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Course Criteria
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1.00 Credits
Tensile, compressive, torsional, bending, impact, hardness, and fatigue tests of materials; use of electrical resistance strain gages; statistical evaluation of data. Prerequisites: MCET 200 Statics; MCET 102 Machines Lab Corequisite: MCET 201 Strength of Materials
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3.00 Credits
An introduction to fundamentals of thermodynamics; including work and heat; first and second laws; properties of gases, gas mixtures; compression and expansion of gas steam tables are covered. Prerequisites: MATH 200 Calculus I
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3.00 Credits
The study of the physical and mechanical properties of various materials as applied to design, processing, and fabrication methods. Corequisite: CHEM 101/103 General Chemistry I and Laboratory
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3.00 Credits
The design of basic elements used in machines, including machine columns, welds, rivets, screws, springs, flexible couplings, belt and chain drives. Design for fatigue strength is included. Prerequisites: MCET 201 Strength of Materials; DRFT 261 Computer Aided Drafting; MATH 200 Calculus I
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3.00 Credits
The study of techniques for the analysis of displacement, velocity, and acceleration of machine elements; emphasis on graphical kinematics of linkages; introduction to cams. Prerequisites: DRFT 261 Computer Aided Drafting; MCET 311 Dynamics
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3.00 Credits
The kinematics and kinetics of particles and rigid bodies; rectilinear and curvilinear motion, work, energy, impulse and momentum. Use of computers for problem solving is included. Prerequisites: MCET 200 Statics; MATH 201 Calculus II; PHYS 116 General College Physics I
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3.00 Credits
Properties of fluids; fluid statics and dynamics, including momentum, energy, Bernoulli's equation, fluid flow in pipes, fluid machinery, and open channels: study of the siphon, pitot tube, venturi meter, orifices, nozzles, diffusers, weirs, etc. Prerequisites: MCET 200 Statics; MATH 200 Calculus I
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1.00 Credits
Laboratory demonstrations, experiments, and exercises dealing with the verification of fluid equations, and principles and characteristics of fluid machinery. Corequisite: MCET 313 Fluid Mechanics
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3.00 Credits
Study of thermodynamic cycles; includes Carnot, Rankine, Sterling and Application of thermodynamic principles to turbines and compressors. Prerequisites: MCET 301 Introduction to Thermodynamics; MATH 201 Calculus II
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3.00 Credits
A study of the principles and techniques of quality control and its applications to industrial processes. Topics include: An overview of Total Quality Management (TQM), statistics, process control charts, and probability. The relationship between process capability and product specifications is analyzed. Prerequisite: ENGT 105 Engineering Problem Solving or permission of the instructor
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