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Show 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 16, 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 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 ENGINEERING TECHNOLOGY MAJOR (Example Only) Course Engineering 1, 2 Engineering 41 Technical Education 3 or Engineering 40 Mathematics 18, 21, 51 Chemistry 24, 25 English 1, 2 Physical Education Psychology 1 Mathematics 52, 53, 54 M. E. T. 66 Economics, 1, 2, 3 Physics 61, 62, 63 Physics 64, 65, 66 English 3 Health Education M. E. T. 70 Physiology 1 Freshman Title A Engineering Drawing 3 Slide Rule Industrial or Engineering Orientation Trig., College Algebra, and Unified Analytic Ind. Engineering Tech. 130, 132, 134 Electronics 141, 142, 143 Ind. Engineering Tech. 142, 144 W Junior Applied Mechanics; Strength of Materials; Hydr. & Pneumatics Fundamentals of Elect. Time and Motion; Plant Planning & Layout S 3 Geometry and Calculus 5 5 5 Principles of Chemistry 5 5 Basic Communications 3 3 Selected 1 1 1 Introduction to Psychology 5 14 16 17 Sophomore Unified Analytical Geom. and Calculus 4 4 4 Physical Metallurgy 3 Principles of Economics 3 3 3 Engineering Physics 4 4 4 Engineering Physics Lab 1 1 1 Basic Communications 3 Personal Health 2 Manufacturing Processes 3 Human Physiology and Anatomy 5 17 17 18 306 307 |
