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Show 74 consent of the department chair and the employer are required. Prerequisite: Credit or concurrent enrollment in MET SI2100. MET 3000. Dynamics of Particles (3) F Concepts of force, mass and acceleration, work and energy, impulse and momentum applied to problems involving particles. Analysis in a simple and logical manner applying a few well-understood, basic principles. Prerequisites: MET SI2100, Math SI1210, Phsx 2210. MET 3100. Dynamics of Rigid Bodies (3) S Moment of inertia of mass; kinematics of rigid bodies; basic concepts of force, mass and acceleration, or work and energy, and of impulse and momentum are applied to problems involving rigid bodies. Lecture plus computer-based laboratory work. Prerequisite: MET 3000. MET 3200. Machine Design I (3) F Beam deflections, columns, singularity functions, theories of failure and machine design problems. Lecture plus laboratory work using mechanical test equipment and computer software. Prerequisite: MET SI2300. MET 3300. Computer Programming Applications of Mechanical Engineering Technology (3) F Applications of computer programming and computer software to problems in mechanical engineering technology. Lecture plus computer-based laboratory work. Prerequisites: TBE TE1700, MET SI2300. MET 3400. Machine Design II (3) S Application of engineering technology fundamentals to machine design. Techniques involved in designing and selecting individual machine parts. Prerequisite: MET 3200. MET 3500. Mechanical Measurements and Instrumentation (3) 5 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. Lecture plus laboratory work in selected topics. Prerequisites: MET 3200, CEET 1850. MET SI3600. Thermodynamics (3) S Basic principles of energy and energy transfer. Properties, gas laws, first and second laws of thermodynamics. Applications of thermodynamic systems. Lecture plus laboratory work in thermodynamics. Prerequisites: Math SU210, Phsx 2210, Chem PS/SIl 110. MET 3890. Cooperative Work Experience (1-3) 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: Credit or concurrent enrollment in MET 3200. MET 4200. Mechanical Design with FEA (2) F Application of engineering technology fundamentals in machine design using Finite Element Analysis. Lecture plus computer-based laboratory work. Prerequisite: MET 3400. MET 4300. Heating, Ventilating 8t Air Conditioning (3) Principles of heating, ventilating and air conditioning of buildings. Refrigeration systems, air and water distribution and solar energy. Indoor thermal environmental control. Co-requisite: MET SI4600. MET SI4400. Fluid Mechanics (3) F The behavior of fluids under static and dynamic conditions is studied and analyzed. Classical problems of fluid mechanics. Applications of fluid mechanics systems. Lecture plus laboratory work in fluid mechanics. Prerequisite: MET SI3600. MET 4500, 4510. Senior Project (2,2) F, S A mechanical engineering technology project will be selected for team participation. Projects will require planning, analysis, design, development, production, testing and documentation. Prerequisite: MET 3400. MET SI4600. Heat Transfer (3) S Fundamental principles of conduction, convection and radiation are studied. Analytical and numerical methods. Applications of heat transfer systems. Lecture plus laboratory work in heat transfer. Prerequisites: MET SI3600, MET SI4400. MET 4800. Individual Research in Mechanical Engineering Technology (1-3) F, 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. MET 4830. Directed Readings (1-3) F, S Directed individual readings in mechanical engineering technology. Topic selected in consultation with instructor. Prerequisite: Permission of instructor. MET 4890. Cooperative Work Experience (1-3) 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: MET 3400 MET 4920. Short Courses, Workshops, Institutes, and Special Programs (1-3) Consult the semester 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. MET 4990. Seminar in Mechanical Engineering Technology (1) S Review for the Engineer in Training (EIT) examination. Prerequisites: MET SI4400, MET 4500. management technology Advisors: Jeff Plant, Coordinator and Asst. Professor; Steven Peterson, Asst. Professor The Parson Construction Management Technology program teaches the processes, procedures and management techniques necessary to function as a "Professional Constructor" as defined by the American Institute of Constructors and the American Council of Construction Education (ACCE). The program is designed to prepare students for immediate professional level employment or further study by developing a cohesive, solid technical foundation bolstered by practical, hands- on experiences, at the same time providing education for lifelong learning in a changing world. The process of learning is emphasized, as well as accumulation of knowledge. The multi- disciplinary curriculum is comprised of courses in the areas of construction science, construction practice, business and management as well as general education. The program has been granted "candidate" status by ACCE. The Construction Management Technology curriculum is a "2+2" design facilitating articulation with programs in architecture, building construction, design graphics, facilities and other construction-related degrees. Students who have obtained associate degrees in appropriate high quality programs are admitted as juniors and can normally complete the baccalaureate degree in two years. There are also provisions to recognize those with significant construction industry experience. Construction Management Technology Bi- 9.1 » Program Prerequisite: Declare a Program of study (see page 19) in CMT » Minor: Not required. » Grade Requirements: A grade of "C" or better in all CMT, Business and Management courses is required (a grade of "C-" is not acceptable) in addition to an overall GPA for all courses of 2.5 or higher. Also refer to the general grade requirements for graduation on page 37. » Credit Hour Requirements: A total of 123 credit hours is required for graduation. A total of 40 upper division credit hours is required (courses numbered 3000 and above). 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 801-626-6305 to schedule an appointment. Admission Requirements Declare your program of study (see page 19). There are no special admission or application requirements for this program. General Education Refer to pages 37-42 for Bachelor of Science requirements. Consult with a program advisor for specific general education guidelines. The following courses required for the Construction Management Technology B.S. degree will also fulfill general education requirements: Comm HU1050 (Oral Communication), Math QL1080 (Math and Statistics), and Phsx PS/SI2010/L (Physical Sciences). Course Requirements for B.S. Degree Construction Management Technology Courses Required (44 credit hours) CMT 1100 Construction Management Orientation (1) CMT 1210 Construction Materials & Methods (3) CMT 2220 Construction Contracts St Specs (3) CMT SI2330 Concrete Technology (3) CMT 2360 Building Codes & Inspection (2) CMT 2640 Architectural Estimating (2) CMT 3115 Construction Cost Estimating (3) CMT 3130 Construction Planning & Scheduling (3) CMT 3210 Construction Management (3) CMT 3260 Electrical Systems (2) CMT 3270 Mechanical Systems (3) CMT 3350 Applied Structures (4) CMT 4120 Project Controls (3) CMT 4150 Construction Equipment & Methods (3) CMT 4550 Construction Safety (2) CMT 4610/20 Senior Project (2/2) or CMT 4890 Cooperative Work Experience (4) Business Course Required (3 credit hours) Acctng 2010 Survey of Accounting I (3) Support Courses Required (17 credit hours) Comm HU1050 Interpersonal Communications (3) Phsx PS/SI2010/L General Physics/Lab (5) Math QL1080 Pre-calculus (5) Geosci PS1540 Environmental Geosciences (3) Geosci 1550 Environmental Geosciences Lab (1) 75 Group 1 Technical Elective Courses (7 credit hours) Select 7 hours from construction science related courses as approved by the CMT program advisor. The following courses are recommended: CMT 1150 Construction Graphics (3) CMT 2340 Construction Surveying (2) MfET SI2410 Quality Assurance & Improvement (3) Group 2 Elective Courses (18 credit hours) Select 18 hours including a minimum of 10 upper division hours from the following recommended courses or other business and management courses as approved by your advisor. Acctng 2020 Survey of Accounting II (3) Econ 2010 Principles of Microeconomics (3) Econ 2020 Principles of Macroeconomics (3) Econ 3400 Labor Economics (3) BusAdm 3000 Small Business Management (3) BusAdm 3200 Legal Environment of Business (3) Mgmt 3010 Organizational Behavior & Management (3) Fin 3200 Financial Management (3) Fin 3400 Real Estate Principles & Practices (3) Mktg 3010 Marketing Concepts & Practices (3) Note: Students desiring a minor in Business Administration should receive approval of their program by the Business Administration Department Chair. Group 3 Elective Courses (9 credit hours) Select a total of 9 hours from the following groups. A minimum of 4 hours of math from the following courses or other math courses approved by your advisor. Math SI1210 Calculus I (4) Calculus II (4) Business Calculus (3) Business Statistics I (3) Business Statistics II (3) Math SI1220 Quant SI2400 Quant SI2600 Quant SI2610 A minimum of 3 hours in computer application courses from the following courses or other computer courses approved by your advisor. TBE 2810 TBE 3000 TBE 3070 TBE 3080 TBE 3090 TBE 3100 FrontPage 2000 (3) Advanced Word Processing (3) Advanced Spreadsheet Applications (1) Advanced Database Applications (1) Electronic Presentations (1) Desktop Publishing (3) Suggested Course Sequence The following suggested course sequence is provided to assist students in planning their schedules. Use this only as a guideline and be sure to consult with an advisor. Freshman Fall Engl ENIOIO TBETE1700 Gen Ed (CA/HU) CMT 1100 CMT 1150 CMT 1210 Total Hours Acctng 2010 Gen Ed (SS) CMT 2360 Phsx 2010/L Engl EN2010 Total Hours Frishmw Spkim, Geosci PS1540/1550 4 Math QL1080 Comm HU1050 CMT 2220 CMT 2640 Total Hours Gen Ed (SS) CMT SI2330 CMT 2340 Group 1 Elective Group 2 Elective Group 3 Elective Total Hours PROFILE ENROLLMENT STUDENT AFFAIRS ACADEMIC INFO DEGREE REQ GENED Mem FYE HNRS BIS LIBSCI INTRD MINORS i Science & CEET CS MFET/MET CMT- CDGT PRENGR AUTOSV/AUTOTC IDT SST TBE Arts & Humanities COMM ENGL FORLNG DANCE MUSIC THEATR ART MBA MPACC/ACCTNG BUSADM FIN LOM MGMT MKTG ECON/QUANT IS&T Education MEDUC CHFAM ATHL/AT HEALTH/NUTRI PE/REC EDUC CLS DENSCI PARAMD HTHSCI HAS/HIM NURSNG RADTEC DMS NUCMED RADTHR RESTHY BOTANY CHEM GEOSCI MATH/MATHED MICRO PHSX ZOOL 5 Behavioral Sciences MCI/CJ ECON GEOGR HIST POLSC PHILO PSYCH SOCLWK GERONT SOCLGY ANTHRO AEROSP MILSCI NAVSCI Weber State University 2001-2002 Catalog Weber State University 2001-2002 Catalog |
