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Show 66 67 389. 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 112. 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 112; Phsx 163; Chem PS111 or Chem PS121. 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 MET 430. 432. Mechanical Measurements & Instrumentation (5) 5 Principles of temperature, pressure, strain, flow, force, vibration measurements, and strain gage technology. Techniques of computerized data acquisition and reduction. Students will learn how to specify instrumentation system, take data and interpret the results. Prerequisite: Phsx PS162, Phsx 165; EET 181, EET 182, and MET 332. 438. Machine Design III (4) Application of Engineering Technology fundamentals in machine design using Finite Element Analysis. Four one-hour lectures per week. Prerequisite: MET 338. 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 TBE 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) W 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. Prerequisite: 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 112. 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 DG 261/261L. 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) S 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 429 and MET 461. tNAGEMENT TECHNOLOGY Advisor: Keith Allred I he Construction Management Technology program teaches the basic processes, procedures and management techniques necessary for graduates to function effectively in the construction industry. Special emphasis is placed on surveying, blueprint reading, application of construction materials, and job site supervision. Students will be introduced to specification and code requirements pertaining to plumbing, heating, air conditioning, lighting and structural features of various types of buildings. CONSTRUCTION MANAGEMENT TECHNOLOGY ASSOCIATE OF APPLIED SCIENCE DEGREE (A.A.S.) » Grade Requirements: A grade of C or better in all CMT courses (a grade of "C-" is not acceptable) in addition to an overall GPA for all courses of 2.00 or higher. » Credit Hour Requirements: 109 total credit hours are required as listed below. Advisement All Construction Management Technology students are required to meet with a faculty advisor at least annually for course and program advisement. Call the department secretary at 626-6305 to schedule an appointment. Admission Requirements Declare your program of study (refer to page 30 of this catalog). There are no special admission or application requirements for this program. Core and General Education Refer to page 33 of this catalog for Associate of Applied Science requirements. Course Requirements for A.A.S. Degree General Education Courses Required (12 credit hours) TBE PD170 Microcomputer Applications 4 Phsx PS111/114 General Physics w/lab 5 Commun HU105 Intro to Interpersonal Communic 3 Construction Technology Courses Required (50 credit hours) CMT 110 Constrctn Mngmt Orientation 1 CMT 121 Constrctn Materials & Methods I 3 CMT 125 Construction Specifications 3 CMT 131 Constrctn Materials & Methods II 3 CMT 133 Concrete Technology 4 CMT 134 Construction Surveying 3 CMT 138 Construction Cost Estimating 4 CMT 211 Commercial Construction 3 CMT 212 Advanced Cost Estimating 3 CMT 213 Constrctn Planning & Scheduling 3 CMT 214 Quality Assurance & Inspection 3 CMT 215 Structural Components 3 CMT 221 Constrctn Mngmt - Residential 3 CMT 222 Construction Equipment 2 CMT 225 Electrical & Mechanical Systems 3 CMT 231 Constrctn Mngmt - Commercial 3 CMT 288 Internship 3 Support Courses Required (47 credit hours) DG 120/120L Computer Aided Design w/lab 3 DG 130/130L Architectural Drafting w/lab 4 DG 230/230L Advanced Architc Drafting w/lab 4 DG 264 Architectural Estimating 3 Engl 111 College Writing 4 Engl 210 Technical Writing 3 Math 106 Trigonometry 5 Math 107 College Algebra 5 Acctng 201 Elem Financial Accoutning I 3 Phsx 112/115 General Physics w/lab 5 General Education Electives 8 DG 120/120L 3 DG 130/130L 4 Math 106 5 TBEPD170 4 CMT 110 1 Total Hrs. 17 SopHOMQRilllM CMT 288 ; Sophomore Autumn CMT 211 CMT 212 CMT 213 CMT 214 CMT 215 Commun HU105 Total Hrs. 3 3 3 3 3 3 18 Math 107 DG264 Engl 111 CMT 121 CMT 125 Total Hrs. SOPHQMORE ' CMT 221 CMT 222 CMT 225 Gen Ed PhsxPSlll/114 Total Hrs. 5 3 4 3 3 18 Engl 210 CMT 131 CMT 133 CMT 134 CMT 138 Total Hrs. 3 3 4 3 4 17 3 2 3 5 5 18 CMT 231 Acctng 201 Phsx 112/115 DG 230/230L Gen Ed Total Hrs. 3 3 5 4 3 18 CONSTRUCTION MANAGEMENT TECHNOLOGY COURSES - CMT 110. Construction Management Orientation (1) A This course provides an overview of the history of the U.S. construction industry with particular focus on the social, cultural, and economic trends, issues and events that impact and shape the industry and its occupations. The course is also designed to help students develop a clearer focus on their educational and occupational goals. 121. Construction Materials and Methods I (3) W The purpose of this course is to provide students with knowledge of residential building techniques and materials. Students will study specific erection and fabrication techniques, construction materials and their uses. Course also will focus on traditional, as well as prefabricated and or pre-manufactured methods and materials. This course will provide the technical knowledge base for those students who will manage the residential building process. 125. Construction Specifications (3) W Students will gain knowledge in interpretation of technical building specifications and their application to selection and installation of materials, equipment and systems. The Construction Specification Institute Index System (CSI) data base will be used. Students will study building and material specifications as supplied by architects, government agencies, and professional contracting organizations such as the AGC (Association of General Contractors), ABC (Associated Building Contractors), and the NAHB (National Association of Home Builders). 131. Construction Materials and Methods II (3) S Students will acquire knowledge of light commercial building systems, materials, erection and assembly procedures. The focus of this course is to provide students with a technical knowledge base necessary to manage and direct the building process for light commercial building and projects. Building types studied will include pre-engineered steel; tilt-up concrete; composite types consisting of masonry, steel and/or wood, modular systems. Prerequisite: CMT 121. 133. Concrete Technology (4) S The student will obtain knowledge of concrete, its physical and mechanical properties, and the design and control of the concrete mixes. They will also obtain knowledge in the various forming systems used in residential and commercial construction. 134. Construction Surveying (3) S The student will perform basic surveying operations necessary for the location, layout, and construction of a building. Interpretation of plot books, site plans, and topographic maps is included. Prerequisite: Math 106. 138. Construction Cost Estimating (4) 5 The student will be able to assist in the preparation of construction cost estimates. Actual working drawings and specifications are used extensively. Emphasis on quantity takeoff and development of unit cost from given derived data. Prerequisite: DG264. 211. Commercial Construction (3) A The student will acquire the technical background necessary to perform operations in the construction of pre-fabricated single family and multi-family dwellings, agricultural buildings, prefabricated commercial and industrial metal building, and prefabricated concrete buildings. GEN ED & CORE COURSES HONOURS/BIS LIBSCI WS Applied Science & PRENGR CS EET MFET MET CMT- DG AUTOSV AUTOTC IDT SST TBE Arts A Humanities COMMUN ENGL FORLANG DANCE MUSIC THEATR ART MPACC ACCTNG BUSADM LOG FIN MGMT MKTG ECON IS&T MEDUC CHFAM HEALTH NUTRI PE REC EDUC CLS DENSCI PARAMD HTHSCI HAS HIM MRSCI NURSNG RADTEC DMS NUCMED RADTHR RESTHY SCtsttCB SE BOTANY CHEM GEOSCI MATH MATHED MICRO PHSX ZOOL Social & Behavioral Sciences CJ GEOGR HIST POLSC PHILO PSYCH SOCLWK GERONT SOCLGY ANTHRO MILSCI AEROSP NAVSCI Weber State University Weber State University |
