Technology — Electronic Engineering Technology and operation of equipment used in air-ground communications. (Offered alternate years.) Su (2) 470. Telemetric Principles—Methods and principles used in various types of systems to transfer measurements by wire and wireless. (Offered alternate years.) Three lectures. Su (3) 471. Telemetric Laboratory—Experimental Loops established for the student to become acquainted with telemetric operation. (Offered alternate years.) Two laboratories. Su (2) 479. Senior Problems—Special problems covering scope of study during the previous four years. Two lectures. S (2) 480. Senior Project—A course designed to give the senior student an opportunity to further his knowledge in an area of electronics or an area related to electronics by choosing and developing a special project or study under the supervision of one or more of the department faculty. Credit to be determined at the time of registration. Prerequisite: Completion of Junior year electronics course work or by special permission from the department chairman. A W S (1-3) 486. Electronic Equipment Maintenance—Adjustment and maintenance of electronic equipment such as test equipment and electronic equipment used in industrial applications. Supervised study and shop practice. Prerequisite: Electronic Technology 240 and 241 or equivalent. W S (3) Electronic Engineering Technology (Example Only) Junior Year Senior Year Courses Credits Courses Credits Electronic Engineering Tech. 320, 321, 310, 311, 324, 325, 355, 356 21 Chemistry 101 : 5 Data Processing 260 3 Engineering Graphics 251 3 Area Requirements 16 48 Electronic Engineering Tech. 422, 423, 464, 465, 450, 451, 479 17 Industrial Eng. Tech. 330, 332 10 "Electives 4 Area Requirements 17 48 "The student is urged to elect course work that will support and strengthen his selected profession or career. Additional Electronic Engineering Technology, Education, Business, Mathematics, or Industrial or Manufacturing Engineering Technology course work is suggested hut should appear as part of his approved course of study. Technology — Industrial and Manufacturing Engineering Technology 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, Kent E. Robertson, C. Austin Seager; Instructor Specialist, Joseph T. Seeley. INDUSTRIAL ENGINEERING TECHNOLOGY The field of Industrial Engineering Technology is concerned with the design, improvement and installation of integrated systems of men, materials and equipment. It draws upon specialized knowledge and skill in the mathematical, physical and social sciences together with the principles and methods of engineering analysis and design to specify, predict, and evaluate the results to be obtained from such systems. The curriculum provides the knowledge and experience necessary to perform effectively the following functions: select and improve processes and methods; develop wage incentive systems; work measurement; select tools and equipment; design facilities—layout of machines and equipment; materials handling; management control systems; data processing and computer applications; operations research; develop new products and applications. Department Majors—In addition to the general requirements lor graduation from Weber State College, the following courses must be passed with a "C" or better to qualify for the bachelor of science degree in Industrial Engineering Technology. Data Processing 260; Electronics Engineering Technology 341, 343; Pre-Engineering 101, 102, 103; Industrial Engineering Technology 330, 331, 332, 334, 342, 344, 360, 471, 472; Management 301; Manufacturing Engineering Technology 121, 236, 240, 244, 245, 450, 451, 452, 453, 456, 457, 499; Welding 365. Courses of Instruction 330. Applied Mechanics-Identification of the principles of classical mechanics as used in industrial equipment and in struc tures. Development of analytical skills and techniques necessary for preliminary design, selection and maintenance of industrial equipment and structures which utilize basic mechanical principles. To be taken concurrently with Physics III. Prerequisites: 278 279