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Course Criteria
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1.00 Credits
Retired August 31, 2005. Offers additional introductory academic experience by exploring course-related topics in greater depth with the professor. Available only to courses approved by the University Honors Program.
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4.00 Credits
Explores forces as they relate to motion including velocity, acceleration, and friction. Also explores kinematics of particles and rigid bodies. Studies the impulse and momentum of particles.
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4.00 Credits
Examines columns and beams determining stress and strain; factors of safety; and temperature effects for determinate and indeterminate members. Other topics include shear and moment diagrams, flexural and transverse shearing stresses, torsional stress, and deformations.
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1.00 Credits
Accompanies MET U3114. Covers topics from the course through various projects.
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4.00 Credits
Introduces the general theory of heat and matter. Discusses the first and second law of thermodynamics for open and closed systems. Applications include nozzles, compressors, heat exchangers, turbines, and internal combustion engines. Topics include energy-transformation principles, availability of energy, and properties and processes for pure substances, liquids, and ideal gases. Also covers thermodynamics properties using tables and charts, mixture of fluids, vapor cycles, power cycles, and refrigeration cycles.
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1.00 Credits
Accompanies MET U321. Covers topics from the course through various projects.
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4.00 Credits
Identifies methods of selection of materials for engineering applications. Topics include fundamental metallic, ceramic, and polymer structures. Additional topics include testing materials, and alloying and hardening of metals. Discusses fabrication methods including powder metallurgy, metalworking, casting, molding, machining, and welding. Laboratory experiments include the preparation of samples, microstructure analysis, cooling arches, and binary phase diagrams.
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4.00 Credits
Introduces students to mechanical measurements, instrumentation, and experiment data. The principles developed in class are applied in the laboratory, and technical report writing is required. Team-based laboratory experiments utilize statistical techniques in mechanical measurements of temperature pressure, force, deformation, strain, and rotational frequency.
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4.00 Credits
Retired August 31, 2006. Presents the principles of kinematics through manual and computer methods to analyze and design mechanisms. Topics include four-bar linkage, slider cranks, cams and followers, and gears and rear trains (reverted and epicyclic).
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4.00 Credits
Introduces the use of Pro/Engineer to build parametric three-dimensional models of parts and assemblies and to make drawings of them. Stresses fundamental skills and concepts central to the successful use of Pro/Engineer in a production environment. Topics include creating objects; creating features such as straight/revolved/swept protrusions, holes, cuts, chamfers, and rounds; datum and sketching tools; patterns; advanced modeling utilities; assembly fundamentals, and detail drawings. Students gain an understanding of the design philosophy of Pro/Engineer through this extensive hands-on course with numerous practice exercises.
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