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Course Criteria
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3220 , ME 3710 , and ME 3720 . Ideal fuel/air cycles, heat loss, friction, combustion and detonation, carburetion and fuel injection; air flow, normal overall performance, and extreme performance.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3610 . Graphical and analytical synthesis of linkage mechanisms for function generation, motion generation and path generation. Kinetostatic analysis of linkage mechanisms; engine dynamics and balancing; and rigid-body dynamics, time response analysis.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3220 , ME 3710 , and ME 3720 . Introduction to the design of thermofluid devices and systems; general design methodology, modeling, simulation, and optimization; and heat exchangers and prime movers in systems.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3710 and ME 3720 . Fundamentals of numerical methods; steady and unsteady one-dimensional heat conduction; steady and unsteady multi-dimensional heat conduction; fully-developed duct flows; one- and two-dimensional convection heat transfer, and flow through porous media.
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2.00 Credits
Lec. 1. Lab. 2. Credit 2. Prerequisite: ME 3023 , ME 3710 , and ME 3720 . Basic instrumentation and principles of measuring pressure, temperature, fluid velocity, and fluid flow rate; demonstrations, measurements, and evaluations of heat transfer and fluid flow processes.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3050 . Mathematical modeling of physical systems, control algorithms, stability, transient response, and frequency response. ME 3050 may be taken concurrently.
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3.00 Credits
Lec. 2. Lab. 2. Credit 3. Prerequisite: MATH 2120 and PHYS 2110 . Identification and description of noise sources and noise radiation, methods of noise measurement and criteria for noise levels, principles, and techniques of noise control.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: Senior standing in engineering or consent of instructor. Introduce the design, fabrication and performance of MEMS devices. Topics include bulk and surface micromachining, photolithography, sensors, actuation systems, optical MEMS, and microcantilever based systems.
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1.00 - 9.00 Credits
Credit 1 to 9 per semester. Maximum 24. Prerequisite: Approval of department chairman. Investigation of current topics in the student’s area of interest. Because of the impossibility of duplicating the conditions for a special topic, this course may not be repeated for the improvement of a grade.
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3.00 Credits
Lec. 2. Lab. 2. Credit 3. Introduction to the materials and processes used in the manufacturing of metals, ceramics, polymers, and wood products.
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