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Course Criteria
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5.00 Credits
Provides a description and analysis of economic operations in contemporary society. Emphasis is placed on developing an understanding of economic concepts and policies as they apply to everyday life. Topics include: basic economic principles; economic forces and indicators; capital and labor; price, competition, and monopoly; money and banking; government expenditures, federal and local; fluctuations in production, employment, and income; and the United States economy in perspective.
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5.00 Credits
Provides a description and analysis of microeconomic operations in contemporary society. Emphasis is placed on developing an understanding of microeconomic concepts and theories as they apply to daily life. Topics include: basic economic principles; theory of the corporate firm; market system; market structure, pricing, and government regulation; resource markets; and international trade.
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5.00 Credits
Provides a description and analysis of macroeconomic operations in contemporary society. Emphasis is placed on developing understanding of macroeconomic concepts and policies. Topics include: basic economic principles, macroeconomic principles, microeconomic theory, macroeconomic policy, money and banking, and the United States' economy in perspective.
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5.00 Credits
Emphasizes the knowledge and ability to analyze basic DC circuits. Topics include: international units, basic electrical laws, series and parallel circuits, capacitance, network analysis concepts, network theorem concepts, and DC instruments. Laboratory work parallels class work.
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5.00 Credits
Emphasizes the knowledge and ability to analyze basic AC circuits. Topics include: magnetism, inductance/capacitance, alternating current, AC network theorem, admittance, impedance, phasors, complex power, and applications and uses of appropriate instruments. Laboratory work parallels class work.
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5.00 Credits
Continues the study of AC circuit analysis with emphasis on transient analysis and network theorems. Topics include: analysis of complex networks, resonance, transformers, multiple sources, three-phase systems, nonsinusoidal waveforms, transient analysis, and filters and bode plots. Laboratory work parallels class work.
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5.00 Credits
Introduces the conduction process in semi-conductor materials. Topics include: semi-conductor physics, diodes, bipolar junction transistors, field effect transistors (FET's), silicon controlled rectifiers, and device curve characteristics. Laboratory work parallels class work.
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5.00 Credits
Emphasizes fundamental concepts of problem solving using computers. Students explore flow-charting, control structures, subroutines, arrays, strings manipulation, matrices, and files. A high level source language is used. The laboratory portion of the course is designed to acquaint students with computer facilities and software utilities. Topics include: system fundamentals, concepts of structured programming (high level source language), arrays, functions and subroutines, data files, engineering applications, graphics, matrices, and program editing. Laboratory work parallels class work.
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5.00 Credits
Introduces digital electronics. Topics include: fundamentals of digital techniques, integrated logic circuits, flip-flops and registers, sequential logic circuits, combinational logic circuits, and memory circuits. Laboratory work parallels class work.
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3.00 Credits
5 70 Emphasizes the in depth study of bipolar junction transistors and field effect transistors amplifiers. Topics include; various configurations of small and large signal amplifiers using graphical and equivalent circuit techniques, frequency response and feedback principles, an analysis of heat sinks and other practical considerations. Laboratory work parallels class work.
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