Mechanical Engineering Technology Design Graphics Technology General Information MECHANICAL ENGINEERING TECHNOLOGY COURSES - MET 123. Introduction to Mechanical Engineering Technology (2) W Introductory course for students planning to major in mechanical engineering technology. The experimental and analytical tools used in engineering technology fundamentals of mechanical design and problem solving; explanation of the mechanical engineering technology curriculum and its place in the occupational spectrum. 189. Cooperative Work Experience (1-4) Provides academic credit for on-the-job experience. Grade and amount of credit will be determined by the department. Prior consent of the department chair and the employer are required. Prerequisite: DG 160 and Math 106. 230. Statics (5) A, S A study of the forces associated with rigid bodies in equilibrium. Development of problem solving skills. Prerequisite: credit or concurrent enrollment in Math 211. Credit or concurrent enrollment in Phsx PS261 recommended. 236. Materials and Processes (5) S Survey of industrially important materials, the principles of material behavior, and the processes used to change material shape and condition for industrial use. 263. Applied Physics for Manufacturing (3) A Application of the principles of heat, sound, light and nuclear physics in industrial equipment and manufacturing processes. Development of analytical skills and techniques. Prerequisites: Physics 261/264, 262/265. Corequisite: MET 263L. 263L. Applied Physics for Manufacturing Lab (1) Laboratory experiments applying the principles of heat, sound, light and nuclear physics to industrial and manufacturing equipment and processes. Corequisite: MET 263. 289. Cooperative Work Experience (1-4) A continuation of MET 189. Prior consent of the department chair and the employer are required. Prerequisites: Math 212. 331. Strength of Materials (5) A, W Relations among forces, stresses, strains and deformations of elastic bodies. Procedures for determining the required dimensions of a member to carry a given load subject to specifications of material, stress and deflection. Prerequisite: MET 230. 332. Machine Design I (3) W Application of engineering technology fundamentals to machine design with emphasis on stress and deflection analysis and techniques involved in designing and selecting individual machine parts. Three one-hour lectures per week. Prerequisite: MET 331. 333. Engineering Technology Materials, Application and Testing (5) A Material selection for resistance to both load and environment design parameters for material selection and various metal and nonmetal systems, corrosion, service failures and mechanical behavior of engineering alloys, and composites at high and low temperatures. 335. Experimental Mechanics (4) 5 Laboratory projects including strain gage technology, modal analysis of structures, and finite element modeling. Prerequisite: MET 332 and Math 212. 336. Computer Programming: Application to Engineering Technology Problems (3) A Application of computing software to problems in engineering technology. Prerequisite: Beas PD170, Comsci 130 or Comsci 160 and MET 331. 338. Machine Design II (3) 5 Application of engineering technology fundamentals to machine design. Techniques involved in designing and selecting individual machine parts. Three one-hour lectures per week. Prerequisite: Credit or concurrent enrollment in MET 332. 389. Cooperative Work Experience (1-4) A continuation of MET 289. Prior consent of the department chair and the employer are required. Prerequisites: MET 230 and Math 212. 429. Thermodynamics (4) A Basic principles of energy and energy transfer. Properties, gas laws, first and second laws of thermodynamics. Applications of thermodynamic systems. Four lectures per week. Prerequisites: Math 212; Phsx 263; Chem PS 111 or PS 121; MET 332. 430. Fluid Mechanics (3) W The behavior of fluids under static and dynamic conditions is studied and analyzed. Classical problems of fluid mechanics. Applications of fluid mechanics systems. Three one-hour lectures per week. Prerequisite: MET 429. Corequisite: MET 430L 430L. Fluid Mechanics Lab (1) W Application of the theory taught in Met 430. One 3-hour lab per week. Corequisite: MET 430. 431. Heat Transfer (4) S Fundamental principles of conduction, convection and radiation are studied. Analytical and numerical methods. Applications of heat transfer systems. Four lectures per week. Prerequisite: MET 429 and 430. 432. Mechanical Measurements & Instrumentation (4) S Principles of temperature, pressure, strain, flow, force, and vibration measurements. Techniques of computerized data acquisition and reduction. Students will learn how to specify instrumentation systems, take data, and interpret the results. Prerequisite: Phsx PS262, 265; EET 181, 182, and MET 332. 453. Engineering Technology Economy and Project Management (3) A Methods and considerations in the economic analysis of engineering technology projects. Preparation for the engineering economy portion of the Engineer-in-Training exam. Introduction to project management methods and software. Prerequisites: Math 107 and Beas PD 170. 461, 462, 463. Senior Projects (1,1,1) A, W, S An engineering technology problem for each program will be selected for team solution. Problems will require analysis, evaluation, design, planning, development, production and testing. Prerequisite: MET 338. Corequisite: MET 453 and corresponding MET 461L, 462L, 463L class. Courses must be taken in order shown. 461L, 462L, 463L. Senior Projects (1,1,1) A, W, S Lab hours to support MET 461, 462, 463 in analysis, evaluation, design, planning, development, production and testing. One two- hour lab per week. Prerequisite: MET 338. Corequisite: MET 453 and corresponding MET 461, 462, 463 class. Courses must be taken in order shown. 471. Kinematics (3) S Analysis of displacement, velocity and acceleration in mechanisms by graphical and analytical methods: kinematic analysis of linkage, cams, gears, gear trains and miscellaneous mechanisms. Three one-hour lectures per week. Prerequisites: DG 244 and MET 230. 473. Dynamics (5) W Concepts of force, mass and acceleration, of work and energy, and of impulse and momentum are applied to problems involving particles and rigid bodies. Analysis in a simple and logical manner applying a few, well understood, basic principles. Prerequisite: MET 230, and Math 212 or Reltec 119. 480. Individual Research in Mechanical Technology (1-4) A, W,S Special individual research and development projects in Mechanical Engineering Technology. Credit and time determined by the student and the faculty project supervisor. Prerequisite: Permission of instructor. 483. Directed Readings (1-4) Prerequisite: Consent of the instructor. 489. Cooperative Work Experience (1-4) A continuation of MET 389. Prior consent of the department chair and the employer are required. Prerequisites: MET 332 and DG261/261L. 492. Short Courses, Workshops, Institutes, and Special Programs (1-6) Consult the quarterly class schedule for the current offering under this number. The specific title with the credit authorized for the particular offering will appear on the student transcript. 499. Seminar in Mechanical Engineering Technology (2) 5 Directed studies and group discussions about the application of new design techniques, processes and materials in the mechanical field. An examination of new technological concepts, and their effect on our society. Prerequisite: MET 461 and 472. DESIGN GRAPHICS TECHNOLOGY Adviser: Keith Allred Description The Design and Graphics Technology program is responsible for providing the skills and technical knowledge to students entering the design/drafting occupations. Drafting technicians prepare working drawings from design layouts, sketches and verbal instruction using conventional methods as well as computer aided drafting (CAD) systems. Drafters do tracing work, drawing changes, single detail drawings, full project drawings and checking. They work in mechanical, electronics, architectural, structural and civil fields. They use calculators, computers, handbooks and other engineering reference materials while applying geometry, algebra and trigonometry. Drafting jobs are available with cities, counties, states, the federal government, engineering companies, research and development companies, architects, construction, and fire protection industries. PROGRAM: DESIGN GRAPHICS ASSOCIA TE OF APPLIED SCIENCE DEGREE General Requirements: • A minimum of 93 credit hours of which 67 must be courses in major field. • At least 20 hours from the General Education courses listed in the catalog, including at least one course in each of the four areas: Humanities, Natural Science, Social Science, and Personal Development. • An overall GPA of 2.00 with a C or better in all major courses. Specific Requirements: • Design Graphics courses required (40 credit hours): DG 110/110L (3), 117/117L (3), 120/120L (3), 130/130L (4), 140/140L (2), 160/160L (4), 220/220L (3), 230/230L (4), 244/244L (3), 245 (3), 261/261L (4), 266/266L (4). • Technical courses required (4 credit hours): Mfet 125/ 125L(4). Student Services Interdisc. Programs Applied Science & Technolog' Arts& Humanities Business & Economics Education Health Professions Science Social & Behavioral Sciences 74 75 Continuing Education