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Course Criteria
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1.00 Credits
Design of automotive chassis, suspension, and drive train for participation in Society of Automotive Engineers competitions. Grade based on participation (50%) and/or design report (50%).
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1.00 Credits
Continuation of ME 1019 (0180). Grade based on participation (50%) and/or design report (50%).
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1.00 Credits
Continuation of ME 1029 (0181). Grade based on participation (50%) and/or design report (50%).
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1.00 Credits
Basic measurements and measurement principles. Experiments and simulations of static and dynamic systems. Statistical analysis of results, written reports and journals.
Corequisite:
ENGRG 2332 (0132)
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3.00 Credits
Course includes design process, statistical method, stress and deflection, materials, failure criteria from static and dynamic loadings. Analysis of mechanical components including screws, welded parts, gears, belts and shafts. Team design projects with written reports and presentations.
Prerequisite:
ENGRG 1117 (0011), ENGRG 2332 (0132), and ENGRG 2333 (0133)
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3.00 Credits
This course builds on the concepts of kinematics first presented in sophomore level Dynamics and explores its application to mechanical design. Starting with an introduction to links, joints and kinematic chains, students will learn the analysis and design of spatial mechanisms with an emphasis on position, velocity and acceleration of linkages. In addition to graphical and numerical analysis, computer aided mechanism design will be performed using SolidWorks Motion.
Prerequisite:
ENGRG 2332
Corequisite:
ENGRG 3117
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1.00 Credits
Laboratory experiments related to the nature and properties of materials, including: stress, strain, factures, microstructure, metallography, and nondestructive testing.
Prerequisite:
ENGRG 2333 (0133)
Corequisite:
ENGRG 3496 (W233) or ET 3396 (W223)
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3.00 Credits
A study of the dynamic response of physical systems, concentrating on mechanical systems in translation, rotation, and combined motion. Mathematical models are developed using interacting elements, inter-connecting laws, and physical laws. Both the state variable and input-output analysis are considered. Solutions for the model response include using the following techniques: analytical, Laplace Transform, transfer function, matrix methods, and numerical analysis. Design project.
Prerequisite:
ENGRG 2332 (0132); MATH 3041 (0251); MATH 2101 (0147)
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1.00 Credits
This laboratory aims to familiarize the students with different data acquisition techniques and devices to measure and control the vibratory behavior of various systems. Experiments will include pressure and velocity measurements as well as modern transducers and pressure/flow regulators.
Corequisite:
ENGRG 3553 (0253) or ET 2521 (0222); ENGRG 3571 (0271) or ET 3532 (0232)
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1.00 - 4.00 Credits
A course designed to present new and emerging areas of engineering. The course may also be used to present areas not normally taught in the College. Course requirements vary with the topic and instructor. Offered as needed or as appropriate.
Prerequisite:
Junior standing (completion of 60 credits), or Senior standing (completion of 90 credits), or permission of department chair
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