74- COURSES OF INSTRUCTION Mathematics It is recommended that a student pursuing a major in mathematics complete Mathematics 4, 5, 6, 7, 8, and 9. A student pursuing a teaching major in mathematics should refer to the Secondary Education Curriculum. 1. Intermediate Algebra. Equivalent in subject matter to the high school second course in algebra. Prerequisite: First course in algebra. Five quarter hours. Autumn, Winter, Spring. Huish, Atkins 2. Solid Geometry. Equivalent in subject matter to the high school course in solid geometry. Prerequisite: Plane geometry. Five quarter hours. Winter, Spring. Staff 3. Trigonometry. Equivalent in subject matter to the high school course in trigonometry. Prerequisite: First course in algebra and plane geometry. Five quarter hours. Autumn, Winter, Spring. Stevenson 3a. A Course in Plane Trigonometry. Three quarter hours. Winter. (May not be given.) Staff 4. College Algebra. Prerequisite: Mathematics 1. Five quarter hours. Autumn, Winter, Spring. Stevenson, Murphy, Terry 5. Analytic Geometry. Prerequisites: Mathematics 2, 3, and 4. Five quarter hours. Winter. Staff 6. Analytic Geometry. A continuation of Mathematics 5. Prerequisite: Mathematics 5. Five quarter hours. Spring. Staff 7. Calculus. Prerequisites: Mathematics 2, 4, 5 and 6 or 10. Four quarter hours. Autumn. Murphy 8. Calculus. A continuation of Mathematics 7. Prerequisite: Mathematics 7. Four quarter hours. Winter. Murphy 9. Calculus. A continuation of Mathematics 8. Prerequisite: Mathematics 8. Four quarter hours. Spring. Murphy 10. Analytic Geometry. Prerequisites: Mathematics 2, 3, and 4. (This course will not apply toward a major or minor in mathematics.) Five quarter hours. Winter, Spring. Staff 12. Freshman Mathematics. It is recommended that Mathematics 1 or 4 precede this course. Five quarter hours. Winter. (May not be given.) Staff 81. Applied Mathematics. A course which treats the fundamental processes of mathematics as used by trade and industry. Measurements, common and decimal fractions, surfaces, volumes, capacities, etc., are given special consideration. Practical applications of algebra are included. Three quarter hours. Autumn, Winter. Alexander 82. Applied Geometry. A course dealing with the fundamentals of geometry as applied to carpentry, sheet metal, machine shop, etc. Angles, degrees perpendiculars, construction, measuring, bisecting of angles and [lines, etc., are given practical application. Individual needs, in plain or solid geometry are considered. Prerequisite: Mathematics 81 or equivalent. Three quarter hours. Winter. Alexander , J5 83. Applied Trigonometry. A practical application of trigonometry in industry. Some of the problems considered are ratios and proportions, functions of the right triangle, sine, cosine, tangent, trigonometric functions, various equations, use of logarithms, and tables. Prerequisite: Mathematics 82 or equivalent. Three quarter hours. Spring. Alexander Department of Physics and Radio C. A. Osmond, R. A. Clarke, E. S. Murphy, F. S. Rabe, H. P. Huish Physics It is recommended that a student pursuing a major in physics complete Physics 4, 5, 6, Chemistry 4, 5, 6, and Mathematics 4, 10, 7, 8, and 9. A student majoing in Meteorology should see curricula listed under Engineering. 1. General Physics. Recommended for students not majoring in science. Four lectures and one laboratory period a week. Five quarter hours. Autumn. Osmond 2. General Physics. A course completing the general field introduced by Physics 1. No prerequisites. Four lectures and one laboratory period a week. Five quarter hours. Winter. Osmond 3. Meteorology. Physics of the atmosphere. No prerequisites. Five quarter hours. Spring. Osmond 4. General Physics. Designed especially for engineering students. Prerequisite: Mathematics 3. Four lectures and one laboratory period a week. Five quarter hours. Autumn. Osmond, Clarke, Huish 5. General Physics. A continuation of Physics 4. Four lectures and one laboratory period a week. Five quarter hours. Winter. Osmond, Clarke, Huish 6. General Physics. A continuation of Physics 5. Four lectures and one laboratory period a week. Five quarter hours. Spring. Osmond, Clarke, Huish 10. Physics Survey. Recommended for students not majoring in, science. Five quarter hours. Autumn, Winter, Spring. Osmond 14. General Astronomy. Five quarter hours. Spring. Osmond 21. Elementary Photography. A basic course in principles and techniques of photography. The lecture course includes composition, light, characteristics of sensitized materials, lenses, exposure, chemistry, and principles of color photography. The laboratory work includes hand camera operation, developing, printing, and enlarging. Three lectures and one laboratory period a week. Recommended prerequisite: Chemistry 1 and 2 and Physics 2. Four quarter hours. Autumn, Winter, Spring. Rabe 23. Advanced Photography. A course offering more advanced work than Physics 21 in optics, chemistry of photography, sensitometry, composition, and principles of color photography. Laboratory work stresses composition, exposure, camera manipulation, recognition of print and negative faults, and advanced darkrom techniques. Two lectures and two laboratory periods a week. Recommended prerequisite: Chemistry 1, 2 and Physics 2. Four quarter hours. Autumn, Winter, Spring. Rabe *Radio 50. Direct Current Theory. Batteries; direct current generators and motors; simple wiring diagrams. Three lecture periods a week. Three quarter hours. Autumn. Murphy 50a. Direct Current Laboratory. To be taken with Radio 50. Two laboratory periods a week. Two quarter hours. Autumn. Murphy