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Course Criteria
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3.00 Credits
Fall. An introduction to the science of energy. The fundamentals encountered in chemistry and physics are reinforced, and application of these fundamentals is made to practical engineering design. New material involving the laws of thermodynamics is introduced, and a wide variety of applications are made. Topics include the energy analysis of closed systems and control volumes, power generation and refrigeration cycles, and compressible flow. Prerequisite: MENG 226.
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3.00 Credits
Theories and applications of heat and mass transport phenomena, convection, conduction, and radiation heat transfer are explored with design emphasis and exposure to finite element methods. Analogies and contrasts withmass transport are explored. Prerequisite: MENG 320.
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3.00 Credits
Fall. An introduction that emphasizes fundamental concepts and problem-solving techniques. Areas of emphasis include fluid properties, fluid statics, fluid kinematics, control volume analysis, differential analysis, dimensional analysis, and basic internal and external flows. Other topics include pipe flow, lift and drag, Navier-Stokes equations, turbo-machinery, open-channel flow, compressible flow, and computational fluid dynamics. Prerequisite: MENG 226.
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3.00 Credits
Spring. A continuation ofMENG 320. Topics covered include availability and reversibility, power and refrigeration cycles, mixtures and solutions, chemical reactions, Maxwell's equations, and flow through nozzles, diffuser and bladed passages. Prerequisite: MENG 320.
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3.00 Credits
Fall. Dynamic modeling and analysis of single and multiple degree-offreedomand continuous structural systems usingNewtonian and Lagrangian techniques. Prerequisites:MENG 226 and MATH 351.
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2.00 Credits
Spring. A laboratory course focusing on experimental design and evaluation of complete mechanical engineering systems. Emphasis is on evaluating system performance and improving student written and oral communication skills. One hour lecture/three laboratory hours per week. Prerequisites: ENGR 360,MENG 320,MENG 340, and corequisiteMENG 321. Fee: See course fee schedule.
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3.00 Credits
Spring. Covering material properties, fabrication techniques, basic structure mechanics, sensing and actuation principles, circuit and system issues, packaging, calibration, and testing.
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3.00 Credits
Spring. Introduction to the process of design. Various machine components are discussed. Issues in stress analysis, failure, safety and reliability are covered. The analyses include a variety of case studies used to teach the problem solving techniques necessary for success in the design of machines and other engineering systems. Prerequisites:MENG 130 and 226. Fee: See course fee schedule.
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3.00 Credits
Spring odd years. Analysis of tribological aspects of machine components, including friction, lubrication and wear. Prerequisites: MENG 280 and MENG 340.
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3.00 Credits
Spring of even years. Kinematic and Newtonian dynamic analysis and synthesis of machine elements including linkages, cams and gears. Balancing of rotating and reciprocating systems. Prerequisites: CENG 170 and MENG 226.
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