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Show Manufacturing Engineering Tech Manufacturing Engineering Tech General Information 461L. Antenna Fundamentals Lab (1) A, S Laboratory class to support EET 461. Design, model, and construct antennas and transmission lines. One two-hour lab per week. Corequisite: EET 461. 462. Personal Computer Assembly Language (3) A, S An introduction to assembly language programming of the personal computer. Design hardware and software interfaces for personal computers. Three one-hour lectures per week. Prerequisites: EET 231, 232 and Math 212. Corequisite: EET462L. 462L. Personal Computer Assembly Language Lab (1) A, S Laboratory class to support EET 462. Design, program, and construct projects that interface with a personal computer. One two-hour lab per week. Corequisite: EET 461. 481. Special Topics (1-4) A, S A one-time special study course designed to introduce a topic that is not covered in the EET program. One to four one-hour lectures per week. Prerequisites: EET 231, 232 and 233. 481L. Special Topics Lab (1-4) A, S Laboratory class to support EET 481. Design, model, and construct circuits to support the assigned topic. Maximum of 4 credits for EET 481 and 481L. One to four two-hour labs per week. Corequisite: EET 481. 489. Cooperative Work Experience (1-4) A, W, S The student will receive credit for approved electronics industrial experience. Maximum credits can be counted as electives for EET majors. May be repeated. Ten hours of work each week is equivalent to one credit hour. Prerequisites: EET 231, 232 and 233. 492. Short Courses, Workshops, and Institutes (1-4) Consult the quarterly class schedule for the current offering under this number. The specific title and credit authorized will appear on the student transcript. 493. Directed Studies (1-4) A, W, S The student will receive credit for approved studies in an area not covered in the EET program. A maximum of four credits can be counted as electives for EET majors. Prerequisites: EET 231, 232 and 233. DEPARTMENT OF MANUFACTURING ENGINEERING TECHNOLOGY Chair: Larry Leavitt Location: Engineering Technology, Room 214 Telephone Contact: LaDon Swaner 626-6305 Professors: Ross W. Eskelson, Robert E. Wallentine; Associate Professors: Keith Allred, Larry Leavitt, Roy D. Thornock; Assistant Professors: Mark Crookston, Andrew Drake Kerry Tobin; Instructor Specialists: Robert Milner; Instructor: Kelly Harward Description The Weber State Manufacturing Engineering Technology curriculum is nationally recognized as superior in its field. The curriculum is designed to give the student fundamental knowledge of and basic skill in the planning and selection of the methods of manufacturing, the design of tooling and equipment for manufacturing, the selection and treatment of materials used in manufacturing, and the use of computers in manufacturing. Additional skills and knowledge are acquired in the development of process sheets, equipment specification, manufacturing resource planning and integration with the design and production functions. PROGRAM: MANUFACTURING ENGINEERING TECHNOLOGY BACHELOR DEGREE Accredited by the Technology Accreditation Commission of the Accreditation Board for Engineering and Technology (ABET). General Requirements: • WSU Core Requirements (see index). • General Education Requirements (see index). • ABET accreditation requirements • A minimum of 183 hours are required. Sixty hours must be upper division (courses numbered 300 and above). • A grade of C or better in major and specified General Education support courses. • An overall GPA of 2.00 or C is required. • Application for graduation by March 1st. Specific Requirements: • Manufacturing Engineering Technology courses required (79 credit hours): Mfet 115 (1), 121/121L (4), 122/122L (3), 123/ 123L (3), 231/231L (3), 244/244L (3), 301 (3), 302 (3), 331/ 331L (5), 332 (3), 334/334L (4), 335/335L (3), 336/336L (3), 350 (4), 353 (4), 360/360L (3), 399 (1), 453 (4), 457 (3), 461 (3), 462 (2), 463 (2). • Elective courses (a minimum of 12 credit hours from the following): Mfet 326 (3), 337 (3), 346 (3), 347 (3), 355 (3), 401 (3), 430 (3), 460 (3), 465 (3); EET 385 (3). • Technical courses required (35 credit hours): MET 230 (5), 331 (5); DG 120 (3), 245 (3), 160 (4); EET 181/181L (4), 182/ 182L (4), 183/183L (4); SST 356 (3). • Support courses required (61 credit hours): Math 106 (5), 107 (5), 211 (5), 241 (4); Engl 111 (4), 112 (4), 210 (3); CS 140 (4) or 160 (4) or 220 (4); CIS PD170 (4) or CS PD101 (4); Commun HU102 (3); Econ SS101 (5) or SS274 (5); Phsx NS111/114 (5), 112/115 (5); Chem NS111 (5). PROGRAM: MANUFACTURING ENGINEERING TECHNOLOGY BACHELOR OF INTEGRATED STUDIES General Requirements: • Consult the Interdisciplinary Programs section of the catalog for the general and specific requirements for a BIS degree. • The student must take a minimum of 25 credit hours from at least three (3) different academic departments or recognized disciplines. • The course of study described below shall be approved by the MFET department chair. BIS Options in Production and Inventory Control The Manufacturing Engineering Technology department offers those courses required by the American Production and Inventory Control Society (APICS) for a continuing education certificate in Production and Inventory Control Technology. The courses indicated below with an asterisk prepare one to take the APICS Certification Exam as well as receive the above certificate. In addition, if these courses are taken in conjunction with the other courses listed below or other courses approved by the department chair, all of these may then be used to fill one of the three areas required for a Bachelor of Integrated Studies degree. The courses must be taken for credit and the area of emphasis will be in Production and Inventory Control (not Manufacturing Engineering Technology). Specific Requirements: • Manufacturing Engineering Technology courses required (25 credit hours): MFET 351 (3)*, 405 (3)*, 415 (3)*, 425 (3)*, 435 (3)*, 475 (3)*, 300 (1), 457 (3); SST 356 (3). PROGRAM: MANUFACTURING TECHNOLOGY-ASSOCIATE OF APPLIED SCIENCE DEGREE This curriculum is designed to give the student fundamental knowledge of and basic skill in drafting, machining, inspection and numerical control programming. Students could perform as engineering aides or laboratory assistants. General Requirements: • A minimum of 93 credit hours • A maximum of 67 credit hours in the major discipline • At least 20 hours from the General Education courses listed in the catalog, with at least one course in each of the four areas: Humanities, Natural Science, Social Science, and Personal Development. • A grade of C or better in all major and specified General Education support courses. Specific Requirements: • Manufacturing Engineering Technology courses required (25 credit hours): Mfet 115 (1), 121/121L (4), 122/122L (3), 123/123L (3), 231/231L (3), 244/244L (3), 331/331L (5), 332 (3). • Technical courses required (20 credit hours): MET 230 (5), 331 (5); DG 120 (3), 245 (3), 160 (4). • Support courses required (53 credit hours): Math 106 (5), 107 (5), 211 (5); Engl 111 (4), 112 (4), 210 (3); CIS PD170 (4) or CS PD101 (4); Commun HU102 (3); Chem NS111 (5); Phsx NS 111/114 (5), 112/115(5). MANUFACTURING ENGINEERING TECHNOLOGY COURSES - MFET 115. Pre-Professional Seminar in Manufacturing (1) S An introductory course for students planning to major in Manufacturing Engineering Technology. The experimental and analytical tools used in engineering technology fundamentals of manufacturing design and problem solving; explanation of the Manufacturing Engineering Technology curriculum and its place in the occupational spectrum. Student Services Interdisc. Programs Applied Science & Technology Arts& Humanities Business & Economics Education Health Professions 120. Automotive Machining (2) Exposure will be given to the capabilities of the engine lathe. Vertical and horizontal milling, grinders and various hand tools as they pertain to the automotive industry. The lab will involve demonstrations and hands-on applications. Automotive technology majors only. One lecture and a three hour lab per Science week. 121. Machining & Inspection I (2) A, S Basic machining theory and practice including: drawing and sketch reading, inspection, turning, drilling, and grinding and an introduction to CNC lathes. Two lectures per week. Corequisite: Behavioral Mfet 121L. Sciences 68 69 Continuing Education |
