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Show dia, plane table, and boundary surveys. Prerequisite: Engineering^ One lecture, two labs. S (3). Buss, Cutler 14. Machine ShopMachine-shop methods, and practice. Bench work, hand tool usage, basic fundamentals of lathe, drill press, shaper, and milling machine operation such as facing, rough and finish turning, thread cutting, drilling, reaming, boring, taper turning, plane and angular shaping, and gear work. Two shop periods a week. W (2). Staff 24. Principles of Electrical EngineeringTheory of electrical engineering, electrical quantities, resistance, and con-ductance, Kirchoff's laws, network theorems, and introduction to A. C. circuit theory. Prerequisites: Physics 61 and Mathematics 61, or may be taken concurrently. Three lecture periods a week. A (3). Cutler, Atkins 25. Principles of Electrical EngineeringContinuation of Engineering 24. Inductance, capacitance, circuit equations, complex algebra, average power and effective current, electrical measuring instruments, analysis of simple A. C. circuits, substitution methods, and resonance. Prerequisites: Engineering 24, Mathematics 61, and Physics 61. Three lecture periods and one laboratory period a week. W (4). Cutler, Atkins 26. Principles of Electrical EngineeringContinuation of Engineering 25. Graphical solution of circuits, solutions by net-work theorems, coupled circuits, nonlinear elements, and fourier analysis. Prerequisites: Engineering 25, Mathematics 62, and Physics 62. Three lecture periods and one laboratory period a week. S (4). Cutler, Atkins 29. Physical Metallurgy Principles of physical metallurgy of metals and alloys. For mechanical engineers. A (3). Murphy 30, 31, 32. Introduction to Chemical EngineeringElementary, chemical-engineering calculations and illustrative problems in material and energy balances. Two lectures a week. Prerequisites (may be taken concurrently): Mathematics 61, 62, 63; Physics 61, 62, 63, and Chemistry 51, 52. A W S (3, 2, 4). Murphy 40. Engineering OrientationVocations and professions with special emphasis on the engineering professions, objectives of engineering education, professional ethics of enginering, how to study engineering, achievements in the various branches of engineering, and how to make a wise choice of vocation. One lecture period a week. AW (1). Staff 41. Slide RuleOperation and use of the slide rule. The scales C, D, A, B, L, K, S, T, SRT, CI, CF, DF, CIF, LL1, LL2, LL3, LLOl, LL02, and LL03 are studied. Prerequisite: Trigonometry in high school or college (may be taken concurrently). W S (1). Staff 42. Welding MethodsTheory and practice of oxyacetylene and electric arc welding; fusion welding and cutting with acetylene on steel alloys and non-ferrous metals; electric welding of steel in varied thickness and positions. One shop period a week supplemented by lecture. AWS (1). Staff 43. Engineering Problems Scientific presentation of data, graphs and curve plotting, use of slide rule and calculating machines in problem solving, unit systems, dimensional analysis. Prerequisites: Mathematics 21 and trigonometry. One lecture period a week. S (1). Atkins, Cutler 47. Technical ReportsPrinciples of composition applicable to engineering and scientific reports. Prerequisites: English 1 and 2 (English 2 may be taken concurrently). (See English 32.) W (3). Staff 150. Engineering MechanicsPrinciples of static stress analysis, force systems, equilibrium structures, distributed forces, friction, moments of inertia. Prerequisites: Physics 61, Mathematics 61, 62 with grade of C or better. Four lecture perioods a week. W S (4). Huish, Murphy 151. Strength of MaterialsContinuation of Engineering 150. Stress analysis, torsion, elastic and inelastic bending, columns, beams, compound stresses, design of members. Prerequisite: Engineering 150 with grade of C or better. Four lectures a week. S (4). Murphy |