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Course Criteria
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3.00 Credits
3 hours. Principles of steady-state and transient conduction, radiation and convection. Applications to heat exchangers and environmental problems. Prerequisites: MECH 320, 324.
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2.00 Credits
2 hours. Experiments are conducted to illustrate aspects of fluid mechanics, thermodynamics, and heat transfer. Concurrent Registration: MECH 321. Prerequisites: MECH 320, 324, 326; or CEMS 235, 332.
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2.00 Credits
2 hours. Experiments designed to illustrate the principles of mechanics of materials and the methods of experimental mechanics. Prerequisites: MECH 211, MECH 241, MATH 271.
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3.00 Credits
3 hours. Analysis and synthesis of mechanisms. Applications to reciprocating engines, cams, gears, flywheels, balancing, critical speeds, torsional vibration. Prerequisite: MECH 212.
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3.00 Credits
3 hours. Analysis, synthesis and design of machine elements and systems. Development of engineering judgment, stress and failure analysis, design for finite and infinite life. Corrosion, wear, lubrication, springs, and bolts. Prerequisites: (MECH 241 or CEMS 251), MECH 362.
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2.00 - 4.00 Credits
2-4 hours. Special topics in mechanical engineering which vary from year to year. Prerequisite: Permission of instructor. (Sufficient demand)
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3.00 Credits
3 hours. Harmonic oscillator; response of damped linear systems; multi-degree of freedom systems; introduction to vibrations of continuous systems. Prerequisites: MATH 271. 290 Courses of MECH 416 - Mechanical Vibrations II 3 hours. A continuation of MECH 415 focusing on multi-degree of freedom and continuous systems as well as advanced dynamics concepts such as Hamilton's Principle, Variational Calculus, and Lagrange's equation. Computer solution techniques are emphasized via solutions to the eigenvalue problems and finite element method. Prerequisites: MECH 212, 415, MATH 271.
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3.00 Credits
3 hours. Use of the finite element method to solve problems in the areas of stress analysis, heat conduction. and fluid flow. Weighted residual and variational approaches, shape functions, numerical integration, and the patch test. Prerequisites: (CEMS 251 or MECH 241), MATH 271.
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3.00 Credits
3 hours. Three-dimensional element formulation, tensor transformation, non-linear analysis, global-local analysis, multi-physics analysis, micro mechanics. Prerequisite: MECH 417.
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3.00 Credits
3 hours. Advanced topics in fluid mechanics: compressible flows, boundary layers, potential flow, turbomachinery. Prerequisites: MECH 320, 324, MATH 271.
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