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Course Criteria
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4.00 Credits
Emphasizes the use of interactive computing techniques in engineering drafting and design. Topics include: use of system hardware and software, CAD concepts, engineering design, and drafting applications. Laboratory work parallels class work.
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3.00 Credits
Integrates computer aided design, computer aided manufacturing, and computer aided engineering functions. Assigned projects present a computer CAD/CAM path. Topics include: manufacturing engineering technologies, computer-aided part design, process planning, computer-aided tool path generation, and automated production systems. Laboratory work parallels class work.
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3.00 Credits
Provides an overview of the behavior of materials when subjected to different loadings and restraints, and the prediction of materials behavior in different situations. Topics include: concepts of stress, concepts of strain, torsion, biaxial stress, column analysis, and beam bending. Laboratory work parallels class work.
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3.00 Credits
Presents the basic theories and techniques used in the design of machine parts. Topics include: machine design concepts, shafting, gears, belts and chains, clutches and brakes, springs, mechanical fabrication, CAD hardware overview, CAD software overview, CAD system customization, techniques of computer modeling, and creating wire frame models for engineering applications. Laboratory work parallels class work.
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3.00 Credits
This course introduces statistical quality control and quality assurance techniques in manufacturing processes. Topics include: fundamentals of Six Sigma methodology, creating customer focus, statistical control techniques, control charts, process capability, failure modes and effects analysis (FMEA), teams and teamwork, leadership and strategic planning, optimization and reliability studies, lean manufacturing, and inspection tools and practices. The course is an effective training aid for those preparing to take the American Society for Quality (ASQ) Certified Quality Inspector (CQI) examination. Students will perform lab exercises applying quality concepts, tools and techniques to realistic industry examples.
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4.00 Credits
Provides advanced study of computer aided design, creating 3-D computer parametric solids models that may be used for engineering analysis as well as for numerical control machining applications, rendering applications, and animation. Topics include: introduction to parametric solids, modeling concepts, boundary primitives, constructing solid geometry, modifying solids, mass properties extraction, applications of solid models, and introduction to finite element analysis. Laboratory work parallels class work.
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4.00 Credits
(Prerequisite: DDF 191) Provides advanced study of computer graphics used to communicate and animate the design project. Topics include: modeling, rendering and animation, and exporting the design into engineering documents. Laboratory work parallels class work.
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4.00 Credits
Introduces the application, storage, control, and transport of energy in hydraulic and pneumatic systems. Covers system components, symbols, operations, and basic theory, as well as common industrial circuits. Topics include: application of fluid power, fundamental theory, basic components, and basic systems. Laboratory work illustrates the construction and behavior of hydraulic systems and components.
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4.00 Credits
(Prerequisites: MAT 1131 and PHY 291) Provides a study of the basic laws of thermodynamics and the principles of heat transfer. Topics include: laws of thermodynamics, principles of heat transfer, liquids and gases, and energy management.
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5.00 Credits
Emphasizes the study of bodies in motion. Topics include: applied kinematics and kinetics of particles and rigid bodies.
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