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Course Criteria
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1.00 Credits
- 1 hr. Introduction to experimental stress analysis; measurement of tensile, compressive, bending and shear stresses; impact and hardness tests; vibration measurements, modal analysis; structural dynamics; Strain Gages. Prerequisite: ME 210, Co-requisite: ME 231
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3.00 Credits
3 hrs. Kinematics and dynamics of machine elements, vector loop approach, numerical methods and graphical techniques, kinematics coefficients, newton formulation, power equation, gears and cams, static and dynamic balancing, critical speeds of shafts. Prerequisites: ME 104 and ME 206. ( consult advisor)
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3.00 Credits
3 hrs. (Lec. 3 hrs.) Fundamentals of fluid mechanics, covered are Newtonian fluids, review of systems of units, the perfect gas equation, incompressible flow, Bernoulli's equation, channel flow, boundary layers, subsonic flow, flow through converging-diverging passages, compressible flow, potential theory, flow through turbo machinery, and relevance to engineering applications. Prerequisite: MTH 227 ( consult advisor ) Co-requisite ME 360L
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1.00 Credits
1 hrs. (Lab. 3 hrs.) Supports projects/practices of ME 360. Co-requisite ME 360.
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3.00 Credits
3 hrs. The study of product/process design, manufacture, and after-market support using the principles of simultaneous engineering. Computer techniques are used in the solution of practical problems. Prerequisites: PHY 106, MTH 126, and computer proficiency (consult advisor)
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1.00 - 3.00 Credits
1 to 3 hrs. This course covers topics of the Mechanical Engineering junior level curricula that incorporate independent research and independent study. It can be taken as individual work within campus facilities and it may include work at off-campus research laboratories. The work requires the supervision and approval of instructor. Course credit/s can be used for substitution of appropriate 300 level junior class or laboratory in the ME program. Prerequisites: Junior standing and consent of instructor.
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3.00 Credits
3 hrs. A study of the fundamentals of aerothermodynamics of propulsion systems, cycle analysis, ideal Bryton air cycle, and real turbojet and turbofan performance. Basic sizing techniques, economy parameters, performance simulation, and prediction will be covered. Introduction to power plant/airframe integration will be introduced. Prerequisites: ME 310 and ME 311 ( consult advisor)
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3.00 Credits
3 hrs. (Lec. 3 hrs.) A review of aerothermodynamics of propulsion systems, characterization of power plant utilization, and operation cycle analysis. On-off design performance, component characterization, component design, component matching, optimization, and introduction to power plant integration systems in a fixed or moving architecture are also covered. Co-requisite: ME 411 ( consult advisor) Co-requisite: ME 412L
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1.00 Credits
1 hrs. (Lab. 3 hr.) Laboratory supporting projects/practices of ME 412. Co-requisite: ME 412
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3.00 Credits
3 hrs. A study of propulsion system requirements for terrestrial and interplanetary flight. Basic principles and performance of both solid and liquid chemical rocket propulsion systems, elements of nuclear rockets, nuclear-electrical power systems, and electrical propulsion systems are addressed. Prerequisites: ME 311 and ME 360 ( Offered - consult advisor)
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