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Course Criteria
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2.00 Credits
Credits: 3 Catalog Description: A continuation of advanced design graphics using CAD techniques for solving descriptive geometry problems related to engineering areas. Students complete a jig and fixture design and make elevations, cut and fill calculations, underground piping, roadways and dam designs from a topographical maps. Two class hours, two laboratory hours. Prerequisite: EGR105 and EGR119.
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3.00 Credits
Credits: 3 Catalog Description: Explores the structure of the manufacturing industry and the methods, processes and materials associated with them. Topics include structure of industry, general manufacturing processes, primary metals industry, casting, forging, machining, metal fastenings, integrated circuit manufacturing, plastic, glass and ceramic processing.
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3.00 Credits
Credits: 3 Catalog Description: Focuses on the different methods of drawing, size and shape descriptions, industrial terms, symbol identification, abbreviations and visualization skills necessary to correctly interpret production drawings. Uses industrial standards ANSI, ISO, and DOD as guidelines. Two class hours, two laboratory hours.
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1.00 Credits
Credits: 3 Catalog Description: Creates 2-D engineering drawings using basic CAD concepts and industrial level software. Focuses on the principles and practices common to all CAD systems used in drafting. Develops skills with operating systems, computer terminology, and functions of hardware and peripheral components within a workstation environment and using proper drafting standards. Requires drawings using different techniques, drawing constructions and dimensioning. Two class hours, two laboratory hours.
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2.00 Credits
Credits: 3 Catalog Description: Uses an industrial/engineering level CAD software to generate 2-D drawings. Performs advanced techniques of the software on different drawings. Focuses on CAD software capabilities and graphic problem solving techniques. Requires drawings using various input devices and produce hard copy drawings. Two class hours, two laboratory hours. Prerequisite: EGR118.
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3.00 Credits
Credits: 3 Catalog Description: Introduces 3-D software to produce 3-D solids and render them as models. Performs operations for creating 3-D objects including extruding, combining, solidifying, wireframes, meshing, and determining mass properties of engineering drawings. Requires realistic rendering of objects in solid forms. Two class hours, two laboratory hours. Prerequisite: EGR119
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3.00 Credits
Credits: 3 Catalog Description: Studies the motion of mechanisms without regard to failure caused by wear or breakage of component parts, necessary for understanding machine design technology. Analyzes velocity, power, and acceleration as applied to linkages, cams, gears, and gear drives. Two class hours, two laboratory hours. Prerequisites: EGR 118.
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3.00 Credits
Credits: 3 Catalog Description: Uses advanced CAD techniques and engineering skills to design drafting projects. Develops the ability to analyze problems in design drafting in a team environment, sharing and delegating responsibility in gathering data, making sketches, drawings, calculating data and presenting findings for a successful design effort. Two class hours, two laboratory hours. Prerequisites: EGR105 and EGR118.
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3.00 Credits
Credits: 3 Catalog Description: Comprehensive study of basic principles of statics, including vector and scalar treatment of coplanar and noncoplanar force systems, resultants, equilibrium, friction, centroids, and moments. Studies trusses and frames and their solution by method joints, sections and members, and rigid, elastic, and flexible bodies. Prerequisite: PHY132.
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3.00 Credits
Credits: 3 Catalog Description: Continues the study of mechanisms as applied to moving bodies. Examines position, displacement and velocity in both rectangular and polar coordinators, and Newton's laws of motion, moments and products of inertia, plane rigid body motion along with linear and angular impulse and momentum. Includes both free and forced vibration, rotating axes and coriolis acceleration, and application of D'Alembert's principles. Prerequisite: EGR235.
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