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Course Criteria
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5.00 Credits
3 (3 + 0) Prerequisite: PHY 2020 or PHY 2331 and MTH 1510 (or equivalent) with grades of "C" or betterThe fundamental laws of thermodynamics are studied. Basic concepts of energy, the thermodynamic system, dimensions and units, and the ideal-gas equation of state are studied. The course also covers closed and open systems, heat engines as well as reversible and irreversible processes.
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5.00 Credits
2 (2 + 0) Prerequisite: PHY 2020 or PHY 2331 and MTH 1510 (or equivalent) with grades of "C" or betterThe three basic mechanisms of heat transmission are studied. Conduction, convection (free and forced), plus radiant transmission are treated for both steady-state and transient conditions. The transient study is aided by computer solutions.
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5.00 Credits
1 (0 + 2) Prerequisite: MET 3120 with grade of "C" or better (concurrent enrollment preferred)The laboratory course provides experimental results for various conduction and convection tests. The student selects and installs thermocouples, calibrates equipment, records transient and steady-state data, analyzes results, compares data to theoretical predictions and reports findings.
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5.00 Credits
3 (3 + 0) Prerequisite: CET 2150 and MTH 2410 with grades of "C" or better; or permission of instructorThis course covers the principles of dynamics: Students learn about kinematics which is the study of the geometry of motion of a body without reference to the forces that cause the resulting motion. The course also covers kinetics which is the study of the relation existing between the forces acting on the body, the mass of the body, and the motion of the body.
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5.00 Credits
3 (3 + 0) Prerequisite: MET 3160 with a grade of "C" or better; or permission of instructorThis course covers physical properties of fluids, hydrostatics, kinematics, energy considerations, momentum, and incompressible flow in pipes. Compressible fluid flow will also be studied.
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5.00 Credits
3 (2 + 2) Prerequisite: MET 3110 and MET 3180 with grades of "C" or betterThis course covers the study of compressible internal flow with application to industrial, pneumatic systems. The study of isentropic, isothermal and flow of real gases is applied for nozzles, venturis, Pitot-tubes, and pipe systems. Flow loss calculations are made using the Darcy-Weisbach and Fanno Line techniques. Compressors, valves, ejectors, diffusers, and pneumatic components are studied to design and cost air service systems. The laboratory work supports lectures using various gas flow systems, including an instrumented fan test rig.
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5.00 Credits
4 (4 + 0) Prerequisite: MTH 1120 or MTH 1400, either MET 1000 or CET 1100, all with a grade of "C" or betterThis is an introductory course in computer-aided engineering (CAE). The use of the computer as a tool for the solution of engineering technology problems is demonstrated. Included are high-level languages, spreadsheet techniques, and computer modeling.
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5.00 Credits
3 (2 + 2) Prerequisite: MET 2200 and MTH 1120 with grades of "C" or betterThe course deals with production tooling requirements and tooling cost estimates. Design of tooling for turret lathes, automatic screw machines, multiple spindle lathes, and production milling machines is treated.
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5.00 Credits
3 (3 + 0) Prerequisite: MET 1310 and MET 3000 with grades of "C" or betterThis course focuses on statistical process control with emphasis on process capability, troubleshooting, analysis of variance and hypothesis testing.
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5.00 Credits
3 (2 + 2) Prerequisite: MET 3110 and MTH 2410 with grades of "C" or betterThis, the second course in thermodynamics, deals with the consequence of the Second Law. The TDS equations are studied, as are entropy and efficiencies of some heat power engines. Standard gas and vapor cycles are investigated. The laboratory work includes various calorimetry, gravimetric and volumetric analyses, nozzles and internal combustion engine tests.
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