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Course Criteria
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3.00 Credits
The study of statically determinant systems in equilibrium is the focus of This course. Topics include: the concept of static equilibrium; force systems; free body diagrams; vectors and vector products in two and three dimensions; beams and trusses; load, shear, and moment diagrams for statically determinate beams, trusses, and centroids; and moments and products of inertia. Prerequisites: MATH 210 and PHYS 210 (3: 3, 0) Fall 3.000 Credit Hours 3.000 Lecture hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture Technology College Science/Math/Engineering/Tech Division Engineering Science Department
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3.00 Credits
This is a calculus-based course in engineering circuit analysis including: Ohm's and Kirchhoff's laws; nodal and mesh analysis; superposition; source transformation; Thevinin's and Norton's theorems; operational amplifiers; inductane; capacitance; overdamped, critical, and underdamped RLC circuits. Other topics include the Unit-Step and Sinusoidal forcing functions and their response, phasors, and sinusoidal steady-state power calculations. Computer simulation software and hands-on activities are used to strengthen the learing process. Prerequisite: MATH 215 (3: 3, 0) Fall 3.000 Credit Hours 3.000 Lecture hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture, Laboratory, Programmed Instruction Technology College Science/Math/Engineering/Tech Division Engineering Science Department
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3.00 Credits
This course is a continuation of EGSC 230. Topics include: average, effective, and apparent power; single-phase and three-phase wye and delta connections; complex frequency and the s-plane; series and parallel resonance; magnetically coupled circuits; two-port networks; Fourier analysis and transforms; and LaPlace transform techniques. Prerequisite: EGSC 230 (3: 3, 0) When demand warrants 3.000 Credit Hours 3.000 Lecture hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture, Laboratory Technology College Science/Math/Engineering/Tech Division Engineering Science Department
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3.00 Credits
This course is an extension of EGSC 210 through nonequilibrium systems: displacement, velocity, and acceleration. Methods of kinematics, kinetics, work and energy, and impulse-momentum are examined and applied to particles, systems of particles, and to rigid bodies. Prerequisite: EGSC 210 (3: 3, 0) When demand warrants 3.000 Credit Hours 3.000 Lecture hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture, Programmed Instruction Technology College Science/Math/Engineering/Tech Division Engineering Science Department
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3.00 Credits
This course introduces students to the behavior of material bodies. Topics include mechanical and thermal stress and strain: Mohr's Circle, deflection of beams, indeterminate structures, and analysis of impact loads. Prerequisite: EGSC 210 (3: 3, 0) Spring 3.000 Credit Hours 3.000 Lecture hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture Technology College Science/Math/Engineering/Tech Division Engineering Science Department
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3.00 Credits
No Course Description Available 1.000 OR 3.000 Credit Hours 3.000 Lecture hours 3.000 Lab hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture, Laboratory Technology College Science/Math/Engineering/Tech Division Engineering Science Department
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3.00 Credits
This course covers theory of direct-current motors and generators, controllers, and solid-state components, as well as heating, refrigeration, and air-conditioning control systems. Prerequisites: ECMT 150, ECMT 160, and ECMT 170 or RFAC 130, or permission of the instructor (3: 3, 0) Fall 3.000 Credit Hours 3.000 Lecture hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture Applied Technology College Building/Electrical/Mechanical Division Electricity Department
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3.00 Credits
This course consists of drawing schematics, wiring diagrams, and writing sequences of operation for various electrical systems. It also involves instruction in electronic and solid-state components common to industrial control systems. Prerequisites: ECMT 150, ECMT 160, and ECMT 170 or RFAC 130, or permission of the instructor (3: 3, 0) Fall 3.000 Credit Hours 3.000 Lecture hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture Applied Technology College Building/Electrical/Mechanical Division Electricity Department
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4.00 Credits
Laboratory III This comprehensive laboratory skills course provides experiences in the use of direct-current motors, generators, and HVAC control systems including pneumatics. Prerequisites: ECMT 150, ECMT 160, and ECMT 170, or permission of the instructor (4: 0, 12) Fall 4.000 Credit Hours 12.000 Lab hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture, Laboratory Applied Technology College Building/Electrical/Mechanical Division Electricity Department
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3.00 Credits
This course is designed to teach students how to read, interpret, analyze, and understand electrical drawings and control circuits. These include ladder, wiring, panel layout, and distribution drawings. Students will create a variety of industrial electronic diagrams using appropriate graphical and schematic symbols. This will include ladder diagrams for programmable logic controllers. Some prior experience in electrical terminology is suggested. Prerequisites: ECMT 150, ECMT 160, and ECMT 170 or RFAC 130, or permission of the instructor (3: 3, 0) Fall 3.000 Credit Hours 3.000 Lecture hours Levels: Undergraduate, Undergraduate-Bachelor Program Schedule Types: Lecture Applied Technology College Building/Electrical/Mechanical Division Electricity Department
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