Technology — Industrial and Manufacturing Engineering Technology Related Technical Education 117 or equivalent. Five lecture- laboratories. A (5) 331. Strength of Materials—Relation of physical properties of matter to geometric properties of form, stress and strain, beams, columns, welded and riveted joints, combined loadings. Prerequisites: Industrial Engineering Technology 330. Three lectures. S (3) 332. Applied Sonics, Optics, Nucleonics and Thermodynamics—Identification of the principles of sound, light, modern atomic physics and heat as used in industrial equipment and facilities. Development of analytical skills and techniques necessary for preliminary design, selection and maintenance of industrial equipment which utilize basic principles of sound, light, heat and atomic behavior. To be taken concurrently with Physics 113. Prerequisites: Physics 111 and 112; Industrial Engineering Technology 330 or equivalent. Five lecture-laboratories. S(5) 334. Applied Fluid Power—Principles of fluid mechanics and component operation as they apply to the design of hydraulic and pneumatic systems. Prerequisites: Related Technical Education 117; Physics 111 or 261. Three lectures. W (3) 342. Methods Engineering—Fundamental principles, procedures and techniques used in the design and measurement of work methods. Prerequisite: Related Technical Education 117. Three lectures. W (3) 344. Plant Planning and Materials Handling—Arrangement and layout of equipment and processes to maximize production. Prerequisite: Related Technical Education 117. Two lectures. S (2) 360. Reliability—Principles and practices of management, design, control, and statistical demonstration. Prerequisite: Related Technical Education 118. Three lectures. A (3) 471. Kinematics—Analysis of displacement, velocity and acceleration in mechanisms by graphical and analytical methods; kinematic design of linkages, cams, gears, gear trains, and miscellaneous mechanisms. Prerequisites: Industrial Engineering Technology 330; Pre-Engineering 103. Three lectures. A (3) 472. Thermodynamic Systems—Application of the laws, concepts, and procedures of thermodynamics, heat transfer, and gas dynamics to the basic engine cycles, including: piston and 280 Technology — Industrial and Manufacturing Engineering Technology turbine engines, expanders and compressors, and other apparatus. Both analytical and experimental approaches. Prerequisites: Related Technical Education 118; Physics 113, 116 or 263, 266: Chemistry 113 or 121. Three lectures. S (3) Industrial Engineering Technology (Example Only) Freshman Courses Credits Math 106, 107, 111 15 Chemistry 121, 122 10 Pre-Engineering 101, 102, 103 7 Physical Education 3 Mfg. Eng. Tech. 121 5 English 101, 102 6 Pre-Engineering 141 1 Health Education 100 2 Area Requirement 3 52 Sophomore Courses Credits Math 112, 113, 114 12 Physics 261, 262, 263 12 Physics 264, 265, 266 3 Mfg. Eng. Tech. 244, 245 5 Economics 101, 102 8 Mfg. Eng. Tech. 236, 240 .... 7 Data Processing 260 3 Area Requirement 3 53 Junior Senior Courses Credits Courses Credits Ind. Eng. Tech. 330, 331, .332 13 Electronics 341, 343 8 Ind. Eng. Tech. 360, 342, 344 8 Ind. Eng. Tech. 334 3 Elective 4 Management 301 3 Communication 326 3 Welding 365 2 Area Requirements 8 52 Mfg. Eng. Tech. 451, 450, 457 11 Mfg. Eng. Tech. 452, 453, 499 9 Ind. Eng. Tech. 471, 472 6 Mfg. Eng. Tech. 456 3 Area Requirements 13 'Electives 9 51 'Elective courses should be selected in conference with your advisor. MANUFACTURING ENGINEERING TECHNOLOGY This curriculum is designed to give the student fundamental comprehension of and basic skill in the planning and selection of the methods of manufacturing, the design of tooling and equipment for manufacturing, the selection and treatment of materials 281