Technology — Pre-Engineering quires, therefore, more extensive training in mathematics and science than does the Engineering Technologist. Students receiving a bachelor of science of degree in any of the Engineering Technology majors must satisfy the following minimum core requirements: 1. Math: 20 credit hours 2. Physics : 12 credit hours 3. Electronics: 8 credit hours 4. Computer Programming: 3 credit hours 5. Chemistry: 5 credit hours 6. Technical Writing: 3 credit hours 7. Drafting: 5 credit hours including at least one class in descriptive geometry 8. Mechanics : 5 credit hours 9. Industrial Engineering Technology 332: 5 credit hours The example programs for each major include all classes necessary to fill the core requirements. PRE-ENGINEERING PROGRAM Newel B. Cutler, Coordinator The Pre-Engineering Program offers the first two years of the professional engineering curricula for chemical, civil, electrical, mechanical, aeronautical, mining, metallurgical, and geological engineering. These two-year curricula are designed to prepare the engineering student to transfer to the junior year of engineering at the senior colleges of engineering in the State of Utah and also to many other professional engineering colleges and universities. Scheduling of Courses—In planning his program it is important for a student to be aware of certain prerequisites to, and scheduling of, key courses. If the student becomes irregular in his program, he should consult his adviser, since improper scheduling of courses can cause some delay in his graduation. COURSES OF INSTRUCTION 140. Engineering Orientation—A W S (1) 141. Slide Rule—Operation and use of the slide rule. May be taken on an accelerated schedule. Prerequisite: Trigonometry in high school or college. (May be taken concurrently.) AWS (1) 310 Technology — Pre-Engineering 221. DC and Steady State AC Circuit Analysis—Ohm's law. Kirchoff's laws and network theorems. Power in DC and AC circuits. LRC circuits. Fourier Analysis of functions. Prerequisite: Mathematics 212 (May be taken concurrently). Four lectures and one 3-hour laboratory a week. S (5) 311, 312. Electric Circuits—Basic network conventions and topology; formulation of network equations; solutions using transform and operational methods; impedance and admittance functions ; network functions, driving point and transfer admittances ; steady state analysis from pole-zero configurations ; amplifier networks. Prerequisites: Pre-Engineering 221 and Math 371. (May be taken concurrently.) Four lectures. (Offered 1975-76 and alternate years.) W S (4) 350. Engineering Mechanics—Principles of static stress analysis, force systems, equilibrium of structures, distributed forces, friction, moments of inertia. Prerequisites: Physics 261, (May be taken concurrently). Mathematics 212 with grade of "C" or better. W (4) 351. Strength of Materials—Continuation of Engineering 150. Stress analysis, torsion, elastic and inelastic bending, columns, beams, compound stresses, design of members. Prerequisite: Pre-Engineering 350 with grade of C or better. W (4) 352. Dynamics—Introduction to kinetics and momentum principles. Prerequisites: Engineering 350; Math 371 (May be taken concurrently), Physics 261 and 264. S (4) Freshman Year Courses Credits Math 107, 211, 212 15 Chemistry 121, 122, 123* 15 English 101, 102 6 Data Processing 260 3 Pre-Engineering 141 1 P.E. & Health Ed. Engineering Graphics 135 Pre-Engineering 140 Pre-Engineering (Example Only) Sophomore Year Courses Credits Math 213, 320, 371 14 Physics 261, 262, 263 12 Physics 264, 265, 266 3 Pre-Engineering 350, 352 .... 8 Pre-Engineering 221 5 English 103*** 3 General Education 9 54 49 '■"Transfers to Utah State University need not take Chemistry 123. Substitute English 103. **Students who transfer to University of Utah are not required to take Physical Education and Health Education. ***Transfers to University of Utah should take a junior level composition course in place of English 103. 311