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Course Criteria
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3.00 Credits
3 hours. Applications of the principles of mechanics and mechanics of materials to machine design. The elements of machines are analyzed in terms of their dynamic behavior. Selection and sizing of machine elements. Students use the finite element technique for the analysis of machines and their components. Prerequisite(s): ENGR 2332, MEEN 2220.
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2.00 Credits
2 hours. Basic concepts of steady and unsteady conduction, elements of radiation, black and gray body radiation, f-factor analysis, combined modes of heat transfer, simple heat exchange devices and systems. Prerequisite(s): MEEN 3110, 3120.
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3.00 Credits
3 hours. Review of basic modeling techniques of the dynamic behavior of mechanical and electrical systems. Linear dynamics. Block diagrams. Feedback and compensation. Computer simulations of steady-state and dynamic behavior. Root locus and frequency response methods. Vibration analysis, control and suppression. Prerequisite(s): MEEN 2130 and MATH 2700.
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3.00 Credits
3 hours. (2;3) Principles of experimentation. Measurement techniques and instruments. Statistical analysis of experimental data and error analysis. Presentation of data and report writing. Students perform a series of experiments in areas of mechanical engineering and undertake a project in which they design an experiment to obtain data. Prerequisite(s): MEEN 2130, MATH 3310.
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2.00 Credits
2 hours (1;3). Continuation of MEEN 3240. Principles of experimentation. Students perform a series of experiments in key areas of mechanical and energy engineering including convection, heat and energy transfer, experimental aerodynamics, thermal cycles, refrigeration, control of thermal systems, and alternative energy technologies (solar energy, fuel cells and wind power). Prerequisite(s): MEEN 3240.
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3.00 Credits
3 hours. Introduction to the physics, systems and methods of energy conversion from non-conventional energy sources, such as solar, geothermal, ocean-thermal, biomass, tidal, hydroelectric, wind and wave energy. Advantages and disadvantages of alternative energy sources and engineering challenges for the harnessing of such forms of energy. Energy storage. Fuel cells. Prerequisite(s): MEEN 3110, 3120 and 3210.
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3.00 Credits
3 hours. Atomic physics and the structure of the atom. Radioactivity. Interactions of neutrons with matter, nuclear cross-sections. Nuclear fuels and fuel elements. Elements of nuclear reactors. Components and operation of nuclear power plants. Notable accidents of nuclear reactors. Breeder reactors. Prerequisite(s): MEEN 3110, 3120 and 3210.
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3.00 Credits
3 hours. (2;3) Advanced treatment of engineering design principles with an emphasis on product and systems design, development and manufacture. Mimics "real world" environment with students working in teams to prepare product specification, develop several concepts, perform detailed design, and construct prototypes subject to engineering, performance and economic constraints. Prerequisite(s): EENG 2610, MEEN 3130, 3210, 3230.
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3.00 Credits
3 hours. (0;9) Continuation of MEEN 4150, in which the student teams complete their product design, development and manufacturing projects. Patterned on a professional workplace environment in which the teams plan and manage their resources while adhering to an overall project schedule. The teams give weekly oral and written progress reports and obtain feedback from the faculty mentor. Prerequisite(s): MEEN 4150.
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3.00 Credits
3 hours. Varying topics in mechanical and energy engineering. Prerequisite(s): consent of instructor. May be repeated for credit as topics vary.
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