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Course Criteria
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3.00 Credits
Description: Prerequisites: Mathematics 250B and EGME 333. Principles of heat transfer and their applications: introduction to conductive, convective and radiation heat transfer; one-dimensional heat conduction; concepts of multi-dimensional conduction; convective heat transfer in conduits and external surfaces; heat exchangers and thermal system design. Units: 3
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3.00 Credits
Description: Prerequisite: approved study plan. Basic concepts of integral and matrix formulation of boundary value problems. One dimensional finite element formulation of heat transfer, truss beam and vibration problems. Applications of commercial finite element programs. Selection criteria for code, element and hardware. CAD system interfaces. Units: 3
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3.00 Credits
Description: Prerequisites: EGGN 205 and 308, and EGCE 302. Mechanical control system design and analysis. Pneumatic, hydraulic, electromechanical actuators and devices. Stability criteria, root locus plots, transfer functions, introduction to feedback control and microprocessor applications. Units: 3
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3.00 Credits
Description: Prerequisites: EGME 322L and 421. Corequisite: EGME 426. Design methodology, CAD/CAE philosophy, optimization, product liability, probability/statistical principles, ASME codes, safety, human factors, material selection, legal aspects of design, professional ethics. Design project to be completed in EGME 419, feasibility study, preliminary design, assembly drawings, interim project report. Oral presentation. (1 hour lecture and 6 hours laboratory) Units: 3
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3.00 Credits
Description: Prerequisites: EGGN 205 and 308, and EGME 407. Computer visualization of 2-D/3-D temperature fields. Steady and unsteady conduction heat transfer. Incompressible free and forced convective boundary layer flows. Multiple surface radiation analysis. Boiling and condensation. Emphasis on design aspects of computational heat transfer and use of CFD codes. Units: 3
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3.00 Credits
Description: Prerequisites: EGCE 201, EGME 304, 331, and 333. Principles of rocket propulsion systems. Single and multi-stage rockets. Theory and application of orbital mechanics. Space flight maneuvers. Boosting a satellite into orbit. Spacecraft guidance and control. Trajectories to Moon and Mars. Units: 3
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2.00 Credits
Description: Prerequisite: EGME 414. Completion of the design project initiated in EGME 414. Construction of prototype, model or components. Testing of the proposed design, and preparation of a final design report. Teamwork and communications skills are emphasized. Oral presentation is required. (6 hours laboratory) Units: 2
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3.00 Credits
Description: Prerequisites: EGCE 301 or EGME 331, and 335. Design and application of machine components such as brakes, clutches, gears, springs, fasteners, lubrication of machine elements, bearings, gaskets, seals, "O" rings, methods for study of impact, dynamic loading and fatigue; comprehensive treatment of failure, safety and reliability.Units: 3
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3.00 Credits
Description: Prerequisite: EGME 322L or equivalent. Modeling, assembly and design documentation using Pro/ENGINEER. Design of mechanical components and assemblies using Advanced Pro/ENGINEER features such as blends, drafts, user defined features, relations, family tables and assembly management. Collaborative design project, utilizing online resources. May be repeated for one credit. Units: 3
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3.00 Credits
Description: Prerequisite: EGME 306A or equivalent. Graphical programming; design and development of virtual instruments using LabVIEW programming environment; building applications for data acquisition, measurement, testing, and control of engineering systems; collaborative term project. (2 hours discussion, 3 hours laboratory) Units: 3
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