Department of Industrial Engineering Technology Associate Professors, Clifton B. Larson, Head; A. Kent Randall; Assistant Professors David S. Gailey, Robert E. Wallentine. The Industrial Engineering Technology program prepares the student for employment with manufacturing firms, in work related to planning, production, sales and management. The program is intended for students who like engineering but have talents for planning, management and sales rather than professional engineering. Emphasis is placed on planning the use of equipment rather than designing the equipment itself, on the production rate and quality of the product rather than design. Courses of Instruction Students wishing to major in Industrial Engineering Technology may complete the lower division requirements by completing the pre-engineering curriculum offered by the Division of Mathematics and Physical Science. Lower division courses for this curriculum are selected from other divisions of the college and are not listed here. Students should study the suggested curriculum which follows to determine the specific courses, titles, and descriptions. 60. Engineering Technology—Reliability—Principles of design, control and statistical demonstrations. Three lectures. (3). Staff 130. Applied Mechanics—Fundamental principles of mechanics, barial forces, simple machine friction, centroids, kinematics, work and energy. Prerequisites: Tech. Ed 16, Physics 51, 54. Three lectures. A (3). Staff 132. Strength of Material—Statics and strength of materials, forces, stresses and deformations, beams, columns, rivets and welds, torsional stresses and horsepower. Prerequisites: Tech. Ed 17, Physics 51, 54. Three lectures. W (3). Staff 134. Applied Hydraulics and Pneumatics—Principles of flued mechanics as they apply to hydraulic and pneumatic design. Designing systems for liquids and gases. Prerequisites: Tech. Ed 16, Physics 53, 56. S (3). Staff 142. Time and Motion Study—Motion analysis and use of process, operation, and multiple activity charts; fundamentals of time study with instructions in time study equipment, calculations, leveling and allowances; time study formulas. Prerequisite: Tech. Ed 15. W (3). Staff 282 144. Plant Planning and Layout—Arrangement and layout of equipment and processes in an industrial plant for the most economic production. Prerequisites: Tech. Ed. 15. S (2). Staff 160. Reliability—Principles and practices of management, design, control, and statistical demonstration. Prerequisite: Math 21 or Tech. Ed. 15. Three lectures. (3). Staff 180. Mechanical Vibrations—Vibration analysis, balancing, vibration detection. Two lectures. S (2). Staff 181. Kinematics—Applied analysis of displacement, velocity and acceleration in mechanisms by graphical and analytical methods; velocity and acceleration polygons and diagrams; kinematic design of cams, belts, gearing, gear trains and miscellaneous mechanisms. Three lectures. W (3). Staff 182. Thermodynamic Systems—Application of the laws, concepts, and procedures of thermodynamics, heat transfer, and gas dynamics to turbo-machinery and propulsion combustion, gas and vapor turbine cycles, expanders and compressors, and other apparatus. Both analytical and experimental approaches. Three lectures. S (3). Staff INDUSTRIAL ENGINEERING TECHNOLOGY MAJOR (Example Only) Freshman Course Engineering 1, 2 Industrial Drafting 51 Engineering 41 Technical Education 3 or Engineering 40 Mathematics 18, 21, 51 Chemistry 24, 25 Mfg. Eng. Tech. 21 Mfg. Eng. Tech. 66 English 1, 2 Physical Education Health Education 1 Title A Engineering Drawing 2 Descriptive Geometry Slide Rule Industrial or Engineering Orientation Trig., College Alegbra, and Unified Analytic Geom. and Calculus 5 Principles of Chemistry 5 Production Processes 5 Physical Metallurgy Basic Communications Selected 1 Personal Health W 2 5 5 S 18 18 . 17 Mathematics 52, 53, 54 Sophomore Unified Analytical Geom. and Calculus 283