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Course Criteria
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3.00 Credits
Introduces operations research, including mathematical programming models, models for decision alternatives, for procurement and inventory, and for queuing operations. Prereq: MATH 3195 or (MATH 3191 and MATH 3200).
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3.00 Credits
Review of Newtonian dynamics, Lagrange’s equations for particles, systems, and rigid bodies. Conservative and non-conservative systems, moments of inertia, principal axes, angular momentum and Euler equations. Illustrations from spinning bodies, including tops, gyro-compass and rotating machinery. Prereq: MECH 2033 or CVEN 3111, MATH 3195 or (MATH 3191 and MATH 3200). Cross-listed with MECH 5163.
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3.00 Credits
Modern manufacturing engineering concepts using computerized numerical control (CNC). The students learn state-of-the-art CNC methodologies, including digitizing, drawing, generating codes, and manufacturing, using modern CNC machines. Prereq: junior standing in engineering. Cross-listed with MECH 5166.
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3.00 Credits
Students learn basic theory of finite element analysis (FEA) as it applies to stress analysis and design of mechanical components. Commercial package will be used giving students practical experience in the use of FEA. Prereq: MECH 3035. Cross-listed with MECH 5175.
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3.00 Credits
This is a basic course in solid modeling using Solid Works computer software. Topics include feature-based modeling, parametric part design, parent/child relationships, use of datums, patterning, relations, sweeps, blends, assembly, tolerancing, rapid prototyping, CNC manufacturing, CMM inspection, and Step standards. Prereq: Junior standing in engineering.
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1.00 - 3.00 Credits
Subject matter to be selected from topics of current technological interest. Credit to be arranged. Prereq: senior standing or permission of instructor.
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1.00 - 3.00 Credits
This category is intended for upper division level special topics which students may wish to pursue on their own initiative, with guidance from a professor who agrees to limited consultation on the work and to award credit when the project is completed.
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3.00 Credits
Introduces numerical analysis. Solution of linear and nonlinear equation systems. Numerical methods for ordinary and partial differential equations. Engineering applications. Prereq: graduate standing or permission of instructor. Cross-listed with MECH 4110.
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3.00 Credits
Analysis and design of polymers and polymer-based composites. Failure criteria include static strength, stiffness, creep, fatigue, impact and fracture toughness. Design criteria include strength-to-weight ratio and cost-to-strength ratio. Prereq: graduate standing or permission of instructor. Cross-listed with MECH 4114.
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3.00 Credits
Plastic deformation of materials applied to bulk and sheet metal manufacturing processes such as extrusion, rolling and sheet metal. Linear and nonlinear viscoelastic creep with applications to plates and shells. Prereq: graduate standing or permission of instructor. Cross-listed with MECH 4115.
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