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Course Criteria
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8.00 Credits
Introduces fundamental concepts and operation necessary to use graphic design software and hardware. Topics include: introduction to the MAC environment, cross platforming, file management, file organization, file formats, image resolution, font and font management, printers, scanners, and digital cameras.
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3.00 Credits
Provides application of advanced design techniques in the production of graphic design. Visualization progresses from concept stage to the final comprehensive design. Topics include: use of color, important text and graphics, operation of graphic design software, provides hands-on experience with vector based illustration software, page layout and photo manipulation software.
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6.00 Credits
(Prerequisites: PGT 103, MCM 201) Provides further application of advanced design techniques in the layout and rendering of media related products. Visualization progresses from concept state through the final comprehensive design and beyond to distribution processes. Topics include: layout design, thumbnailing, common design pitfalls, advanced media production, job specifications, and pricing techniques.
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4.00 Credits
(Prerequisites: PGT 103, MCM 201) Introduces the preparation of art / photography for printing in newspapers, magazines, and other media publications. Topics include: operating of advertising layout software, printing processes and medium, advertising formats, designing to solve clients needs, design consistencies, designing collateral material, point-of-sale, high end media products, collection of data, and post production issues.
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4.00 Credits
(Prerequisites: PGT 103, MCM 201) Emphasizes the use of multimedia creation software for alternate delivery methods. Focus is on design and production of various types of interactive media. Topics include: storyboarding, frames, timelines, slides, audio files, motion files, animating text and gif files, use of color and light.
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5.00 Credits
This course introduces the student to industrial manufacturing techniques that employ the processes of material shaping, joining, machining and assembly. Topics include: casting, shaping and forming of metal, ceramics and polymers, particulate processing of metals and ceramics, machining, sheet metal working, joining and assembling, surface treatment, and manufacturing design considerations. Emphasis is provided on manufacturing techniques, product design, quality and cost. The course includes demonstration lab exercises on the industrial processes and techniques used to produce industrial products.
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4.00 Credits
(Prerequisite: MAT 191) This course prepares the student for using various computer application programs for technical functions in industry. Topics include: solving engineering problems using computer programs, preparing critical path schedules using project software, simulating and evaluating processes, preparing presentations, and analyzing engineered components using 3D graphic programs. Emphasis is placed on the utilization of computer application programs for technical, project and process communication. Laboratory exercises focus on defining, designing and preparing technical information as well as solving problems, evaluating processes, assembling technical information, and analyzing engineering components using computer application programs.
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5.00 Credits
Introduces basic industrial manufacturing processes employing material shaping, joining, and assembly technologies. Topics include: casting, molding, and related processes, particulate processing for metals and ceramics, metal forming and sheet metal working, gauging, joining and assembly processes, non-destructive examination, and surface processing operations. Laboratory work parallels class work.
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5.00 Credits
(Prerequisite/Corequisite: MET 101, CHM 193) This course introduces the fundamentals of metallurgy and engineering material science. Topics include: chemical, physical and mechanical properties of materials, material limitations, metallurgy, material structures and applications, material extraction processing techniques, material treating and treatments, and material testing. Emphasis is provided on material strength, design considerations and the effects of heat treatment, creep and fatigue. The course includes performance lab exercises that demonstrate the applications of the topics covered such as; material testing (i.e. tensile and hardness testing), material treatment (i.e. heat treatment), and inspection (i.e. NDE).
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3.00 Credits
Emphasizes the study of forces and their effects on bodies at rest. Static principles are applied in analyzing structural systems. Topics include: resultants, equilibrium of force systems, trusses and frames, and properties of areas.
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