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Show Technology — Industrial Engineering Technology INDUSTRIAL ARTS The Industrial Arts curriculum is designed to offer two years of course work that is transferable to an institution offering a degree in Industrial Arts Education. Students majoring in this department should consult their adviser in planning a program. Industrial Arts (Example Only) Freshman Year Sophomore Year Courses Credits Courses Credits English 101, 102, 103 9 Related Tech. Educ. 114, 115 117 or Math. 105, 106, 107 15 Communication 102 3 Art 110 4 Physical Education 2 Art 101 3 Music 101 3 Eng. Graphics 142, 143, 144.. 12 English 250 3 Machine Tool 127 3 Welding 165 2 Electronics 341, 343 8 Approved Electives 13 Area Requirements 19 48 51 INDUSTRIAL ENGINEERING TECHNOLOGY PROGRAM 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 for 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; Engineering Graphics 135, 144; Industrial Engineering Technology 330, 331, 332, 334, 342, 344, 360, 471, 472; Management Technology — Industrial Engineering Technology 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 structures. 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 111. Prerequisites: Related Technical Education 117 or equivalent. Five 2-hour lecture-laboratories. A (5) 331. Strength of Materials—Relation of physical properties of matter to geometric properties of form, stress and strain, beams, columns, welded and riveted joints, combined loadings. Prerequisites: Industrial Engineering Technology 330. Three lectures. S (3) 332. Applied Sonics, Optics, Nucleonics and Thermodynamics—Identification of the principles of sound, light, modern atomic physics and heat as used in industrial equipment and facilities. Development of analytical skills and techniques necessary for preliminary design, selection and maintenance of industrial equipment which utilize basic principles of sound, light, heat and atomic behavior. To be taken concurrently with Physics 113. Prerequisites: Physics 111 and 112; Industrial Engineering Technology 330 or equivalent. Five 2-hour lecture- laboratories. S (5) 334. Applied Fluid Power—Principles of fluid mechanics and component operation as they apply to the design of hydraulic and pneumatic systems. Prerequisites: Related Technical Education 117; Physics 111 or 261. Three lectures W (3) 342. Methods Engineering—Fundamental principles, procedures and techniques used in the design and measurement of work methods. Prerequisite: Related Technical Education 117. Three lectures. W (3) 344. Plant Planning and Materials Handling—Arrangement and layout of equipment and processes to maximize production. Prerequisite: Related Technical Education 117. Two lectures. S (2) 360. Reliability—Fundamental concepts of reliability statistical solution to practical problems. Prerequisite: Related Technical Education 118. Three lectures. A (3) 366 367 |