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Course Criteria
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5.00 Credits
The solution of engineering problems using graphical methods. Includes point, line and plane problems, intersections and developments, and forces in space. Drawings may be done in CAD if ENGR 202 completed. Prerequisite: ENGR& 114. Mandatory decimal grading.
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5.00 Credits
Use of instruments, scales, techniques of lettering and line work. 3D visualization and fundamentals of orthographic projection including sections; isometric drawing; auxiliary views; dimensioning; simple rectilinear graphs, and introduction to CAD. Mandatory decimal grading. Previously ENGR 101.
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5.00 Credits
Introduction to fundamental engineering principles including dimensional analysis, vector algebra, statics, and selected engineering topics. Designed to develop ability to analyze and solve engineering problems in a clear systematic manner. Previously ENGR 111. Prerequisite: ENGR& 114 and MATH& 142. (MATH& 142 may be taken concurrently.) Mandatory decimal grading.
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5.00 Credits
Studies the fundamental properties of engineering materials related to atomic, molecular and crystalline structures. The mechanical and physical properties of metals, ceramics, polymers, and composites will be studied. Prerequisite: CHEM 171 or permission. Mandatory decimal grading.
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5.00 Credits
Basic commands; coordinate systems; data input; editing; layers; dimensioning; text commands; filing and plotting two dimensional construction; introduction to 3D modeling. Previously ENGR 200. Prerequisite: ENGR& 114 and trigonometry, or permission. Mandatory decimal grading.
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5.00 Credits
Advanced applications of AutoCAD including: use of attributes; work with WBLOCK command; create sub-directories, menus and use of some DOS and Windows commands; 3D wire frames, surface and solid modeling. Previously ENGR 201. Prerequisite: ENGR 202 or permission. Mandatory decimal grading.
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5.00 Credits
Introduction to electrical engineering. Basic circuit and systems concepts, mathematical models of components. Kirchoff 's Laws. Resistors, sources, capacitors, inductors and operational amplifiers. Solution of first and second order linear differential equations associated with basic circuit forms. Previously ENGR 215. Prerequisite: PHYS& 222 may be taken concurrently and MATH& 163 must be completed. (MATH 207 recommended). Mandatory decimal grading.
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3.00 Credits
Introduction to creating 3D CAD models using feature-based, parametric solid-modeling design; base, boss and cut features using extruded, revolved, simple swept and lofted shapes; capturing design intent using automatic or user-defined geometric and dimensional constraints; detail and assembly drawings. Prerequisites: ENGR& 114 and MATH 099 with a 2.0 or better, or instructor permission. Mandatory decimal grading.
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3.00 Credits
Advanced 3D CAD models using SolidWorks parametric solid modeling; swept and lofted shapes; assembly interference checking, collision detection, dynamic clearance, physical dynamics, and simulation, surfaces, use of Photo Works rendering, and Cosmos FEA in linear static, frequency, buckling, and thermal analysis. Prerequisites: ENGR 205 with a 2.0 or better, or instructor permission. Mandatory decimal grading.
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5.00 Credits
Principles of engineering statics, basic concepts, resultants, force-couple relationships, equilibrium diagrams, equilibrium analysis, threedimensional structures, two-dimensional frames, trusses, beams and friction. Vector algebra used throughout the course. Previously ENGR 210. Prerequisite: ENGR& 114, ENGR 115 and MATH& 151. MATH& 151 may be taken concurrently. Mandatory decimal grading.
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