52 WEBER COLLEGE THE DEPARTMENT OF PHYSICS CHARLES ANSON OSMOND It is recommended that a student pursuing a major in Physics complete Physics 4, 5, and 6; Chemistry 4, 5, and 6 or (1, 2, and 11) and Mathematics 4, 5, 6, 7, 8, and 9. Mathematics 10 will substitute for 5 and 6. SUGGESTED CURRICULUM Radio FRESHMAN YEAR Quarter Hours English 1, 2, 3 15 Mathematics 4, 5, 6 15 Physics 1, 2, 3, or 4, 5, 6 15 Physics 7, 8, 9 9 Physical Education and Hygiene 1 3 57 SOPHOMORE YEAR Quarter Hours Mathematics 7, 8, 9 15 *Physics 10, 11, 12 9 Chemistry 1, 2, 3, or 4, 5, 6 15 Economics 1 5 Engineering 1 3 Physics 14 5 Physical Education 3 55 *Not given 1934-35. COURSES OF INSTRUCTION Physics PHYSICS 1. General Physics. A course adapted to the needs of the non-science student. Especially recommended for students not inclined mathematically but who desire a knowledge of every-day science. Four class periods and one laboratory period a week. Five quarter hours. WEBER COLLEGE 53 PHYSICS 2. General Physics. Continuation of Physics 1. Five quarter hours. PHYSICS 3. Meteorology. Designed to give a general knowledge of the Physics of the atmosphere. Five quarter hours. PHYSICS 4. General Physics. Designed especially for engineering students. Deals largely with mechanics. Prerequisite: Mathematics 3. Five quarter hours. PHYSICS 5. General Physics. Continuation of Physics 4. Has to do chiefly with dynamics, heat, and sound. Prerequisite: Mathematics 3. Five quarter hours. PHYSICS 6. General Physics. Continuation of Physics 5. Includes a study of magnetism, electricity, and radiation. Prerequisite: Mathematics 3. Five quarter hours. PHYSICS 7. Radio Physics. A preparatory course in the study of radio. Principle consideration is given magnetism and electricity. Two lectures and one laboratory period a week. Three quarter hours. PHYSICS 8. Radio Physics. A continuation of Physics 7, applications being made directly to radio. Two lectures and one laboratory period a week. Three quarter hours. PHYSICS 9. Radio Physics. Fundamentals of radio reception and transmission. Two lectures and one laboratory period a week. Three quarter hours. PHYSICS 10. Radio Physics. A technical study of tube characteristics, resistance, capacity, inductance measurements, etc. Three quarter hours. (Not given 1934-35.) PHYSICS 11. Radio Physics. Audio and radio amplification, calibration experiments, etc. Three quarter hours. (Not given 1934-35.) PHYSICS 12. Radio Physics. Experimental Radio. Emphasis is placed on radio testing and servicing. Three quarter hours. (Not given 1934-35.) PHYSICS 14. General Astronomy. A course that treats the physics of heavenly bodies: constellations, planets, satellites, etc. Special stress is placed on the earth, sun, and moon as astronomical bodies. Five quarter hours.