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Course Criteria
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3.00 Credits
Introduction to metal cutting, and manufacturing processes such as turning, milling, and drilling. Other topics covered include metal shearing and forming, the economics of metal cutting and process planning, inspection and statistical quality control, automation in manufacturing and computer numerical control. Three lectures. Spring. Prerequisites: ENGS 201, MECH 230. (Cr. 3)
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3.00 Credits
This lab gives hands-on practice in various computer aided manufacturing processes including CNC machinery, controls, and robotics. Three-hour laboratory. Spring. Prerequisite MECH 314. Corequisite: MECH 336. (Cr.0)
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2.00 Credits
Engineering design process, problem definitions, information sources, alternative solutions, technical and societal constraints. Group design project and report. One lecture hour, two design hours. Fall. Prerequisites: MECH 314, 318, 323, 325, 332. (Cr. 2)
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3.00 Credits
A continuation of MECH 401. The design project in MECH 401 will be expanded and a model will be built and tested. Students may also start a new project in consultation with faculty. Group or individual design project and report. One lecture, two design hours. Spring. Prerequisites or Corequisites: MECH 401. (Cr. 2)
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3.00 Credits
This laboratory course allows students to perform thermo/fluid experiments to underscore the material that they learn in the thermodynamic, heat transfer, and fluid mechanics classes. This laboratory course also has a component that teaches the students how to construct and perform their own experiments. The material covered in this section includes the mathematical design of an experiment, instrumentation, signal processing, statistical analysis, and data presentation. The students are also required to investigate a physical phenomenon experimentally. Three hour laboratory. One hour lecture. Fall. Prerequisites: MECH 302, 318, 325. (Cr. 3)
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3.00 Credits
Review of principles of solid mechanics and vector methods. Stress-strain-temperature relations, residual stresses and stress concentrations. Beam and column behavior, shear center, torsion of non-circular members, buckling and energy methods. Three lectures. Prerequisites: MECH 230, MECH 314, 323. (Cr. 3)
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6.00 - 9.00 Credits
Individual student research or design projects. Where applicable, computer methods, experimental work, and literature study will be used. Proposal and report required. Six to nine hours of project. (Taken only with approval of advisor and chair of department.) Prerequisites: MECH 314, 318, 323, 325. (Cr. 3)
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6.00 - 9.00 Credits
Individual student research or design projects. A continuation of MECH 408 for students who have successfully pursued a research or design project and wish to continue it for a full year. Proposal and report required. Six to nine hours of project. (Taken only with the approval of advisor and chair of department.) Prerequisite: MECH 401 or MECH 408. (Cr. 3)
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3.00 Credits
Vibration of simple systems, including the vibration of single degree of freedom mass-spring-dampers, seismic vibration, and the vibration of continuous and multidegree of freedom systems. Analysis of basic control schemes, root locus diagrams, Bode diagrams, and simple controllers. Three lectures. Fall. Prerequisites: MATH 203, ENGS 220. (Cr. 3)
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3.00 Credits
This course provides a background in company operation and management tools. These include: economics; project planning; forecasting; decision analysis; inventory control; and network analysis. Emphasis will be placed on solving practical problems by using software tools such as Excel and other appropriate analysis tools. Three lectures. Fall. Prerequisite: Senior Status*. (Cr. 3)
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