3. Descriptive Geometry—Orthographic projection, auxiliary view solutions, solutions by the revolution method; line, plane, and point relationships; graphical computations, polyhedrons, curved surfaces, and warped surfaces; analytic solutions and practical applications. Prerequisite: Engineering 2. One lecture and two laboratory periods a week. S (3). Staff 4. Surveying—Theory of surveying, use of chain, level, and transit, traversing, computations, areas, and volumes. Prerequisite: Engineering 1 and Mathematics 18. Two lectures and two laboratory periods per week. A (4). Buss, Cutler 6. Advanced Surveying—Problems in leveling, curves, stadia, plane table, and boundary surveys. Prerequisite: Engineering 4. One lecture, two labs. S (3). Buss, Cutler 24. Principles of Electrical Engineering—Theory of electrical engineering, electrical quantities, resistance and conductance, Kirchoff's laws, network theorems, and introduction to A. C. circuit theory. Prerequisites: Physics 61 and Mathematics 52, or may be taken concurrently. Three lecture periods a week. A (3). Cutler, L. Dickson 25. Principles of Electrical Engineering—Continuation 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 52, and Physics 62, 65. Three lecture periods and one laboratory period a week. W (4). Cutler, L. Dickson 26. Principles of Electrical Engineering—Continuation of Engineering 25. Graphical solution of circuits, solutions by network theorems, coupled circuits, nonlinear elements, and Fourier analysis. Prerequisites: Engineering 25, Mathematics 53 and Physics 62, 65. Three lecture periods and one laboratory period a week. S (4) Cutler, L. Dickson 29. Physical Metallurgy—Principles of physical metallurgy of metals and alloys. For mechanical engineers. A (3). Welch 30, 31, 32. Introduction to Chemical Engineering—Elementary chemical engineering calculations and illustrative problems in material and energy balances. Three lectures per week. Prerequisites (may be taken concurrently): Mathematics 52, 53, 54; Physics 61, 62, 63, 64, 65, 66, and Chemistry 51, 52. A W S (3, 3, 3). Miner 40. Engineering Orientation—A study of the engineering professions; objectives of engineering education, professional ethics of engineering, 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. A (1). Staff 41. Slide Rule^—Operation and use of the slide rule. The scales C, D, A, B, L, K, S, T, SRT, CI, CF, DF, OIF, LL1, LL2, LL3, LLOl, LL02, and LL03 are studied. Prerequisite: Trigonometry in high school or college (may be taken concurrently). W S (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 18 and 21. One lecture period a week. S (1). Staff 44. Computer Utilization—Introduction to the use of the digital computers in problem solving, utilizing Fortran. A study of Arithmetic Statements and Expressions, Control and Specification Statements, Basic Input/Output Statements, Format and Sub-routines. Prerequisite: Math 21. One lecture and one two hour laboratory period a week. S (2). Cutler, L. Dickson 47. Technical Reports—Principles 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 Mechanics—Principles of static stress analysis, force systems, equilibrium of structures, distributed forces, friction, moments of inertia. Prerequisites: Physics 61, 64; Mathematics 52, 53, with grade of C or better. Four lecture periods a week. WS (4). Cutler, L. Dickson 151. Strength of Materials—Continuation 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). Cutler ENGINEERING MAJOR Freshman—Common to All Engineering Majors Course Chemistry 24, 25 Engineering 1, 2 Engineering 3* Engineering 40, 41, 44 English 1, 2, 3 Mathematics 21, 51, 52 Title A W S Principles of Chemistry 5 5 Engineering Drawing 2 2 Descriptive Geometry 3 Engineering Orientation, Slide Rule, "Computer Utilization" 112 Basic Communications 3 3 3 College Algebra, Analytic Geometry and Calculus 5 5 4 *Students who major in Electrical or Chemical Engineering and who transfer to the U. of U. replace Engineering 3 with a general education elective. 204 205