Technology — Manufacturing Engineering ing work layout, machine setup, speeds and feeds, and use oJ precision measuring instruments. Two lectures, three 3-hour laboratories a week. A W (5-5) 123. Machine Tool Performance—Cutting tool geometry cutting tool materials, coolants, cutting forces, surface finishe: and tool efficiency studied for the fundamental machine loo operations. Two lectures and three 3-hour laboratories a week Prerequisites: Manufacturing Engineering Technology 122, Re lated Technical Education 117. S (5) 132. Inspection Methods—Basic principles and applicatioi of surface plate inspection, including care and use of measuring instruments. One lecture and two 3-hour laboratories a week A W (3) 233. Tool and Gage Inspection—Inspection and calibratioi of inspection tools and gages; basic principles of gaging. Pre requisite: Manufacturing Engineering Technology 132. On< lecture and two 3-hour laboratories a week. W (3) 236. Physical Metallurgy—Principles of physical properties composition, constituents, heat treatment, and testing of metals Prerequisite: Chemistry III. Three lectures and one 3-hour lab oratory a week. W (4) 240. Manufacturing Processes—Fundamental principles an< processes of foundry, die casting, forming, fastening, molding punch press forming, electrical and mechanical assembly, powde metallurgy and the possibility of their application to industria products. Emphasis also to be given to current development such as micro welding, the laser beam and electronic micro miniaturization. Three lectures. Prerequisite: Chemistry 1Y. and 141. S (3) 244. Numerical Control in Manufacturing—N/C advantages costs, applications, manual programming. Prerequisite: Machin ing experience, Related Technical Education 115. Two lectures one laboratory T.B.A. A (3) 245. Numerical Control Programming—Computer Program ming of numerically controlled machine tools using the autospo language. Prerequisite: Manufacturing Engineering Technology 244. Two lectures. W S (2) 246. Numerical Control Programming—Computer Program ming for numerically controlled machines using AD-APT Ian guage. Prerequisite: Manufacturing Engineering Technology 245. Three lectures. W S (3) Technology — Manufacturing Engineering 247. Numerical Control Programming—Computer Programming or numerically controlled machines using APT (Automatic Programmed Tools) language. Prerequisites: Manufacturing Engineering Technology 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 and two 3-hour laboratories a week. 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. Prerequisites: Manufacturing Engineering Technology 123; Physics 111; Pre-Engineering 103. One lecture and two 3-hour laboratories a week. 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) 451. Production and Inventory Control—Forecasting; control of materials; the planning, scheduling, routing, dispatching 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 350 351