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Show ENGINEERING TECHNOLOGY COURSES Engineering Technology Courses PRE-ENGINEERING PROGRAM 142. Technical Drawing (4) Basic drafting. Includes lettering, geometric constructions, use of drafting machines, sketching, multiview drawings, sectional veiws, auxiliary views, dimensional theory and practice. One hour lecture and three 3-hour labs a week. 236. Materials and Processes (5) Survey of industrially important materials; the principles of materials behavior, the processes used to change materials shape and condition for industrial use. Four lectures and one laboratory per week. 244. Descriptive Geometry (3) Deals with view relationships, spatial visualization and problems relating to points, lines planes, and developments. Prerequisite: Engineering Technology 142 or equivalent. One hour lecture and two 3-hour labs per week. 319. Systems Analysis (5) The analysis of systems using differential equations, pole-zero interpretation of systems. Prerequsites: Electronics Technology 147, 148; Math 212 or Related Technical Education 118. 330. Introduction to Applied Mechanics (5) The principles of statics and dynamics as used in industrial equipment and structures. Development of analytical skills, and techniques. Prerequisite: Related Technical Education 115 or equivalent. 331. Strength of Materials (4) Relation of physical properties of matter to geometric properties of form, stress and strain. Beams, columns, welded and riveted joints, combined loading. Prerequisite: ENGTC 330, Four lectures. 332. Machine Design (3) Application of engineering fundamentals to machine design with emphasis on stress and deflection analysis, and techniques involved in designing and selecting individual machine parts. Prerequisites: Related Technical Education 118 and Engineering Technology 236 and 331. Three one-hour lectures per week. 334. Applied Fluid Power (3) Principles of fluid mechanics and component operation as they apply to the design of hydraulic and pneumatic systems. Prerequisites: ENGTC 331 (may be taken concurrently). Three lectures. 345. Introduction to CAD/CAM (3) Introduction to computer graphics applications ..in technical design and manufacturing problems. Prerequisites: Math 106 or Related Technical Education 115; ENGTC 142. Two Lectures and one lab per week. 346. CAD/CAM applications (3) Advanced applications for computer graphics to engineering design and manufacturing problems such as N/C programming, nesting, flame cutting, stress anlaysis and 3D modeling. Prerequisites: ENGTC 345. 347. Special Projects in CAD/CAM (3) Indepth study of specific CAD/CAM applications. Prerequisite ENGTC 346. 355. Introduction to Micro-Processors (3) Introduction to micro-processors and their industrial applications. Prerequisites: Electronic Technology 124. Three lectures, one 3-hour lab. 456. Supervision Principles (3) Understanding the basic company, supervisor and operator objectives and responsibilities, and their relationships to each other; case problem approach. Three lectures. 461,462,463. Senior Projects (6) An engineering problem for each program will be selected for team solution. Problems will require analysis, evaluation, design, planning, development, production and testing. Prerequisite: Permission of instructor. 471. Kinematic (3) Analysis of displacement, velocity and acceleration in mechanisms by graphical and analytical methods: kinematic design of linkage, cams, gears, gear trains and miscellaneous mechanism. Prerequisites: ENGTC 244 and 330. Three one-hour lectures. 472. Thermodynamic Systems (3) Application of the laws, concepts, and procedures of thermodynamics, heat transfer, and gas dynamics to industrial situations. Prerequisites: Related Technical Education 118; Physics 113 or 263, Chemisty 101. Three lectures. W. Lee Dickson, Coordinator Program: Pre-Engineering Program (Associate of Science Degree Optional) I. General Requirements: A. 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. B. These two-year curricula are designed to prepare the engineering student to transfer to the junior year of engineering at the senior college of engineering in the state of Utah and also to many other professional engineering colleges and universities. C. In planning their program it is important for students to be aware of certain prerequisites to, and scheduling of, key courses. Students should consult their adviser since improper scheduling of courses can cause some delay in their graduation. D. A grade of C or better is required. II. Specific Requirements: A. Pre-engineering courses required (15 credit hours): Pre- engineering 140 (1), 221 (5), 350 (4), 352 (4). B. Support courses required: Mathematics 211 (5), 212 (5), 213 (5), 320 (5), 451 (4), 452 (4), 453 (4); Chemistry 121 (5), 122 (5), 123 (5); Physics 261 (4), 262 (4), 263 (4), 264 (1), 266 (1); COMIS 260 (3). SAMPLE SCHEDULE PRE-ENGINEERING HESHMAN: tutumn Winter Spring SOPHOMORE: Autumn Winter Spring -1ATH211 :HEM 121' iNGLI 101 :0M1S 260 ;ngin 140 MATH 212 CHEM 122 ENGL1 102 GEN ED' ■ TOTAL 18 MATH 213 5 CHEM 123 5 ENGLI 103 3 GEN ED" * 5 TOTAL 18 MATH 320 5 MATH 451 4 PHYSC 261 4 PHYSC 264 1 ENGIN 350 4 TOTAL 18 MATH 452 4 PHYSC 262 4 PHYSC 265 1 ENGIN 352 4 GEN ED 5 TOTAL 18 MATH 453 4 PHYSC 263 4 PHYSC 266 1 ENGIN 221 5 GEN ED 3 TOTAL 17 348 "Some engineering departments only require two Chemistry classes. See an adviser. "General Education requirements for Engineers are different. See an adviser. 349 ~~p |
