Technology — Industrial and Manufacturing Engineering Technology ment for manufacturing, the selection and treatment of materials used in manufacturing, and in the use of computers in manufacturing. In application of these skills the manufacturing engineer will perform such tasks as process layout, development of process sheets, plant layout, equipment specification and installation, tool design, methods development, value analysis, cost reduction and control, and a certain amount of interplay with product designers. Department Major—In addition to the general requirements, the following courses must be completed with a "C" grade or better to qualify for the Bachelor of Science degree in Manufacturing Engineering Technology: M.E.T. 121, 122, 123, 132, 236, 240, 244, 245, 246, 301, 302, 303, 450, 451, 452, 453, 456, 457, 465, 466, 499; LET. 330, 331, 332, 334, 342; E.E.T. 341, 343; Welding 260, 261. Courses of Instruction 121, 122. Fundamental Machine Tool Processes I, II— Theory and principles of modern machine tool operation including work layout, machine setup, speeds and feeds, and use of precision measuring instruments. Two lectures, three laboratories. A W (5) 123. Machine Tool Performance—Cutting tool geometry, cutting tool materials, coolants, cutting forces, surface finishes and tool efficiency studied for the fundamental machine tool operations. Two lectures, three laboratories. Prerequisites: Manufacturing Engineering Technology 122, Related Technical Education 117. S (5) 132. Inspection Methods—Basic principles and application of surface plate inspection, including care and use of measuring instruments. One lecture and two laboratories. A W (3) 233. Tool and Gage Inspection—Inspection and calibration of inspection tools and gages; basic principles of gaging. Prerequisite: Manufacturing Engineering Technology 132. One lecture, two laboratories. W (3) 236. Physical Metallurgy—Principles of physical properties, composition, constituents, heat treatment, and testing of metals. Prerequisite: Chemistry 111. Three lectures, one laboratory. W (4) Technology — Industrial and Manufacturing Engineering Technology 240. Manufacturing Processes—Fundamental principles and rjrocesses of foundry, die casting, forming, fastening, molding, punch press forming, electrical and mechanical assembly, powder metallurgy and the possibility of their application to industrial products. Emphasis also to be given to current developments such as micro welding, the laser beam and electronic microminiaturization. Three lectures. Prerequisite: Chemistry 111 and 141. S (3) 244. Numerical Control in Manufacturing—N/C advantages, costs, applications, manual programming. Prerequisite: Machining experience, Related Technical Education 115. Two lectures, one laboratory T.B.A. A (3) 245. Numerical Control Programming—Computer Programming of numerically controlled machine tools using the autospot language. Prerequisite: Manufacturing Engineering Technology 244. Two lectures. W S (2) 246. Numerical Control Programming—Computer Programming for numerically controlled machines using AD-APT language. Prerequisite: Manufacturing Engineering Technology 246. Three lectures. W S (3) 247. Numerical Control Programming—Computer programming or numerically controlled machines using APT (Automatic Programmed Tools) language. Prerequisite: Manufacturing Engineering 246, Related Technical Education 117. Three lectures. W S (3) 257. Machine Tool Processes for Technicians—Machining operations and principles in the use of machine tools. One lecture, two laboratories. W S (3) 265. Basic Statistical Quality Control—Statistical fundamentals and their application to control charts and acceptance sampling. Two lectures. A W S (2) 301, 302, 303. Tool Design I, II, Ill-Design of special tools, gages, jigs, fixtures, molds, dies and their application in the production of manufacturers parts. Prerequisite: Manufacturing Engineering Technology 123; Physics 111; Pre-Engineering 103. One lecture, two laboratories. A W S (3) (3) (3) 450. Statistical Quality Control—Application of statistical techniques as applied to quality control charts in manufacturing; statistical approach to acceptance sampling. Prerequisite: Related Technical Education 117. Four lectures. W (4) 308 309