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Course Criteria
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3.00 Credits
(Terms and hours to be arranged with approval of the curriculum coordinator.) An approved work program related to the student's field of specialization for a continuous three-month period. The employer and the type, level, and difficulty of the particular job must be approved prior to the employment period. A written comprehensive report must be submitted during the following term of residence.
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3.00 Credits
(Hours to be arranged each term.)
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3.00 Credits
(Hours to be arranged each term.)
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3.00 Credits
(3-0-3) An introductory course on the fundamentals of aerodynamics. Includes a review of the behavior of fluids in motion, definition of the important parameters in aerodynamic behavior, and study of flow about simple aerodynamic shapes. Emphasis will be placed on low-speed aerodynamics. Prerequisites: ENGR 355, MECH 318.
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3.00 Credits
(2-3-3) This course involves using material from prior course work in individual student projects. Prerequisites: MECH 315, MECH 318, MET 275. Pre or corequisite: MECH 316.
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3.00 Credits
(2-3-3) Fluid Kinematics, differential analysis, similitude and modeling, and compressible flow. Computational fluid dynamics is introduced. Prerequisites: ENGR 355, MATH 321, MECH 318.
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3.00 Credits
(2-3-3) An introductory course on the experimental techniques used in wind tunnel testing of aerodynamic shapes. Includes operating characteristics of wind tunnels, the characteristics of and use of models and model instrumentation, and the development of analytical techniques for reduction of wind tunnel data. Prerequisites: MECH 318, MECH 363.
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3.00 Credits
(2-3-3) Application of laws and principles of thermodynamics to performance testing of heat engines. Teaches measurement of power, determination of efficiency, preparation of heat balances, analysis of combustion products, and preparation of engineering reports. Prerequisites: MECH 313, MECH 363.
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3.00 Credits
(2-3-3) Heating, ventilating, and air conditioning. Application of laws and principles of thermodynamics to analysis, design, and control of mechanicallycontrolled environments for human comfort, animal health, and food preservation. Teaches computation of heating and cooling loads, humidity control, heating, and refrigeration. Prerequisite: MECH 323.
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3.00 Credits
(2-3-3) An introduction to control systems. Both classic control theory and programmable logic controllers are considered. Topics include block diagrams, mathematical models, transfer functions, LaPlace transforms, frequency responses along with control components and PLC programming. Prerequisites: EE 223 or MECH 363, ENGR 212, ENGR 266, MATH 321, MECH 318.
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