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Course Criteria
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3.00 Credits
This course examines the current use of television, computers, and community resources as teaching tools. It covers models of early childhood education including the Open Classroom, the Montessori School, the Piagetian Pre-School, and behavior analysis procedures. Prerequisite: "C" or better in EDU 101.
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4.00 Credits
This introductory course in circuit analysis defines the electrical quantities, current, and voltage, and examines their relationship in various components and circuits. Circuits comprised of resistance, capacitance, and inductance which are energized by both DC and AC sources are considered. The theory includes Ohm's Law, Kirchhoff'sLaws, series and parallel circuits, and several network theorems. In the laboratory the student performs electrical measurements which confirm his/her grasp of the theory. A circuit simulation computer software package is introduced and used as an analytical tool. Co-requisite: MTH 113. Laboratory Fee.
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4.00 Credits
This course introduces students to the active components used in electronics circuits. It covers the physics, the characteristics, and some applications of semiconductor diodes and transistors. The emphasis is on transistor biasing circuits. These devices and their applications are also studied through laboratory experiments. Prerequisite: "C" or better in ELC 115 or permission. Laboratory Fee.
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3.00 Credits
This course treats in detail the subject of electrical power including its generation, distribution, and utilization. It presents the theory, construction, maintenance, and characteristics of AC and DC motors, generators, and transformers. The associated laboratory is an integral part of the course. Prerequisite: "C" or better in ELC 115.Laboratory Fee.
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3.00 Credits
This course is an introduction to computer electronics. It includes Boolean Algebra, fundamentals of logic, logic circuits, and digital logic systems. Laboratory work is closely allied with theory and includes computer simulation. Prerequisite: "C" or better in ELC 115. Laboratory Fee.
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4.00 Credits
This course extends ELC 120 to include AC analysis of transistor circuits. Electronic amplification is examined in considerable detail. Field effect transistors (FET) and integrated circuits (IC) are introduced. Laboratory work, complementing the theoretical work, is emphasized. Prerequisite: "C" or better in ELC 120. Laboratory Fee.
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4.00 Credits
This is the final course in the electronics sequence. Topics covered include modulation and demodulation for AM, FM, PM, and TV. Transmitters, receivers, and transmission characteristics are studied. Concepts of information theory, waveform analysis, and noise are introduced. Prerequisite: "C" or better in ELC 221. Laboratory Fee.
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3.00 Credits
This course introduces the basic theory and mathematical tools for analyzing Linear Electronic Systems. Areas covered include feedback concepts, frequency-response, transfer functions, and bode diagrams. Laboratory experiments are performed to support the theory. Prerequisite: "C" or better in ELC 221. Laboratory Fee.
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4.00 Credits
This is an introductory course in microprocessor applications for students who already have basic knowledge of digital circuits principles. Computer hardware org a n i z ation is analyzed, and machine-language programs are written and run. Hardware and software aspects of a popular eight-bit microprocessor are studied in detail. Theoretical ideas are reinforced by building and testing realistic experimental systems in the laboratory. Prerequisite: "C" or better in ELC 218. Laboratory Fee.
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3.00 Credits
This is a calculus-based course in electric circuit theory and analysis for Engineering A.S. degree program students interested in pursuing computer or electrical engineering. It includes DC and AC principles with an emphasis on Kirchoff's laws, network theorems for resistive, capacitive, and inductive networks, mesh and nodal analysis, and sinusoidal steady-state analysis. Also, power, resonance, and ideal transformers are studied. The theory is reinforced with instructor run demos. Assignments include the use of circuit analysis computer software. Prerequisites: "C" or better in PHY 104, MTH122, and in either CSC112 or CSC121.
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