Technology — Industrial and Manufacturing Engineering Technology functions of production control. Prerequisite: Related Technical Education 117. Three lectures. A (3) 452. Process Analysis—Analysis of product to develop and coordinate a feasible and economical plan of manufacturing. To include the preparation of processing documents and the selection of tooling and equipment needed to carry out the plan. Prerequisites: Manufacturing Engineering Technology 303; Industrial Engineering Technology 342. Four lectures. A (4) 453. Cost Estimating—Designed to train people to make satisfactory cost estimates of various manufacturing processes. Prerequisite: Manufacturing Engineering Technology 452. Three lectures. W (3) 456. Supervision Principles—Understanding of basic company, supervisor and operator objectives and responsibilities, and their relationships to each other; case problem approach. Three lectures. W (3) 457. Production Management—The fundamental areas of methods, work measurement, production planning, inventory control, plant layout, quality control, and production costs arc examined to ascertain their relationship to each other and to make practical application in solving production problems. Prerequisites: Manufacturing Engineering Technology 453. Four lectures. S (4) 458. Value Engineering, Philosophies and Concepts—The reduction or avoidance of costs through value analysis techniques. Prerequisites: Manufacturing Engineering Technology 452. Three lectures. W (3) 465, 466, 467. Manufacturing Planning I, II, III—An integrated approach to the analysis of a specified manufactured product for the purpose of developing the total manufacturing plan from the design phase to the finished product. Prerequisites: Industrial Engineering Technology 332, 334, 342; Manufacturing Engineering Technology 303. Two planning sessions per week. AWS(2) 499. Seminar in Manufacturing—Directed studies in the application of new materials and new processing concepts to manufacturing and study of current production problems. Prerequisite: Consent of instructor. Conferences as needed. S (2) Technology — Pre-Engineering Manufacturing Engineering Technology (Example Only) Freshman Sophomore Courses Credits Mfg. Eng. Tech. 121, 122, 123 15 Pre-Engineering 101, 102, 103 7 Related Tech. Ed. 114, 115. 117 15 Mfg. Eng. Tech. 132 3 English 101, 102 6 Physical Education 3 Health Education 100 2 Courses Credits Chemistry 111, 141 ... 10 Physics 111, 112, 11.3 12 Ind. Eng. Tech. 330, 332 10 Mfg. Eng. Tech. 236, 240 7 Elect. Eng. Tech. 341 5 Welding 261 3 Tech. Ed. 118 5 51 Junior Senior Courses Credits Courses 52 Credits Mfg. Eng. Tech. 244, 245, 246 8 Ind. Eng. Tech. 331, 334, 342 9 Elect. Eng. Tech. 343 3 Mfg. Eng. Tech. 301, 302, 303 9 Economics 101, 102 8 Communication 326 3 Welding 260 3 Area Requirements 9 52 Mfg. Eng. Tech. 452, 453, 457 11 Mfg. Eng. Tech. 450, 451, 499 9 Mfg. Eng. Tech. 465, 466, 467 6 Mfg. Eng. Tech. 456 3 Area Requirements 15 "Electives 7 51 "Elective courses should be selected in conference with your advisor. DEPARTMENT OF PRE-ENGINEERING W. Lee Dickson, Chairman Associate Professors, G. M. Alexander, Newel B. Cutler, W. Lee Dickson; Instructor, David M. Tormey. 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 284 285