleaner, emersion heater and percolator and others. 8 . Magnetic effect of a current resulting in rotation, voltmeter, ammeter and motor. 9 . Methods of producing current other than the cell. Necessity for other methods. Dynamo and induction coil. Laws of induced currents. 10. Transformers and telephones. Visit the local plant and central telephone office. 11 . Brief survey of static electricity, the electrophorns, lightning rods and also a study of wireless. IV. SOUND. 1 . Study the phonograph and other familiar instruments. 2. Distinction between musical sound and noise: pitch, speed of sound and medium. 3. Simple and complex wave motion; relation of frequency; wave length and velocity. Amplitude, loudness, interfer- ence, beats, discord. 4. Properties of vibrating strings and of air columns. 5 . Resonance and reflection, accoustics. 6. Music: scales, fundamentals and overtones. V. LIGHT. 1 . Study the pin hole camera and human eye. This leads to discussion of image formation. 2 . Rectilinear propogation of light, photometry, illumination, intensity. 3 . Formation of images by lens as in the eye and camera. Use of lens in correcting faulty eyesight. Combination of lenses in microscope, telescope. 4 . Refraction and reflection. 5. Color: Introduce by throwing the spectrum on a screen and holding pieces of colored cloth in different parts of spectrum. Another way is to ask "Why is it so hard to match colors by artificial light?" Another way is to burn in a dark room, a little alcohol to which some salt has been added and notice the effect of the sodium flame upon the skin. 84 HIGH SCHOOL MANUAL 6. Colors and pigments: Theory of color vision — rainbows and halos. Students who expect to enter college should be re- quired to spend the last few weeks discussing topics re- quired for College entrance that have not been included in this course. The course in physics should be based on the following: 1 . Laboratory work preferably in the problem or project form — 3 6 exp. being required, 50 exp. regarded as the maximum. 2 . The opportunity to consult other scientific literature, with encouragement to do so. 3 . Lecture table demonstrations to illustrate the facts and phenomena of physics in their qualitative aspects and practi- cal applications. 4 . Common applications to the everyday life situations of the students and their problems of environment. 5 . The topics as outlined, but arranged to follow the psycholo- gical order as it reveals itself in the natural working of the students' minds. The work should be simple but fundamental. The development of abstract formulae should be avoided. The presentation of facts and their analysis and correlation should be kept within the mathema- tical ability of the students. Introductory Lesson in Physics Ask each member of the class to write on a slip of paper what he considers is a good example of work. Make a blackboard list of these, placing in one column all those that are examples of WORK as it is understood in physics. Then ask, "Can anyone suggest why these are grouped together?" (Bring out the idea that in each case something has been moved through a certain distance.) Continue with this question, "If you were standing on a corner holding a heavy suitcase, would you be doing work?" Emphasize further that in a scientific sense no work is ever done unless a force succeeds in mov- ing the body on which it acts through a certain distance. Ask, "What, then, is one factor involved in work?" "What is the other?" If possible, get from the class the two terms, "weight" and "distance moved." Lift one book, one foot. "Is this work?" Lift on book two feet, "How does this work compared with that of lifting one book one foot?" Lift two books one foot, "How does the work compare this time?" Lift two books two feet, "How much greater is the work this time?" "How then, can you always find the work?" "What unit is used to measure weight?" (See that the term unit is thoroughly understood by the class). "What unit would you use to measure distance?" "What, then, do you think would be our unit for measuring work?" Follow this by several examples making sure that the class has a clear idea of how to measure work and the unit used in measuring it. Tie a string around a book and pull it across the top of the desk with a spring balance. "What force am I exerting in order to pull this book across the desk?" Suspend the book by means of the bal- ance. "With what force is the earth pulling this book toward the floor?" Therefore, we say the book weighs one pound and three ounces (make clear the specific idea that weight, the weight of this book for instance, is the measure of the force with which the earth attracts or pulls the book toward itself.) To go back to our problem — "What would you have to measure to find the work necessary to push or pull the ice up the plane?" "Is it more or less work to push the ice into a wagon by means of an inclined plane than it is to FOR SOUTH DAKOTA 85 lift it vertically from the ground?" Follow with a demonstration of the inclined plane (providing time permits). Assignment: (If laboratory work is NOT included in the first lesson). Review carefully all points dicussed in the lesson. List as many devices as you can that might be classed as an inclined plane. Find out something about the origin and history of the pound and foot. (See Hoadley, Millikan & Gale, and the Encyclopedia.) Assignment: (If laboratory work IS included in first lesson.) Be prepared to tell what your text has to say about work and units for measuring it. (Cite paragraphs and include also the other assign- ment.) Heating System of the High School ( (All questions that cannot be answered at the time of this excursion may serve as problems for future study. ) I. FUEL. What kind of coal is used in this system? Why? What amount of coal is required to run this system one year? How often should the furnace be stoked? II. FIRE BOX. How large is the fire box? How are the grates dumped? How does the construction of the grates provide for expansion? In spite of the fires, the boiler room does not seem excessively hot. Why? Why is it important to keep the ash pit clean? III. BOILER. Why is the boiler divided into a number of cylindrical sections rather than cast in the form of one large tank? How is the outside of the boiler cleaned? The inside? How would one tell when the boiler needed cleaning on the inside? What would be the danger of allowing it to become encrusted? How can you account for the crust which forms on the inside of boilers? What would likely happen if the steam pressure arose too high? What is the boiling point of water on the inside of the boiler? How do you account for this? IV. OTHER PARTS OF THE SYSTEM. What is the purpose of the safety valve? The pressure gauge? What is the pressure capacity of this system? Of what use is the water gauge? How is the system supplied with water? When? If the water should drop below the level of the water gauge, so that it would be impossible to tell just where the water was, what should be done? Why? Of what use are the dampers? How are the dampers worked? What provisions are made for increasing the heat needed for very cold weather? Why are steam pipes wrapped with asbestos? What is the purpose of the small valves at the end of the radiators? The steam is condens- ed in the radiators. The hot water which leaves a steam radiator may be as hot as the steam which entered it. How, then, has the room been warmed? What carries the smoke and gases up the chimney? Laboratory Suggestions Students will enjoy making various simple pieces of apparatus if properly encouraged and directed. The experiments, numbered above 20 are suggested as very suitable, but others may be substitut- ed. Thirty experiments or exercises may be regarded as the minimum, with a possible maximum of forty. These experiments should be written in the laboratory. A fine variety of supplementary experi- ments may be found in the following Laboratory Manuals: Good's "Laboratory Projects in Physics," MacMillan Co. Packard's "Everyday Physics," Ginn & Co. Wauchope's "Laboratory Manual of Physics," Scott-Foresman. 86 HIGH SCHOOL MANUAL Millikan, Gale, Bishop's "Laboratory Physics," Ghm & Co. Reeve's "Physical Laboratory Guide," American Book Co. Black's "Laboratory Manual in Physics," MacMillan Co. Davis's Laboratory Physics," Looseleaf, Welch. Conrad's "Physics Manual and Lab. Notebook," Atkinson. Dean. Timmerman, Chesters "Lab. Manual and Physics", Ameri- can Book Company. Chute's "Laboratory Guide," Allyn & Bacon. List of Suggested Experiments The "starred" experiments should be required of all students. 1 . *Linear and volumetric measurements. 2 . *Weighings. 3. *Parallelogram of forces. 4 . Laws of the pendulum. 5 . *Inclined plane. 6. *The lever — principle of movements. 7 . *The pulley — mechanical advantage of single and combina- tion pulleys. 8 . Coefficient of friction. 9. *Locating the center of gravity on irregular cardboard, and other objects. 10. Demonstrating Newton's second law. 11. * Atmospheric pressure. 12. Boyles' law. 13. * Archimedes principle — specific grayity of solid and liquid. 14. Pascal's law. 15. Molecular forces. 16. Testing accuracy of thermometers. 17. Charles' law. 18. Distillation. 19. *Dew point. 20. Vaporization. 21. Heat of vaporization. 22. Heat of fusion. 23 . Specific heat. 24 . *Expansion of solids owing to heat. 25. *Electric bell and telegraph. 26. *Kinds of cells — constructing each type for study and com- parison. 27. *The storage cell and electroplating. 28. *Electro-magnets and permanent magnets; blueprints of mag- netic fields. 29. *Ammeter and voltemeter. 30. *Cost of modern electric appliances. 31 . Induction coil. 32. Motor and dynamo. 33. Transformer and telephones. 34. *Static electricity. 35. Wireless telegraphy and telephony. 36. * Velocity of sound. 37. * Pitch of tuning fork. 38. Laws of vibrating strings. 39. Photometry. 40. *Law of reflection. 41. Law of intensity. 42. Law of refraction. 43. Cameras. 44. Steam heating system — projects. 45 . Hot water system. FOR SOUTH DAKOTA 87 46. Record of gas and electric meter readings. 4 7 . Carburators. 48. Steam engine — threshing machine. 49. Cost of gas appliances — stoves, irons, etc. Suggested Experiments in Problem Form. I. PROBLEM: Which requires more work, to slide a cake of ice up an inclined plane, or to lift it vertically to the top of the plane? APPARATUS: Inclined plane, small iron cart or roller skate, spring balance. PROCEDURE: Find the weight of the car in pounds and the height of the plane — measure from top of board straight down to the surface of the desk. The product of these will give the work done in lifting car VERTICALLY. Now find length of plane — meas- ure from top of board to desk — and the force in pounds required to slide the car with uniform speed up the plane, as indicated by spring balance. The product of these two will give work done in drawing the car UP THE PLANE. Call the weight of the car "resistance" and force exerted along the plane "effort." DISCUSSION: The work done on this machine, that is, effort times length of plane, is known as "input." The work done by the machine, that is resistance times height of plane, is known as the "output." Which is greater, the input or output? Answer pro- blem. What causes this difference? What advantage is gained by using the inclined plane? II. PROBLEM: What is the efficiency of the inclined plane in example No. 1? Would rolling the car up the plane make any differ- ence in the efficiency? APPARATUS. Same as example No. 1. Note: By efficiency of a machine is meant the relation of the work gotten out of it to the work put into it. That is, efficiency equals output divided by input, (indicate by equation.) PROCEDURE: Find force required to roll car with uniform speed up the plane as indicated by spring balance. This force in pounds times length of plane will give the "input" when car is rolled up. Calculate efficiency when sliding car up. Calculate efficiency when car is rolled up. DISCUSSION: Has the rolling increased or decreased the ef- ficiency? What causes this difference? Can you suggest any method of further increasing the efficiency? Can you make a plane with an efficiency of 100 per cent? Why? (This is known as an ideal inclined plane. ) What is the relation between input and output of an ideal plane? III. PROBLEM: Is more work required to pull a safe up to the third floor with pulleys than to carry it up by hand? APPARATUS: Two single pulleys — one fixed and one movable; two triple pulleys; weight of several pounds; pail and shot. PROCEDURE: Arrange the movable pulley so that the resistance weight is supported by two cords (draw on blackboard.) Pour shot into pail until weight rises with uniform speed. Making use of two meter sticks, measure how far the pail moves downward in order to raise the weight through 10 cm. Find weight in grams, of resist- ance weight; also pail of shot. The work done by the pail of shot (the input) is found by multiplying together the weight in grams of pail of shot and the distance in centimeters it is lowered. This pro- duct is expressed in gram-centimeters. The work done in raising the resistance (the output) is the weight of the resistance in grams, times 10 cm the distance it is raised. Call the weight of the resistance weight, the "resistance' and the weight of the pail of shot, the "effort" in recording your results. 88 HIGH SCHOOL MANUAL DISCUSSION: Which is greater the input or the output? Answer problem. What is the efficiency of the arrangement of pul- leys? What causes the difference? Is it necessary to measure the distance moved by the R wt. and pail in order to determine the efficiency? Why? How could you improve the pulleys in order to make them move more efficiently? PROCEDURE No 2: Arrange the two triple pulleys in such a way that the resistance is supported by four cards. Find effort by pouring shot into pail as before. Find weight of pail of shot in grams. Calculate efficiency. Repeat having resistance supported by five strings; by six strings. DISCUSSION: How does efficiency of pulley vary with number of strings supporting resistance? State the law of the pulley. IV. PROBLEM: To construct and operate a miniture electric lighting and power system and measure the current. APPARATUS: Two ring-stands, two clamps, two ciossbars of wood each five inches long, two dry cells, No. 24 copper wire (insulate), three 3-volt lamps, small motor, electric bell, pocket volt- meter, thirty-five empere pucket ammeter, push button. PROCEDURE: First— using two ring-stands as supports, attach two cross bars by means of clamps. To these crossbars lead two No. 24 insulated wires each about a yard long. They should be coiled around the crossbars. To the set of two cells connected in series attach these wires. Care should be taken to keep the free ends of these wires from touching. With a knife remove the insulation from the wire at two opposite points and hang a 3-volt lamp across. You will find that this lamp does not let through as much current (am- peres) as the cells can produce. Each lamp requires about a half- ampere. The 35 ampere ammeter is not sensitive enough to register the current required by a single lamp. DISCUSSION: How many amperes would three such lamps use? Attach 3 lamps in parallel on the line wires. Disconnect one of the wires at the battery and attach the ammeter in the circuit. See if 3 lamps cause it to register. Having determined the total output of the two cells in amperes, how many such lamps could be operated at one time? Of course, the battery would not last long at this rate of current consumption. SECOND: Operate a small electric motor from your line current. Connect the ammeter in series with the motor and note how much current it lets pass through. How many such motors could be operat- ed at one time with a set of cells delivering ten amperes? THIRD: Attach electric bells and buzzers with push buttons to the line and operate them. An electric door bell usually requires about one-fifth of an ampere and three volts. Which is more ex- pensive — to ring a bell or to light a lamp of the type used above? How many dry cells are necessary to produce three volts pressure? How should they be connected? How might a cell or set of cells be short circuited? With respect to amperes, what does a short cir- cuit mean? With respect to length of wire, how could a short circuit be avoided? Textbooks in Physics Mann & Twiss, Physics (Revised Edition); Scott, Foresman Co. Lynde, Household Physics; MacMillan Co. Milliken, Gale and Pyle, Practical Physics; Ginn & Co. Hawkins, Elementary Applied Physics; Longmans. Black & Davis, Practical Physics; MacMillan Co. Carhart & Chute, Physics with Applications; Allyn & Bacon. Butler, Household Physics; Whitcomb & Barrows, Boston. FOR SOUTH DAKOTA 89 Tower, Smith & Turton, Principles of Physics. (Revised edition) McGraw, Hill & Co. Headley, Essentials of Physics. (Revised edition) American Book Co. King, Physics of Agriculture; Mrs. F. H. King, Madison, Wis. Manuals for Teaching Twiss, Science Teaching; MacMillan Co. Mann, Teaching of Physics; MacMillan. Woodhill, Teaching of Science; MacMillan Co. Reference Books for Students Jackson & Black, Elementary Electricity and Magnetism. Zerbe, The Automobile; Cupples, Leon & Co., N. Y. Holland, Historic Inventions; George W. Jacobs, Phil. Williams, How it Works; Thos. Nelson, N. Y. Williams, How it is Made; Thos. Nelson, N. Y. Williams, How it is Done; Thos. Nelson, N. Y. Cressy, All About Engines; Funk & Wagnalls. Harper, Electricity Book for Boys; Harper Bros. Mayer, Sound; Appleton, N. Y. Stokes. The Wonder Book of Light; Stokes, N. Y. Kennelly, Wireless Telegraphy and Telephony; Moffatt, Yard Co. Pullen, Mechanics; Longmans. Randall, Heat; Wiley, N. Y. Anderson, Electricity for the Farm; MacMillan Co. Simmends, All About Air Craft; Funk & Wagnalls. Rotsh, Conquests of the Air; Moffatt. Knox, All About Engineering; Funk & Wagnalls. Snyder & Palmer, One Thousand Problems in Physics; Ginn & Co. lies, Inventors at Work; Doubleday Page Co. Croft, Practical Electricity; McGraw. Darrow, Boys' Own Book of Great Inventions; MacMillan Co. Williams, Wonders of Science in Modern Life; Funk & Wagnalls. How to Make Good Pictures, Eastman Kodak Co., Rochester, N. Y. Forbes. Course of Lectures on Electricity. Visual Instruction Wonders of Mag^tism, Atlas Educational Film Co. Modern Engineering Feats, Atlas Educational Film Co. Manufacture of Big Guns, Atlas Educational Film Co. Electrical Railroading, Atlas Educational Film Co. Copper Mining, Atlas Educational Film Co. Electrical and Mechanical Exp, Bollman, 44th St., N. Y. City. Pathe Review No. 80, Radio Waves; Pathe. How Steel is Cut, Beseler. Lessons in Physics. No 4. (Expts. Liquid Air); Beseler. Experiments in Liquid Air, Beseler. Lessons in Physics. Part 6 (The Magnet) Beseler. Simple Experiments in Electricity, Beseler. Electrolysis of Metals, Educational Films Corp. Additional film titles may be found in "Vocational & Industrial Education" a list published by the Extension Division of the Wiscon- sin University. See "General Science" division for address film companies, and list of free films. Magazines FOR PUPILS: Radio News Aviation and Aircraft Wireless Age Electrical World Electrical News Practical Electrics (See General Science List.) 90 HIGH SCHOOL MANUAL FOR TEACHERS: Electric Journal Journal of American Institute of Electrical Engineers Telegraph and Telephone Age Journal of Electricity General Electric Review Heating and Ventilating (See General Science List) Tests and Measurements Chapman, Measurements of Physics Information, 27: 748 School Review. Jones, F. T., Uniform Science Tests in Physics, School Review, May 1918.' Starch, Physic Tests; Kansas State Normal School, Emporia, Kan. Camp, H. L.. Scales for Measuring Results of Physics Teaching; University of Iowa, University of Iowa Studies, October 1st, 1921. Bibliography Hendricks, B. B., Projects in H. S. Physics; Sch. Sci. & Math. February, 1921. Tippio, W. A., Projects in Girl's Physics; Sch. Sci. & Math. May, 1921. Franklin, W. S.. What is the Matter with Physics Teaching?; Eng. Ed. November, 1921. Symposium on Purpose and Organization of Physics Teaching in Secondary Schools. (Pamphlet) School Science and Mathematics. (10 cents). Johnson, Modern High School Education: (Chap, on Science.) Parker, Teaching in High School; (Chap, on Science.) Judd, Psychology of H. S. Subjects; (Chap, on Science.) Colvin, Introduction to H. S. Teaching; (Chap, on Science.) Illustrative Material Unless indicated the following material may be had free of charge. CHARTS: Water wheels. Pelton Water Wheel Co., San Fransico, Calif. Jas. Leffel & Co., Springfield, Ohio. Taper Shank Drill. Cleveland Twist Drill Co., Cleveland, Ohio. Longitudinal Section of Cars. Overland Inc., Toledo, Ohio. Nash Motor Car Co. Separators. De Laval Separator Co.. 165 Broadway, N. Y. City. Saws and Files, Henry Disston Co., Philadelphia. Send for lists from the following companies: A. W. Mumford, 536 S. Clark St., Chicago, 111. Cambridge Botanical Supply Co., Waverly, Mass. Educational Exhibition Co., Providence, R. I. F. M. Baker Apparatus Co., Syracuse, N. Y. Kay-Scheer, 410 W. 27th St., N. Y. City. BULLETINS: Cooling Troubles. Franklin Motor Car Co.. Syracuse, N. Y. Steel. Illinois Steel Co., South Chicago, 111. Lecture Service. General Electric Co., Schenectady, N. Y. FOR SOUTH DAKOTA 91 Tractor Field Book. Farm Implement News, Masonic Temple, Chicago, 111. Various Types of Machinery. International Harvester Co., Chicago, 111. American Farmer Supply Co., Chicago, 111. The Avery Company, Peoria, 111. Deere Company, Moline, 111. Emerson Brantingham Implement Co., Rockford, 111. An extensive list of miscellaneous material may be secured from the University of California, Berkeley, Calif. Ask for their lists of illustrative material, for vocational agriculture. Minimum Physical Apparatus (Based on a class of six to eight students. 3 Meter Rods with brass tips. 2 Spring balances, 8 oz., English and Metric units. 2 Spring balances, 24 oz., English and Metric units. 1 Inclined Plane with pulley (smooth board, 120x12 cen.) 1 Iron carriage (roller skate) 1 Small pail, (baking powder can with cord handle.) 2 Single pulleys, also triple pulleys. 2 Pounds lead shot. 1 Demonstration balance for lever. 1 Barometer tube, 80mm. 1 Pound Mercury. 1 2 qt. battery jar. 2 Electric light bulbs (burnt-out) 3 Iron and also lead balls, drilled 3/4 in. 1 Calorimeter. 1 Linear expansion apparatus. 1 Pound aluminum shot. 1 Box small iron brads. 2 Thermometers, Centigrade 10-110 degrees. 3 Dry cells. 1 Voltaic cell, with porous cup and extra elements. 1 Electric bell. 3 Push buttons. 1 Telegraph sounder. 1 Telegraph Set. 1 Pocket voltmeter — 10 volts. (Everready) 1 Pocket ammeter — 35 amps. (Everready) 1 Galvanometer frame. 3 windings. 3 Electric lamps — Mazda miniature — 3 volt; also pendant sockets for same. 1 St. Louis motor, with field magnets. 1 Spool copper wire, insulated No. 24 — also No. 32. 1 Small spool brass wire No. 24 — also No. 27. 1 Magnet board — can be made. 1 Pkg. iron filings. 2 U. Magnets. 2 Bar magnets. 1 Magnetic compass, 5 mm. diam. 12 Pith balls. 1 Foot hard rubber. 1 Piece silk. 1 Soft iron bar— six inch spike. 1 Doz. knitting needles. 1 Set tuning forks — unmounted C. E. G. A. 1 Glass prism. 1 Brass protractor. 92 HIGH SCHOOL MANUAL 1 Micrometer, caliper, metric, friction head. 1 Vernier, caliper, English and Metric. 1 Gelatine color film. 8x10 in., red, green and blue. 1 Doz. candles. 1 Set lenses — demonstration set. 1 Optical disc. 2 Linen testers. 1 Reading glass lens 2 in. diam. 4 Pounds glass tubing, assorted. 2 T. Tubes 2 in. arms. 2 Y. Tubes 2 in. arms. 6 Feet rubber tubing 3/4 in. inner diam. 3 Feet rubber tubing 3/16 in. inner diam. 6 Rubber stoppers to fit flasks — also 2 hole and 1 hole stoppers, (the following can also be used in Chemical laboratory.) 1 Laboratory balance. 1 Set Universal weights, 10 gm. to 1000 gms. 1 Bunsen burner or 2 alcohol lamps. 1 Set weights lmg. — 50 gm. (covered) 1 Blow pipe. 1 Ring stand, with 2 rings 2 in diam., 1 ring 5 in. diam. 2 Right angle clamps. 2 Pinchcock clamps. Wire gauze and evaporating dishes — two 12 oz. bottles. 1 Funnel 2 1-2 inches diam. 1 Pound ether, denatured alcohol, copper sulphate, ammonium chloride. PHYSIOGRAPHY I. PLANETARY, OR SOLAR SYSTEM. The Earth as a Planet. 1 . Relation to solar system. 2. Form: oblate spheriod. a. Proof: visible constellations change with latitude; curved shadow on moon; horizon increases in proportion to observers' attitude; top of vessel seen farthest; variation of time with longitude; weight of a body increases with latitude. b . Cause and consequences. 3 . Size. Measurements and relation of gravity. 4 . Motions. a. Rotation; evidence, day and night direction, longitude and time, latitude, navigation and surveying, effects on life. b. Revolution: indication, effects, inclination of axis, sea- sons, length of day and night, apparent motion of sun, influence. 5. Time: solar, civil, and conventional day. Standard time in U. S. and Canada. Relation of longitude and time. 6. Magnetism: mariners' compass, magnetic poles, declination, dipping needle, properties of magnets, earth as a magnet. 7. Maps and map projection. Advantages and disadvantages of maps as compared with charts and models; necessity of projection; scales; represen- tation of relief. II. THE ATMOSPHERE. 1. Function: diffuses light; conducts sound; enables airplanes to fly; reduces weight of bodies immersed in it; retains heat; FOR SOUTH DAKOTA 9 3 produces waves, moves ships, drives windmills; transports moisture and light objects; destroys property and life. 2. Composition: properties and function of each constituent. 3. Pressure and Density: relation of pressure to density and temperature; evidence of pressure, and distinction between pressure and weight; measurement of mercurial and aneroid barometers; relation of pressure to altitude; Isobaric charts. 4. Temperature: temperature and heat distinguished; source of heat; liquid and metallic thermometers and their use; different capacities of land, water, and air for absorbing, reflecting and transmitting the heat of insolation; ways air is cooled and warmed; conditions affecting temperature; Isothermal charts. 5. Circulation: winds and their causes; instruments and methods of observation; classification of winds and their ef- fects. 6. Moisture: evaporation; measurement of humidity; dew point and its relation to temperature; fog and clouds; rain and snow; dew and frost; hail and sleet; measurement of rainfall; rainfall charts; forms of rain; relation to life. 7. Weather and Climate: relation of weather to climate; elements determining weather; climate; controlling factors; weather maps and forecasting; work of U. S. Weather Bureau; climatic belts and regions; relation to life and to human industry. III. THE HYDROSPHERE. 1 . Area, distribution, characteristics, and functions of the ocean. 2 . Life in the ocean. 3 . Movements of ocean waters. a. Waves: causes; parts; form; rollers; breakers; surf and their effects (modified by use of oil); causes; tides and their effects; earthquake waves. b. Currents: exciting and modifying causes; Atlantic cur- rents; affects on land; use; affect navigation. 4. Life relations: barrier and highway; trade routes; economic products. IV. THE LITHOSPHERE. 1 . Forms of relief. a. Plains: Costal plain — narrow, broad and embayed; Al- luvial plain — formation and importance in history; Lacustrine plains; Glacial plains and Peneplains. b. Plateaus: Dissected (canyons); Old (mesas, buttes) ; Broken (faults, fault line, fault plain); economic import- ance of plateaus. c. Mountains: causes; classification; life history; moun- tains as barriers; climate; economic value (resorts, timber reserves, mineral and rock wealth). 2 . Costal Formation. a. Harbors: classification; advantages and disadvantages of each; economic importance. b. Regular shore line: causes. c. Irregular shore line: causes. d. Modified shore lines due to plant (trees, marsh and eelgrass) and animal (especially corals) life. e. Lake shore lines. 3. Rock: classification by origin and structure; a study of common rocks to secure ready identification. 4. Common minerals: quartz, feldspar, hornblende, mica, 94 HIGH SCHOOL MANUAL amethyst, opal, garnet, calcite, salt, sulphur, gypsum, graphite 5. Soil: formation; residual; transported; varieties; adapta- tions; fertility — depending on constituents and physicial conditions. 6. Erosion: causes and result. 7 . Water other than ocean. a. Source: precipitation, rainfall. b. Disposal. 1. Evaporation: controlling factors; amount; effect on temperature. 2. Ground Water from seepage: destructive action — solvent action increased by carbon dioxide in solu- tion, effects on salt and limestone, caverns and cave life, sink and shallow holes; constructive action — deposits as veins, stalactites, stalagmites; reappear- ance, springs, wells, artesian wells, mineral springs, hot springs geysers; dry farming. 3. Run-off (small streams, rivers); work of rain and running water; valley development and surface topo- graphy; lakes — relation to rivers; life in rivers and lakes. c. Glaciers: kinds; present and former ice sheets; forma- tion; movement; moraines; work; disposal. 8. Volcanoes: distribution; causes: types; influence on topo- graphy and life. 9 . Geographical Regions. Study South Dakota as a state region, with reference to structure, origin, development, and influence on the history and economic interests of the people. 10. Natural resources and food supply. THE COURSE IN PHYSIOGRAPHY should include 1 . At every step the practical relation of man to the topic under consideration. 2 . A developed cause for every physiographic fact. 3 . A greater emphasis on the lithospheric division. 4 . Ample equipment. 5 . Forty recorded experimental exercises to illustrate text study. 6 . Three field excursions during the fall, and three during the spring. The points to be studied, during field excursions will depend on the locality. The following topics should not be overlooked — clouds and their movements; weathering; erosion; transportation; deposition; river currents; waves; rocks; minerals evidence of up- heaval and subsidence; land forms; location of highways; soils; falls; rapids; water power; distribution of plant and animal life. Experimental Exercises The following exercises are merely suggestive. Other exercises may be substituted, and added if desired. 1 . Construct diagrams showing the position of the earth, sun and moon at the several phases of the moon, explaining these phases, and giving reasons why eclipses do not occur every month. 2. Construct diagrams showing partial and total lunar eclipses; partial, total and annular solar eclipses. 3 . Find the place of sunrise and of sunset at any latitude at any time of the year. 4 . Measure the angle of altitude of trees, towers and sun. Construct these. 5 . Determine relative heat received from sun at different alti- tudes. FOR SOUTH DAKOTA 95 6. Construct and interpret sunrise and sunset curves. 7. Determine the observer's latitude from sun's altitude; and elevation of North Pole. 8 . Interpret a contour map as to drainage, distances, slopes and relative heights. • 9 . Make vertical sections from coutour maps. 10. Make a contour map from given date. 11. Determine altitudes by use of barometer. 12. Determine the dew point, and calculate from date the re- lative and the absolute humidity. 13. Account for position and migration of heat equator and cold pole. 14. Study isoberic charts of the world for January and July. Account for terrestrial winds in these months. 15. Interpret records of thermographs, barographs, and wind direction and study their mutual relations. 16. Keep for one month a daily record of pressure, temperature, wind direction, state of sky, humidity, location of approaching low and precipitation; plot pressure and temperature curves; and study mutual relations of conditions recorded. 17. Study the general wind direction about center of low and high areas from weather maps. 18. Make an isobar map of the U. S. from furnished data. 19. Make an isotherm map of the U. S. from furnished data. 20 . Study the distribution of cloudiness and rainfall about several storm centers. 21. Forecast weather conditions from furnished data. 22. Plot curve representing daily rainfall for one year at a given station from given data. 23. Test sea water for density, taste, and amount of gas and of solid matter in solution. 24. Study magnetism, and prepare blueprints of various magne- tic fields. 25. Study trade routes across the Atlantic and Pacific oceans from pilot charts. 26. Make an orderly arrangement of five minerals to show a scale of hardness. 27. Study quartz, feldspar, mica, and calcite as types of rock- forming minerals. 28. Study two ores of each: iron, copper, lead, zinc. 29. Study samples of soil. 30. Study salt, sulphur, gypsum, and graphite as types of non- metallic minerals of direct economic value. 31. Study eight or ten common rocks. 32. Study regular shore lines, Atlantic City topographic sheet. 33. Study irregular shore lines, Boothbay Me. topographic sheet. 34. Study glacial topography, Whitewater topographic sheet. 35. Make a collection of glaciated and of water washed pebbles. 36. Study distributions of coniferous, deciduous and tropical forests, and the relation of such distribution to climate. 37. Study distribution of areas producing the most important grains and the relation of such distribution to climate. 38. Study distribution of areas producing the most important fiber plants and the relation of such distribution to climate. 39. Study distribution of areas producing the most important fruits and the relation of such distribution to climate. 40. Study the distribution of human population as to density and the relation it bears to soil, climate, water power, harbors, and water routes. 96 HIGH SCHOOL MANUAL Text Books in Physiography Salisbury, "Elementary Physiography", Henry Holt & Co. Dryer, "High School Geography"; American Book Co. Tarr, "New Physical Geography," MacMillan Co. Davis, Bryant, Clendenin, Morrey, "Physiography for High Schools"; Heath. Fairbanks, "Practical Physiography"; Allyn & Bacon. Supplementary Books Dana, "The Geological Story." Herrick, "The Earth in Past Ages." Brigham, "Text Books of Geology." Crosby, "Common Minerals and Rocks." Davis, "Elementary Meteorology." Greeley, "American Weather." Powell. "Physiographic Regions in U. S." Russell, "Rivers of North America." Sutherland, "Teaching Geography." Todd, "New Astronomy." Willard, "Story of the Prairies." Brigham, "Geographical Influence in American History." Wright, "The Ice Age in North America." Bulletins of the South Dakota Geological Survey, Perisho (Nos. 4 and 5.) Bulletins of the Geology Department of South Dakota School of Mines, O'Hara (Nos. 4, 8 and 9.) Many valuable auxilaries may be secured free through the U. S. Dept. of the Interior, including relief, contour and weather maps and charts. Visual Instruction The Society for Visual Education, 327 S. LaSalle St. Chicago, 111. lists the following films in physical and regional geography: The Earth and Worlds Beyond. Formation of Glaciers. The Work of Rivers. Study of Low Shore Features. Formation of Caves in Limestone. Formation of Volcanoes. Formation of Geysers. Formation of Coral Growths. New England — Parts I and II. Middle Atlantic States — Coastal Plain. Middle Atlantic States — Appalachian Highlands. Southern States — Part I and II. Central Plains — Parts I and II. Great Plains. Study of Bold Shore Feature. Western Plateaus. Rocky Mountains. Pac. Mts. and Lowlands. The National Non-Theatrical Motion Picture, Inc., 230 W. 38th St., New York, N. Y., have produced the following subjects: The Mystery of Space No. 1. The Mystery of Space No. 2. Worlds in the Making. Earth and Moon No. 1. Earth and Moon No. 2. God Divided the Night From the Day. FOR SOUTH DAKOTA 97 A few addititonal subjects, and their distributors are listed below: The War of the Elements (Tornadoes, Hurricanes, Earthquakes, Floods) Atlas Educ. Co. Flaming Ice, Robertson — Cole. Old Faithful (geyser) Prizma. Study of a Mountain Glacier, Society for Visual Education. The Why of a Volcano. Educ. Film Co. A Study in Sand. Educational Film Corp. The Yosemite Valley. Fitzpatrick and McElroy. Evolution, Educational Film Corp. Geology Part I and II. Beseler. In the Hanging Glacier Country, Educational Film Corp. Tides and the Moon, Goldwyn Exchange. Pathe Review No. 25, (Nature's Wonderland), Universal. The Four Seasons, Famous-Lasky Players. Marvels of the Universe, Goldwyn. Alaskan Revelations, Prizma. God's Handiwork, Goldwyn. Along the Columbia River, The Lea-Bel Company. Commercial Geography, Universal. Grand Canyon of the Colorado River, Fitzpatrick and McElroy. Grand Canyon, The Lea-Bel Company. Niagara, Prizma, or Select. Niagara Falls, Beseler. Petrified Forests of Arizona, University of Wisconsin. Waterfalls of Idaho, Beseler. Wonderful Niagara, Educational Films Corp. Combatting the Elements, Henry Bollman. See "General Science" division address of film companies. Apparatus Much of the apparatus and material used in other science work. Mineral collections of not less than 30 minerals and 30 rocks. Six pairs of shears (8 in.) Brush (3 in.) for map mounting. Outline map of the world (unmounted). Outline map of the United States. Outline map of South Dakota. Profile paper (20 in. wide.) Globe, plain mount (12 inch.) Globe mounted in a meridian. Twelve globes mounted on wire stand (6 in.) Set of physical wall maps (Johnston's best imported, good). Sun board, with book of directions. Planetarium, wilh book of directions. Maximum and minimum thermometer. Aneriod barometer. Sight compass in watch case. Rain guage. Specific gravity balance. Weight in blocks lOOg to leg. Hammer with wedge-shaped ends. Tripod lens. Tables upon which to work. Soil thermometer, Hygrometer, and wind vane. 98 HIGH SCHOOL MANUAL NORMAL TRAIXIX( i While a high school cannot justly or to advantage undertake the peculiar work of a Normal School, present conditions make it neces- sary for our high schools to assist, whenever local conditions and equipment permit, in furnishing a certain professional training for those graduates who will take up the work of teaching without regu- lar normal school training. It should never be understood as equiva- lent to, or as taking the place of, a regular course in Normal Schools. On the other hand, whenever it is given it should be undertaken in a serious way and be made anything but a "snap course." Only third and fourth year pupils shall be admitted to this work; consequently, it is not to be offered in schools that do not have an accredited four year course and an adequate teaching force and equipment. A pro- fessional library of at least fifty carefully selected pedagogical books should be in every school that attempts this work. The South Dakota school paper should be on the library table, together with at least one teacher's magazine of national scope; pupils should be required to read these carefully and be prepared to report on various articles contained therein. If this course fails to instill a professional attitude in the pupil taking it, it fails to accomplish its chief purpose. Requirements for an Approved Normal Training; Course 1. The high school must be recognized by the Superintendent of Public Instruction as a FOUR YEAR ACCREDITED HIGH SCHOOL. 2 . The clerk or the secretary of the Board of Education must notify the Superintendent of Public Instruction that the state aid is desired. 3 . The Board of Education shall provide a department in the high school to be designated as a Normal Training Department to be in charge of a properly qualified instructor. 4. A course of study shall be provided in which instruction shall be given in pedagogy, including methods, principles of educa- tion, school management and practice teaching. Such course of study shall be similar in content to the requirements given elsewhere in this Manual. 5 . Each school shall furnish proper equipment for carrying on the normal training work, including a professional library of not less than fifty books. Such library shall be increased by the addition of not less than five professional books each year. 6. Each pupil enrolling in the Normal Training Department shall fill out and sign an enrollment card furnished by the Depart- ment of Pubic Instruction. Such enrollment cards shall be collected and sent to the Superintendent of Public Instruction not later than the end of the second week of school. 7 . The Superintendent or Principal of the school shall make a final report to the Superintendent of Public Instruction at the end of the school term, giving such information as shall be requested. The Superintendent or Principal of the school also shall make such other reports as may be requested by the Superintendent of Public Instruc- tion. AMOUNT OP STATE AID ALLOTTED TO EACH HIGH SCHOOL Each high school in this state establishing an approved normal training department may receive aid from the state as follows: FOR SOUTH DAKOTA 99 1. A school enrolling not less than five (5) or more than ten (10) students in the normal training classes — $500.00 per annum. 2. A school enrolling more than ten (10) and less than twenty (20) students in the normal training classes — $700.00 per annum. 3. A school enrolling twenty (20) or more students in the nor- mal training classes — $1,000.00 per annum. PROVIDED, that no high school shall receive more than $1,000.00 state aid for normal training in a year, and not more than one high school in any county shall receive state aid until an opportunity has been offered to one school in each county of the state to comply with the requirements. No state aid can be paid to any high school for normal training in any county where there is already established a state educational institution maintaining a normal department approved by the Superintendent of Public Instruction. Course of Study The course of study in approved normal training department in high schools shall meet the following requirements: 1. Rural School Management and Rural Sociology 36 weeks 1 unit 2. Reviews and Special Methods 36 weeks 1 unit 3. Principles and General Methods of Teaching 18 weeks y 2 unit 4. State Course of Study and Practice Teaching 18 weeks Vk unit 5. Elective 36 weeks 1 unit Note: Numbers 3 and 4 to be offered in the fourth year only. Qualifications of Normal Training Teachers The teachers in approved normal training departments in high schools shall meet the following requirements: 1 . The minimum scholastic attainment of such teachers shall be equivalent to graduation from a recognized colloge or university requiring the completion of a four year course of study of 120 semes- ter hours in advance of a standard four year high school course. 2. The minimum professional training of such teachers shall be eighteen semester hours in education. 3 . The teachers in approved normal training departments shall present satisfactory evidence of at least sixty-four (64) weeks teach- ing experience in the grades below the high school, at least one-half of which shall have been in rural schools. Entrance Requirements of Pupils in Normal Training Department Before any pupil shall be eligible to be enrolled in an approved normal training department in high school, he shall be able to meet the following entrance requirements: 1 . Must have satisfactorily completed at least eight units for juniors and eleven units for seniors, of accredited high school work. (By unit is meant standard high school unit of credit as defined in the State High School Manual.) 2. The juniors must be at least in the 16th year of their age and seniors in the 17th year of their age. Juniors should earn only one credit of this course, viz., Rural School Management and Rural Sociology, or Reviews and Special Methods. Certification Completion of the normal training course leads to a second grade teacher's certificate. A certified copy of the high school grades in- cluding the grades in the normal training subjects together with a Teacher's Oath signed by the applicant and properly certified, should be sent to the Superintendent of Public Instruction. If these grades are found satisfactory and include the constants required in the State Course of Study, and evidence is furnished that the applicant is at 100 HIGH SCHOOL MANUAL least eighteen years of age and of good moral character, a second grade certificate will be sent to the county superintendent of the county in which the high school is located, and the applicant may obtain it by paying the county superintendent the statutory fee of one dollar. Principles and General Methods of Teaching This course should cover, in a more or less, elementary way, the principles and general methods of teaching. A good standard text- book, not too difficult, should be in the hands of the pupils while pursuing this course. Colgrove's "The Teacher and the School", Betts "Class-Room Methods and Management," and "How to Teach", by Strayer & Norsworthy, are recomended as suitable texts for the use in thi~ course. Rural Sociology and Rural School Management (One unit.) (a) This course is designed to acquaint the pupil with rural conditions and problems. One-half of the year should be given to the course in rural sociology. Some such texts as "Country Life and Country School," Carney, or "Rural School," Kennedy, should be used. If the pupils do not come from rural homes and are not acquainted with rural condititons, this work is to acquaint them with the manner of living in rural communities in whch they are to teach. While reference books concerning this subject will be of value, the course should be made very concrete by excursions to the country or personal descriptions of rural homes in the country from which will come the pupils of the rural schools that these normal trainees are preparing to instruct. Concrete illustrations of the rural school buildings, the boarding house problems and all other matters affect- ing the rural teacher's life, should be brought out in this course. (b) In the course in Rural School Management, the work should be planned so as to acquaint the pupil with the management of rural schools in South Dakota. While a textbook like Wilkinson's "Rural School Management," or Seeley's "The Country School," should be followed as a textbook additional work which would so acquaint the pupils should be given. Special attention should be given to forms of reports, school records, the daily program, the classification of pupils according to the state course of study, elements and responsi- bilities that make up the regular teacher's contract, the care of school houses with reference to the pupils' health, and other matters that are pertinent to rural school teaching in this state. Reviews and Special Methods of Teaching Common Branches. ( One unit. ) This course is designed primarily to provide special methods of teaching Reading, Arithmetic, Geography, Language and Grammar, and United States History. An opportunity should be given the pupils to review those subjects and at the same time special methods of teaching each of these subjects should be given. Charter's "Teach- ing the Common Branches" and many other texts giving methods of teaching particular subjects would be of value in this course. The State Course of Study should be in the hands of the pupils constantly. State Course of Study and Practice Teaching. (One-half unit.) The course in observation and practice teaching should be given during the last half of the second semester of the senior year. The first week of the work should be entirely of observation on the part of the pupils. During the week of observation, the pupils should visit regular grade classes and observe the way the classes are conducted FOR SOUTH DAKOTA 101 by the regular teachers in charge. Reports upon what they have observed then should be made to the regular normal training instruc- tor, and discussions had as to the points brought out in the recitations observed. Recitations in different subjects under different teachers should be observed and reported. The common school course of study should be the handbook of the pupils throughout this course. They should absolutely master it with regard to organization of subject matter and methods of presentation. This work then should be fol- lowed by actual practice teaching on the part of the pupils. Before at- tempting this, the pupils should make outlines of the lessons to be presented which should be approved by the normal instructors. Pupils then should be given charge of regular classes in the grades under the supervision of the teacher in charge of the room. This teacher should give her whole attention to observing the pupil who is conducting the recitation, and such teacher should take notes in a notebook, and a special report be made upon the work of the practice teacher to the normal training instructor. "Observation lessons need to be definitely planned and the students given a clear understanding of what they are to look for, the method to be used, the idea of principle involved and the results to be desired. Observation of classroom work should follow the study of method and observing demonstration teaching. Care should be taken to see that the normal trainees go to the classrooms to observe in the spirit of the learner rather than that of the critic. The teacher whose room is to be visited should also be informed of the intention of the class to visit at a given period, the work they desire to observe and any special points that the class may desire to have made plain. Devote the majority of the lessons to the primary grades. The class should observe the same work two or three days in succession and after conference with the room and normal training teachers, it would be well for the student to teach the subject observed. Where possible the student may be assigned to assist the regular grade teachers during a part of each day for a period of two or three weeks. They should be required to assist in gathering and pre- paring illustrative material and in making out daily plans." The following outline for observation will be found suggestive, but is not intended to be complete. Superintendents and normal training teachers will work out additional plans as needed. A lesson or a series of lessons may be judged: How to Judge a Lesson, 1 . By its aims and purposes — that is, by WHAT the teacher tries to do. This relates chiefly to the subject matter. (a) Was the subject matter presented in harmony with the general aim of education, that is, was it of actual life value to the children? (b) Did the subject matter and the instruction given fulfill the McMurray standards in the following respects: 1. Motivation. Was it motivated? Did the children feel a purpose in the lesson which APPEALED TO. THEM? 2 . Organization. Were both the teacher's lesson and the children's ideas well organized? 3 . Judgment. Was there opportunity for the children to "judge relative values," or compare ideas and make judgments on points during the lesson? 4 . Initiative. Did the children show any initiative by mak- ing original suggestions of worth during the lesson? 2 . By its method, that is, by HOW the teacher tried to realize her purpose. This related to the teacher's skill or technique. 102 HIGH SCHOOL MANUAL (a) Types of teaching — Were the types of lessons used, rightly chosen for the purpose and subject matter presented? Were they well handled and combined? (b) Questions. Were the questions good? (c) Assignments. Were the assignments problematic, motivated, definite and reasonable? That is, did they appeal to the children, make them understand just what they were to do, and reveal a purpose in doing the task set? (d) Illustrative materials and devices. Were these well chosen, ready at hand and effectively used? (e) Study. Was every opportunity improved for showing the children how to study and inculcating economical habits of study? (f) Lesson-plan. Was the lesson plan practical and effective? Did the teacher follow it approximately and keep to her main purposes? Was she skillful in meeting unexpected situations? 3 . By its results, that is by whether the teacher does what she intended to do. Did the teacher accomplish the specific purpose or aim of the lesson? Were the children interested? Were they in- structed? Did they get something? Was what they got worth while? Did they think? Did they fix facts or information? Did they show growth in correct habits and right attitudes? Note: Educational measurements and tests should be used oc- casionally in demonstration schools for testing results. 4 . Presenting criticism. The demonstration teacher, as well as the training teacher must use the utmost tact and ( sympathy in presenting criticism to students. The best time for doing this and talking over lessons is in the evening after school hours. In dis- charging this duty the demonstration teacher will find the following points suggestive: (a) In general, criticism should be presented much as a develop- ment or inductive lesson is taught; that is, the student should be led to criticise herself and suggest improvements THROUGH QUESTIONING. (b) Before meeting the student for this purpose, the demonstra- tion teacher should go over her notes and organize the points of criticism she expects to present, numbering them for clearness. (c) Pick out and commend the good points in the teaching, first explaining why they are good. (d) In presenting corrective criticism induce the student to criticise herself first in the light of standards established by the training course. (e) Never make an unfavorable criticism without suggesting a better substitute for what she has done. That is, make your criticism constructive. (f) Illustrate the points of criticism made, by several concrete examples. If the student's questioning is poor, for example, several of the poor questions used should be cited, and better questions given to illustrate the poor quality. (g) Summarize the criticisms given each day in the form of de- finite statements and have the student keep a numbered, list of these in her plan book. Review these occasionally by referring to them, and particularly by making a final sum- mary of them at the end of each week or at the close of the practice period. Xote: The above outline on "How to Judge a Lesson" is taken from the suggestions to Teacher Training Departments in High Schools of Minnesota by courtesy of the State Department of Education of Minnesota. FOR SOUTH DAKOTA 103 PROFESSIONAL BOOKS For High School Normal Training Departments Play and Recreation for the Open Country — H. S. Curtis. Ginn & Co. Chicago. How We Think — J. Dewey. D. C. Heath & Co., Chicago. Principles of Rural Economics — Thomas Nixon Carver. Ginn & Co., Chicago. The American Rural School — H. W. Foght. Macmillan Co., Chicago. Better Rural Schools — George H. Betts and Otis E. Hall. Bobbs- Merrill Co., Indianapolis. Human Behavior — Colvin and Wm. Bagley. Macmillan Co., Chicago. The Rural School, Its Methods and Management — Culter and Stone Silver Burdett & Co.. Chicago. The Rural Teacher and His Work — H. W. Foght. Macmillan Co., Chicago. Teaching Children to Study — Lida B. Earhart. Houghton, Mifflin & Co., Chicago. Art of Study — B. A. Hinsdale. American Book Co., Chicago. Moral Principles in Education — John Dewey. Houghton, Mifflin & Co., Chicago. Special Method in History — Charles H. Murry. Macmillan Co., Chicago. Rural Life and Education — E. P. Cubberly. Houghton, Mifflin & Co., Chicago. The Hygiene of the School Child — L. M. Terman. Houghton Mifflin & Co., Chicago. School Discipline — W. C. Bagley. Macmillan Co., Chicago. Principles of Education — F. E. Bolton. Chas Scribners Sons, N. Y. Every Day Problems in Teaching — M. V. O'Shea. Bobbs-Merrill Co., Indianapolis, Ind. The Recitation — George H. Betts. Houghton, Mifflin & Co., Chicago. Teaching the Common Branches — W. W. Charters. Houghton, Mif- flin & Co., Chicago. Best Methods of Teaching in Country Schools — G. Dallas Lind. Hinds, Noble & Eldridge, New York. An Outline of Methods in History — E. W. Kemp, Inland Co. How to Teach American History — J. W. Wayland. Macmillan Co., Chicago. Elementary School Standards — F. M. McMurray. World Book Co., New York. Everyday Pedagogy — L. I. Lincoln. Ginn & Co., Chicago. The Method of the Recitation— C. A. and M. F. McMurray. Mac- millan Co., Chicago. Elements of General Methods — C. A. McMurray. Macmillan Co., Chicago. How to Teach — Strayer and Norsworthy. Macmillan Co., Chicago. Methods of Teaching— W. W. Charters. Row, Peterson & Co., Chicago. Handbook of Practice for Teachers — C. A. McMurray. Macmillan Co., Chicago. Special Method in Language — C. A. McMurray. Macmillan Co., Chicago. The Teaching of English Grammar — F. A. Barbour. Ginn & Co. Chicago. The Teaching of English — Percival Chubb. Macmillan Co., Chicago. Methods and Aids in Geography — C. F. King. Lothrop, Lee & Shep- herd Co., Boston, Mass. Special Methods in Geography — C. A. McMurray, Macmillan Co., Chicago. 104 HIGH SCHOOL MANUAL The Teaching of Civics — Mabel Hill. Houghton, Mifflin & Co., Chicago. Teaching Elementary School Subjects — L. W. Lapeer. Charles Scrib- ners Sons, New York. Primary Methods — J. E. Black, School Methods Co., Chicago. The Teaching of English — Paul Klapper. D. Appleton Co., Chicago. Stories and Poems with Lesson Plans — Anna E. McGovern. Educa- tional Publishing Co., Chicago. Educative Seat Work — Edward Worst and Edna Keith. Thomas Charles Co., Chicago. The Teaching of Arithmetic — Alva Walker Stamper. American Book Co., Chicago. Special Method in Arithmetic — C. A. McMurray. Macmillan Co., Chicago. The Teaching of Primary Arithmetic — Henry Suzzallo. Houghton millan Co., Chicago. Agricultural Education for Teachers — Garland Arinor Bricker. Am- erican Book Co., Chicago. Schools of Tomorrow — John Dewey and Evelyn Dewey. E. P. Dutton & Co., New York. How to Tell Stories to Children — S. C. Bryant. Houghton, Mif- flin & Co., Chicago. Stories to Tell to Children — S. C. Bryant. Houghton, Mifflin & Co., Chicago. Some Great Stories and How to Tell Them — R. T. Wyche, Newson Co., Chicago. The Child and His Spelling — W. A. Cook and M. V. O'Shea. Bobbs- Merrill Co., Indianapolis, Ind. The Teaching of Spelling — Henry Suzzallo. Houghton, Mifflin & Co. Chicago. The Teaching of Handwriting — F. N. Freeman. Houghton, Mifflin & Co., Chicago. Primary Methods (Penmanship in lower grades) — J. E. Black, School Methods Co., Chicago. Manual for Teachers — Palmer System. Teaching Children to Read — Paul Klapper. D. Appleton Co., Chicago. Teaching Children to Read — Paul Klapper. D Appleton Co., Chicago. Special Methods in Reading for the Grades — C. A. McMurray. Mac- Millan Co., Chicago. The Dramatic Method of Teaching — Harriet Finley-Johnson. Ginn & Co., Chicago. Illustrated Phonics — M. I. Ives. Longsman, Green & Co., N. Y. Reading, How to Teach It — S. L. Arnold. Silver Burdett & Co., Chicago. How to Teach Reading in the Public School — S. H. Clark. Scott Foresman & Co., Chicago. The Teacher and the School — Colgrove. Scribner, New York. The Country School — Seeley. Scribner, New York. Principles of Teaching — Thorndike. A. G. Seiler, New York. The Theory of Teaching — Salsbury. Row Peterson & Co., Chicago. Country Life and the Country School — Row, Peterson & Co., Chicago. School Recreations — Mann. American Book Co., Chicago. The Teaching of Geography — Southerland. Scott, Foresman Co. How to Teach History — Hinsdale. Appleton Co. How to Teach Arithmetic — Brown and Coffman. Row, Petesron & Co. Rural School Management — Wilkinson. Silver Burdett Co. Method of Teaching History — Mace, Ginn & Co., Chicago. Method in Teaching Reading — Sherman and Reed. University Pub- lishing Co. FOR SOUTH DAKOTA 105 Public School Methods. Methods Co., Chicago. Teaching to Read — Hughes. American Book Co., Chicago. The Teacher, the School and the Community — McFee. American Book Co., Chicago. The Classroom Teacher — Strayer and Englehart. American Book Co., Chicago. Familiarize the pupils with the contents of the state course and impress upon them that the state law requires that this course of study be followed as an outline in the rural schools. Monthly tests and all required reports should be carefully studied. Impress upon the pupis that the best friend the rural teacher has is the county superintendent who should be consulted freely for advice and guid- ance. 106 HIGH SCHOOL MANUAL PHYSICAL EDUCATION (One unit.) Education is the making of better life — physically, mentally, morally and socially. Physical Education is one of the best means, directly and indirectly of accomplishing this, and so should occupy an important place in the school curriculum. The Aims of Physical Education are: 1 . Health. (a) Improvement of posture. (b) Improved functioning of vital organs. (c) Development of general bodily vigor. 2 . Social and Moral Development. (a) Cultivate the spirit of fairness, truthfulness, ability to cooperate, respect for others' rights, self control and loyalty. 3 . Mental Development. (a) Develop powers of observation, concentration, independ- ent thinking, quick response, correct posture, coordina- tion and skill. Physical Education should be offered for both boys and girls, a minimum of two periods a week for four years, and opportunity offered and enthusiasm developed for elective work in interclass athletics and outdoor sports — activities the pupils can carry on by themselves. One-fourth unit should be given for thirty-six weeks, two periods a week — the same as for laboratory. Classes should, if possible, be divided according to the physical fitness and the interests of the pupils — those desiring and able to enter interclass games being placed in one division, with less work in posture, gymnastics, and folk dancing. Physical Education for High School Girls should consist of: 1. Marching and Simple Tactics, 1, 2. (See appended reference list). Marching forward, backward, sidewise. Column right by single file, twos, fours. Wheeling in fours. By right flank. To rear. 2 . Gymnastics. (a) Formal Gymnastics, 3, 4. (See references). (b) Individual Corrective Exercises. (See references). (c) Apparatus — wands, stall bars, horizontal ladder. (d) Tumbling — walks and rolls. (e) Natural Gymnastics for swimming, basket and base ball. 3 . Dancing. (a) Folk — as Pop goes Weasel, Virginia Reel, John Brown, Irish Lilt, Seven Jumps, Black Nag. Czardas. (b) Aesthetic: 1 . Rhymthic steps as march, skip, slide, polka, mazur- ka. 2 . Hinman, Chalif , or other simple dances. 4 . Games and Athletics. (a) Group and Circle (some relays) as: Three Deep, Stride Ball, Black and White, Last Couple out. FOR SOUTH DAKOTA 107 (b) Team Games. 1. Lower Organization as; Progressive Dodge Ball, Overtake, Bombardment, End Ball, Captain Ball, Bowling and Long Ball. 2. Higher Organizations. Fall Newcomb; Winter Bas- ket-ball. Spring base-ball, and Volley Ball. (In these, squads should be organized to compete against one another, and thus give all an equal chance. 5. Recreative Activities in the Home and Community. (2^ hours should be required each week) as walking, skating, skeeing, swimming, bicycling, horseback riding, rowing, golf, camping, and gardening. 6 . Hygiene. (a) Examination of each pupil for discovery of defects of eyes, nose, throat and heart, which should be referred to a physician at once; and for classification of pupils for exercises. (b) Talks and Discussions on Phases of Hygiene (10 minutes of Physical Education period twice a month). Also during the regular class period topics of air, bathing, clothing, sleep and diet may be taken up informally and incidentally. (Note: Numbers refer to books in the list of references at close of this article.) The boys' course should include a greater amount and more complex forms of marching and military tactics, more apparatus work of all kinds with their formal gymnastics requiring greater skill in the control of the body; more track and field work, and tumbling. Their dancing should be athletic in character and not so prominent as for girls. Their games should be fewer in number and of the higher organized type: Fall, soccer and some football; Winter, basket ball; Spring, baseball and track and field athletics. A suggested arrangement and time allotment for the types of physical education, for two forty-five minute lessons a week follows: (10 minutes allowed for dressing). Girls A. 1/3 of Period. Marching, simple tactics of formal gymnastics. 1/6 of Period. Apparatus, natural gymnastics or tumbling. 1/2 Period. Games. B. 1/3 of Period. Rhythmic steps or hygiene talk (twice a month.) 2/3 of Period. Folk dances and games. Boys A. 1/4 of Period. Marching tactics. 3/8 of Period. Formal gymnastics or apparatus, or track and field. 3/8 of Period. Games. B. 1/6 of Period Natural gymnastics. 1/6 of Period. Tumbling. 2/3 of Period. Game. 108 HIGH SCHOOL MANUAL In the short time allowed for Physical Education in the High School, we can never hope to secure our aims by classroom work alone. We must place the emphasis on games and sports — activities which the pupils will be inclined to carry on outside school hours and in later life. Games should be held for girls in: Newcomb (Fall) Basketball, Girls Rues. (Winter) Baseball, Indoor and Volley Ball, (Spring) for boys in Soccer, Some Football, Basket ball, Baseball, Indoor and Volley Ball, Track and Field. These should be played between organized squads and classes, giving all a chance, rather than picking a single representative team. The training of "prize winning athletes" is not the business of a public school. Big championship meets, which serve as dramatic climaxes for the days of training and class competitions may, however, well be held occasionally. There are great socializing occasions when the school spirit and loyalty run high, and faculty and students as a whole are welded together into one great family. If we are to re- gard athletics as a means of promoting physical development, health, standards of square dealing, then the many, rather than the few, must be reached. These natural plays and games have greater possibilities of af- fecting the entire life of the individual than do the other forms of Physical Education; but in all forms the social, moral, mental, and physical values must be definitely aimed for and emphasized else the most undesirable qualities are more than likely to develop. A player will naturally respond to a situation in the instinctive emotion- al way which is usually condtradictory to our modern standards of social conduct. Through training such as is here outlined, satisfactory substitution or sublimation of this natural response results. .Pupils must be taught to play hard, to the limit of their ability, whether winning or losing, but always fairly and honestly; to treat their opponents as friends and guests; to accept defeat with a smiling face but with a determination to work harder the next time. They must be made to feel they are the representatives of their group or school and for it they should gladly lose rather than resort to any unfair or questionable tactics to win. List of References 1. Schoolroom Marches and Tactics, 25$ — Spalding. 2. Infantry drill regulations, 7 5