EDUCATION IN FORESTRY. 47 



4. Analytic geometry. Plane and solid analytic geometry. (E and C, I, 2.) 



5. Calculus, differential anil integral. Principles of differential and integral 

 calculus applied to functions of one and several variables (E and C II 1 

 and 2. ) 



6. Drawing. Lettering, mechanical drawing, free-hand drawing, and ma- 

 chine sketching. (E and C, I, 1 and 2.) 



7. Elementary surveying. Use of surveying instruments; fundamental sur- 

 veying methods; measurement of lines, angles, and areas. (E and C, II 2 ) 



8. Woodwork. Use and care of bench and lathe tools, and of woodworking 

 machinery; preliminary exercises in pattern making, joinery, and cabinet 

 work. (E and C, I, 1.) 



9. Forge shop. Forging, welding, tool dressing, tempering, etc. (E and n f 



10. Chemistry. General theory; classification and properties of nonmetals 

 metals, and their compounds. (E. and C, I, 1 and 2.) 



11. Qualitative analysis. Principles and practice of qualitative analysis 

 (E and C, II, 1.) 



12. Quantitative analysis. Gravimetric and volumetric determinations, in- 

 cluding electrolytic methods and the calibration of weights and volumetric ap- 

 paratus. (E and C, II, 2.) 



13. Organic chemistry. Composition and characteristics of the principal 

 chisses of organic compounds, with emphasis upon class reactions and struc- 

 tural theory, and with special reference to wood and other forest products 

 (E and C, III, 1 and 2.) 



14. Organic synthesis and analysis. Preparation and analysis of typical 

 organic compounds. (C, III, 1 and 2.) 



15. Physical cliemistry. Constitution and structure of matter; general prop- 

 erties of gases, liquids, and solids; phenomena of solutions; colloids; electro- 

 chemistry; thermochemistry. (C, IV, 1 and 2.) 



16. Chemical technology. Application of chemical and physical principles 

 to problems of chemical manufacture, together with the principles of standard 

 types of machinery and apparatus used by the chemical industries. (C, IV, 1.) 



17. Industrial analysis. Analysis of a variety of materials in common indus- 

 trial use, with emphasis on the significance of procedure and results. (C, IV, 2.) 



18. Physics. Fundamental principles of gravitation, heat, light, sound, me- 

 chanics, magnetism, and electricity. (E and C, II, 1 and 2.) 



19. Physics laboratory. Physical measurements and experiments in the fields 

 covered by Course 18. (E and C. II, 1 and 2.) 



20. Engineering mechanics. Theoretical and applied mechanics, including 

 fundamental concepts and general principles of equilibrium and motion ; statics, 

 kinetics, and mechanics of materials; application of principles and methods 

 to engineering problems. (E and C, III, 1 and 2.) 



21. Mechanical laboratory. Experiments on engines, turbines, pumps, boilers, 

 and other machines; shop practice on the drill, lathe, planer, and other stand- 

 ard machine tools. (E and C, III, 1 and 2.) 



22. Steam and gas power. A general study of steam and gas power plants 

 and equipment ; relative costs and advantages of different types and sizes of 

 machinery ; combustion, handling, and storage of fuels used in power plants. 

 (E, III, l.j 



23. Machine design. Design of machines and machine parts, .including ad- 

 vanced drawing, and with particular reference to sawmill and woodworking 

 machinery. (E, IV, 1.) 



24. Hydraulics. Hydrostatics and hydrodynamics, including water pres- 

 sure, water flow, friction, etc. (E, IV, 1.) 



25. Masonry construction. Principles and design of masonry structures, in- 

 cluding the properties of concrete and reinforced concrete. (E, IV, 1.) 



26. Electrical engineering. Essentials of electrical engineering, including the 

 generation, transmission, and application of electrical power. This and Course 

 22 together cover the subject of prime movers. (E and C, IV, 2.) 



27. Engineering materials. Properties and requirements for materials, par- 

 ticularly wood, used in engineering construction : effect of methods of manu- 

 facture upon the quality of the material ; specifications and standard tests used 

 to secure acceptable grades of material. (E, IV, 2.) 



28. Structural design. Computation of stresses; design of columns, beams, 

 and girders; building laws and specifications. (E, IV, 2.) 



29. Botany. Studies of the form, structure, life processes, and (briefly) 

 classification of the principal groups of plant life. (E and C, I, 1 and 2.) 



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