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Course Criteria
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2.00 Credits
Prerequisite: MATH 2914, CHEM 2124 or consent. A study of each of the common kinds of nuclear radiation, including the detection and analysis methods and applications to nondestructive assays. Use of computers in analyses. Lecture one hour, laboratory three hours.
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3.00 Credits
Prerequisites: MATH 2914, CHEM 2124, or consent. A study of the protection of individuals and population groups against the harmful effects of ionizing radiation. Included in the study is: (1) radiation detection and measurement, (2) relationships between exposure and biological damage, (3) radiation and the environment, (4) design criteria for processes, equipment, and facilities so that radiation exposure is minimized, and (5) environmental impact of nuclear power plants. Lecture three hours per week.
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1.00 Credits
Prerequisite: Minimum of three hours at the junior level in area of study. Individual or specialized study in advanced area under the direction of a faculty advisor.
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2.00 Credits
(MCEG majors) prerequisite: Senior standing and MCEG 3413. This course serves as the first part of a two course sequence in which the student completes a senior design project. Design methodologies and tools including real world design considerations such as environmental impact, engineering ethics, economics, safety, product costing and liability are introduced. Design for manufacture, project management, scheduling and proposal writing will be covered. Successful completion of this course shall require completion of a proposal for a senior design project being accepted by the faculty design project review process.
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3.00 Credits
Prerequisites: MCEG 3313, MCEG 4403 or consent of instructor. A study of the design and operation of steam-electric power plant components and systems. Fossil and renewable energy plants are emphasized. Lecture three hours.
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2.00 Credits
Prerequisites: MCEG 3313, 4403. Corequisites: MCEG 4433, 4443. Advanced laboratory experiments in heat transfer and thermal systems. Conduction, convection and radiation heat transfer phenomena, power and refrigeration cycle operation, psychrometrics. Lecture one hour, laboratory three hours.
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3.00 Credits
Prerequisites: MCEG 3313 and MCEG 4403. A study of the operating and design principles of internal combustion engines. The course will cover combustion cycles, emissions, and performance analysis and testing. Lecture three hours with lab exercises.
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3.00 Credits
Prerequisites: MCEG 2033 and 3313. A study of statics and dynamics of incompressible fluids. Major topics include the basic fluid flow concepts of continuity, energy and momentum, dimensional analysis, viscosity, laminar and turbulent flows, and flow in pipes. Lecture three hours.
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3.00 Credits
Prerequisites: ELEG 2103, MCEG(ELEG)3003, and MCEG 3013. Introduction to approximate methods using finite elements. Development of the finite element method using variational formulations. Applications include machine design, mechanical vibrations, heat transfer, fluid flow and electromagnetics.
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3.00 Credits
Prerequisite: MCEG 3413 and MATH 3153. Design and analysis of specific machine components including gears, clutches, springs, and bearings. Lecture three hours.
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