Technology — Industrial and Manufacturing Engineering Technology complex numbers. Prerequisite: Related Technical Education 113 or equivalent. Five lectures. AWS (5) 115. Applied Trigonometry—Angles, natural functions and their graphs, identities, functions of two angles and related formulas solutions of triangles, complex numbers. Prerequisite: Related Technical Education 114 or equivalent. Five lectures. AWS (5) 117. Applied Algebra and Analytic Geometry—Matrices, determinants of higher order, inequalities, plane analytic geometry, statistics and progressions. Prerequisite: Related Technical Education 115 or equivalent. Five lectures. A W S (5) 118. Applied Calculus—Limits, derivations, indefinite integrals, definite integrals, methods of integration, and applications. Prerequisite: Related Technical Education 117 or equivalent. Five lectures. A W S (5) 119. Applied Calculus, Continued—Infinite series, multiple integrals, partial derivatives, differential equations, and applications. Prerequisites: Related Technical Education 118 or equivalent. Three lectures. A W S (3) DEPARTMENT OF INDUSTRIAL AND MANUFACTURING ENGINEERING TECHNOLOGY A. Kent Randall, Chairman Professors, Dale S. Cowgill, A. Kent Randall; Associate Professors, Ross W. Eskelson, Clifton B. Larson, Robert Wallentine; Assistant Professors, C. Austin Seager, Robert G. Stein, C. Brent Wallis; Instructors, W. Ross Shelton, David M. Tormey; Joseph T. Seeley. Manufacturing and associated industries encompass many occupations which require skills and knowledge provided in the Architectural Technology, Engineering Graphics, Industrial Engineering Technology, Machine Tool, Manufacturing Technology, Manufacturing Engineering Technology and Welding programs. Individuals can be trained for such occupations as draftsmen, machine operators, inspectors and time and motion technicians in one year in our present programs. With two years of training, individuals can be qualified as civil draftsmen, tool design draftsmen, architectural technicians, tool and Technology — Engineering Graphics die makers, manufacturing process technicians, and quality control technicians. Numerical control programmers, tool designers, cost estimators, production controllers, and inventory control technicians can be properly trained within our programs in three years. The four year programs can lead to bachelor of science degrees for Industrial and Manufacturing Engineering Technologists. More complete descriptions of the fields of study and example programs for those without prior training and experience are included in the specific program descriptions. ENGINEERING GRAPHICS Engineering Graphics offers an associate of applied science degree upon completion of a course of study tailored to the needs and preferences of the student and in accordance with the graduation requirements of the college. Certificates of proficiency will be issued on attainment of agreed upon skill levels. Tool Design, Electro-Mechanical Drafting, Civil Drafting, and Architectural Technology are proposed specializations that will adequately prepare a participant for employment as a draftsman or technician. Planning Emphasis Program—Engineering Graphics is one of eight departments participating in the Urban and Regional Planning Emphasis Program. This program is designed to prepare students for employment in planning on the city, county, state, regional and national level. Engineering Graphics 135, Graphics for Engineers, may be used to complete the fifteen hours of interdisciplinary courses required for a Planning Emphasis. A complete description of this program is found under the Department of Geology and Geography. Students, majoring in Engineering, who are interested in Planning should consult with their adviser. COURSES OF INSTRUCTION 101. Blueprint Reading and Sketching—Principles of blueprint reading and sketching as applied to industry. Two 3-hour laboratories a week. AWS (2) 110. Mechanical Drawing (Elementary)—Care and use of drawing instruments, practices in proper lettering, conventional lines and symbols, geometrical constructions and beginning orthographic projections. Individual instruction. Two 3-hour laboratories a week. (2) Evening 358 359