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Course Criteria
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3.00 Credits
Fundamentals and applications of conduction, convection, and radiation heat transfer. Analysis of steady-state and transient conduction employing analytical methods and numerical techniques. Simple theory of laminar and turbulent, free and forced convection and use of practical correlations. Basic thermal radiation concepts and applications. Three hours of lecture per week. Prerequisites: MENG 3301 and MENG 3310.
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1.00 - 2.00 Credits
Introduction to materials science including the structure of metals and polymers, the testing of mechanical properties of materials, the relationship between material properties, structure and processing techniques, and the capabilities and limitations of modern manufacturing methods. Two one-hour lectures and one threehour lab per week. Prerequisites: CHEM 1311 and CHEM 1111 or equivalent, ENGR 1200 or completion of a technical writing course, MENG 1201 or completion of a Computer Aided Drafting course.
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1.00 Credits
The goal establishment, planning and concept generation phases of a capstone design project required of all seniors in Mechanical Engineering. Includes the selection of a suitable project, an analysis of the design problem, the planning required to reach the desired goal, and the preparation of a project preliminary design document. Multidisciplinary teams will work on design problems defined in cooperation with representatives from industry when possible. One hour of lecture per week. Prerequisite: ENGR 3314; concurrent registration or completion of MENG 3309, 4311, and 4313.
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1.00 Credits
Independent study in a specific advanced area of mechanical engineering not covered by organized courses. May be repeated as content changes. A maximum of six (6) hours may be used for undergraduate credit on the degree plan if topics vary. Prerequisite: Consent of Instructor and Department Chair.
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2.00 Credits
Independent study in a specific advanced area of mechanical engineering not covered by organized courses. May be repeated as content changes. A maximum of six (6) hours may be used for undergraduate credit on the degree plan if topics vary. Prerequisite: Consent of Instructor and Department Chair.
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3.00 Credits
Kinematics and dynamics of particles and rigid bodies with engineering applications: kinematics, inertia properties, Newton-Euler equations of motion, Lagrange's equations of motion. Three hours of lecture per week. Prerequisites: MENG 2302, MATH 3305, MATH 3203.
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3.00 Credits
Characterization, design selection, and integration of electro-mechanical systems and components including AC and DC motors, generators, servo-motors, stepper motors, controllers, solenoids, hydraulic and pneumatic actuators. Two hours of lecture and one three-hour lab per week. Prerequisites: MENG 3210, MENG 3303, EENG 3304 and MATH 3305.
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3.00 Credits
Characterization, component selection, and integration of thermal systems and components including engines, turbines, compressors, pumps, and heat exchangers. Two hours of lecture and one three-hour lab per week. Prerequisites: MENG 3211, MENG 3304 and MENG 3316.
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3.00 Credits
The senior design project, which was begun in MENG 4115, continues to completion. This major capstone design project builds on previous course work, includes all stages of the design process, and takes into account a variety of realistic constraints, such as manufacturability and sustainability; economic factors; and environmental, safety, and reliability issues. Preparation and presentation of final oral and written reports are required. The design project may be a team effort and may be defined in conjunction with industry. Three three-hour labs per week. Prerequisite: MENG 4115.
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3.00 Credits
Analysis and prediction of the free and forced dynamic behavior and of mechanical systems; first, second, and higher order systems; vibration isolation and absorption; vibration characteristics of rotating machinery. Three hours of lecture per week. Prerequisites: ENGR 2302 and MATH 3305.
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