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  • Course Information
    • Course Title Code Semester Laboratory+Practice (Hour) Pool Type ECTS
    Alternating Current Circuit Analysis CEL110 SPRING 3+1 C 5
    Learning Outcomes
    1-Recognizes alternating current, explains values of a sinusoidal magnitude.
    2-Explains the behavior of R, L, C circuit elements in alternating current.
    3-Calculates the power dissipated on R, L, C circuit elements in alternating current.
    4-Calculates current, voltage and power values in three-phase systems.
    Prerequisites -
    Language of Instruction Turkish
    Responsible Lec. Mehmet KARAYEL
    Instructors -
    Assistants -
    Resources R1. Demirel.H. (2013). AC/DC Devre Analizi, Birsen Yayınevi, İstanbul
    Supplementary Book -
    Goals It is aimed to comprehend the definitions of alternating current waveforms and period and frequency, to recognize AC load types, to gain the ability to solve the basic concepts of AC electrical circuits and the solution methods of AC circuits in steady state.
    Content Values of a sinusoidal quantity. Vector expression of AC quantities. Circuit solutions of complex numbers. Vector expression of AC quantities. Circuit solutions of complex numbers. Current, voltage, power, phase angle relations on a capacitor. Current, voltage, power, phase angle relations on inductance. Graphoanalytic explanation of current, voltage, power, phase angle terms in (R,L,C) series circuit. Graphoanalytic explanation of current, voltage, power, phase angle terms in (R,L,C) parallel circuit. Specifying the impedance as a complex for (R,L,C) circuits. Resonance in series and parallel circuits (R L C) Power in Circuits Correction of Power Coefficient Obtaining a three-phase system Examines the phases in a three-phase system as vector and graphically. Balanced and unbalanced loads in a three-phase system.
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