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Last updated on: Sunday, November 22, 2009 at 05:00:00 pm
EST110
Engineering Design Graphics
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| 3 Credit Hours, 2 Lecture Hours, 2 Lab Hours |
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Electives: |
Open/Free, Technical, Technology |
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| Course Description | This course will develop ways of representing engineering design ideas graphically. Technical sketching, print reading and an introduction to CAD (Computer Aided Design) are presented. Topics covered include sketching techniques, lettering, orthographic projection, auxiliary views, sectioning, dimensioning and tolerances. CAD focuses on the most common basic functions necessary to complete 2D drawings including drawing, setup, line drawing, text placement orthographic drawing, basic editing and dimensions. | |
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EST111
Computer Aided Drafting I
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| 3 Credit Hours, 2 Lecture Hours, 2 Lab Hours |
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Electives: |
Computer, Open/Free, Technical, Technology |
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Prerequisites/
Proficiencies: |
EST110 Engineering Design Graphics |
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| Course Description | This course provides instruction on basic and advanced features of two-dimensional computer aided drafting software. Topics include fundamental concepts, drawing environment, setup process, draw and modify commands, blocks, dimensioning techniques, precision tools, and file input/output methods. The student will use these tools to produce architectural, mechanical and electrical-based engineering drawings, work in design teams and produce projects which reflect real-world applications. | |
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EST112
Computer Aided Drafting II
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| 3 Credit Hours, 2 Lecture Hours, 2 Lab Hours |
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Electives: |
Computer, Open/Free, Technical, Technology |
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Prerequisites/
Proficiencies: |
EST111 Computer Aided Drafting I |
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| Course Description | This course provides instruction on advanced two-dimensional design topics and a foundation in three-dimensional solid modeling, utilizing CAD software. Topics learned, including solid modeling principles and best practices, will be applicable to product development in general and across all design applications. The student will use these tools to produce architectural, mechanical and electrical-based engineering drawings, work in design teams and produce projects which reflect real-world applications. | |
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EST231
Engineering Circuit Analysis I
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| 5 Credit Hours, 4 Lecture Hours, 3 Lab Hours |
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Electives: |
Open/Free, Technical, Technology |
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Prerequisites/
Proficiencies: |
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CoRequisites: |
MAT253 Calculus III |
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| Course Description | Introduction to general electric circuit topology, with independent variables, loop and nodal analysis with matrix modules. Also, the study of circuit analysis employing Kirchhoff's laws, Thevenin's Theorem, Norton's Theorem, superposition and maximum power theorems, is emphasized. | |
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EST232
Engineering Circuit Analysis II
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| 5 Credit Hours, 4 Lecture Hours, 3 Lab Hours |
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Electives: |
Open/Free, Technical, Technology |
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Prerequisites/
Proficiencies: |
EST231 Engineering Circuit Analysis I |
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CoRequisites: |
MAT254 Differential Equations |
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| Course Description | Sinusoidal analysis of circuits employing phasor analysis. Sinusoidal steady state response found by nodal, mesh, superposition, source transformations. Thevenin's Theorem and phasor diagrams are explained. RMS values and average power and complex power is studied in detail. Major emphasis is placed on analysis using complex frequency (S-Plane). This would include frequency response of RL, RC, and RLC circuits (including resonance). The remainder of the course deals with two port network parameters and Fourier series analysis. | |
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