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Course Criteria
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1.00 - 5.00 Credits
Directed Research
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1.00 Credits
An overview of mechanical engineering. Course includes seminars by practicing mechanical engineers who discuss day-to-day engineering and the latest advances in the industry. Typical industries represented include: aerospace, transportation, HVAC, power generation, manufacturing, medical equipment, and sports equipment. Graded CR/F. One seminar per week. (spring)
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3.00 Credits
Technical sketching. Isometric, orthographic, auxiliary, and sectional views. Dimensioning. Introduction to computer-aided drafting (CAD) and solid modeling. Includes design project using CAD. Three two-hour sessions per week. Laboratory. (fall, winter)
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1.00 Credits
Manufacturing processes including casting, welding, forging, plastics forming and metal cutting. Lab includes industry tours and hands-on machine shop projects focusing on fundamental theory and operation of precision measuring instruments, hand tools, metal lathes and CNC mills. Pre or co-requisite: MEGR 105. Prerequisite: CEEGR 221. (fall, winter, spring)
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2.00 Credits
The design process, including performance prediction and prototype construction and testing. Includes a guided class project, team evaluation of an existing engineering design, and a major team design project. Final exam will consist of an oral presentation and performance demonstration of the team design. Two 70 minute sessions per week. Laboratory. Prerequisite: freshman or sophomore standing. (fall, winter)
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4.00 Credits
Vector algebra. Equilibrium of forces and moments, distributed forces, hydrostatics, friction, virtual work; all applied to simple bodies. Four lectures per week. Prerequisites: MATH 135, PHYS 121. (fall, winter)
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4.00 Credits
Vectors applied to kinematics and kinetics. Particle, system of particles, and rigid bodies related to translation, rotation, plane motion, relative motion, forces, impulse-momentum, work-energy. Four lectures per week. Prerequisites: MEGR 210. (winter, spring)
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4.00 Credits
Modern methods using computers to solve problems encountered in mechanical and civil engineering. Examples are stress analysis and beams (numerical integration, matrix methods, systems of simultaneous equations), stability of mechanical systems and columns (differential equations). Four lectures per week. Co-requisites: MEGR 230, MATH 233. (fall, spring)
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1.00 - 5.00 Credits
Special Topics
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1.00 - 5.00 Credits
Directed Study
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