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Course Criteria
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisite: PHY 200 Study of the basic principles of thermodynamics and their applications to engineering processes and cycles. Topics include study of the first and second laws and the application of these laws to thermodynamic systems, with emphasis on power and refrigeration cycles.
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1.00 Credits
CLASS HOURS: 1, CREDIT: 2 Prerequisites: EPO 215, ME 220 Corequisite: ME 329L Principles of manufacturing processes in the areas of metal removal, forming, joining, casting, and fundamentals of numerical control. Study of manufacturing includes design aspects, material considerations, review of latest methods, and numerical controlled machining utilizing computer graphics and solid modeling. (Pro/Engineer and Pro/Manufacturing.)
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3.00 Credits
LAB HOURS: 3 Corequisite:?ME 329
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: ME 232, MTH 212 Analysis of particles and rigid bodies in motion using vector methods, calculus, and analytical geometry. Topics include kinematic analysis of motion and relative motion, kinetic analysis of forces and motion, rotation and translation of rigid bodies, work-energy methods, and impulse-momentum methods.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: ME 230, ME 232, MTH 211 Application of stress and strain in design and analysis of simple structural members under load. Stresses and deformations in members with a single load in tension, torsion, shear or bending moment are analyzed, followed by the transformation of stresses and effects of combined loads. The analysis of statically indeterminate structures is also included.
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1.00 Credits
CLASS HOURS: 1, CREDITS: 2 Prerequisites: ME 332, ME 360 Corequisite: ME 339L Principles and applications of materials and science and solid mechanics learned through experimental inquiry. Students will design a series of experimental studies involving material and structural response to loading, including structural failure. The studies will then be conducted and analyzed, with the results reported in both written and oral presentations.
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2.00 Credits
LAB HOURS: 2 Corequisite: ME 339
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: MTH 212, PHY 200 Theory and fundamental principles of incompressible fluid flows. Topics include hydrostatic fluids, continuity, linear momentum, Bernoulli equations for control volumes, dimensional analysis, viscous duct flows, boundary layer flows, centrifugal and axial flow pumps, and pump performance curves and similarity rules.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisite: ME 240 Application of principles of thermodynamics and fluid mechanics to selection and performance evaluation of air conditioning and refrigeration systems. Topics include vapor-compression cycle performance, load calculations, refrigeration system component characteristics, refrigerant characteristics, environmental responsibilities, psychometrics and basic conditioning processes, and system balancing of refrigeration systems. Absorption refrigeration systems and cooling tower performance are also studied.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: ME 240, ME 340, MTH 215 Study of the fundamental mechanisms of the transfer of energy in the form of heat, including conduction, convection, and radiation. Topics include steady and transient conduction, free and forced convection, radiation, and heat exchanger analysis and design.
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