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  • Course Information
    • Course Title Code Semester Laboratory+Practice (Hour) Pool Type ECTS
    FUNDAMENTALS OF ELECTRICAL AND ELECTRONICS EEM113 FALL-SPRING 3+0 Faculty E 5
    Learning Outcomes
    1- Explains the units used in Electrical and Electronics Engineering and their equivalents in terms of basic units
    2-Comprehends the concepts of electricity, current, voltage and resistance and the effects of current on living things
    3-Summarizes some basic elements used in electrical and electronic circuits with their equation
    4-Refers to equivalent resistance in a circuit
    5-Tells linear and nonlinear resistors and their properties
    Prerequisites -
    Language of Instruction Turkish
    Responsible Asst. Prof. Dr. Fatih KORKMAZ
    Instructors -
    Assistants -
    Resources K1- Linear and Nonlinear Circuits. O.L. Chua, C.A. Doser, E.S. Kuh, Mcgraw-Hill, 1987. K2.-Elektrik ve Bilgisayar Mühendisliği?ne Giriş. Çeviren: Erhan Akın, Nobel Yayın Dağıtım, 2003.
    Supplementary Book -
    Goals To teach the knowledge, elements, laws and theorems that form the basis of Electrical and Electronics Engineering. To provide the ability to predict how the elements can behave according to the definition relation in a circuit they are in. To formulate a circuit formulation. Solving a circuit using laws and / or theorems.
    Content Unit systems. Definition of electricity. Conductors and insulators. Effects of electric current. Symbols of circuit elements. Definition and measurement of current, voltage and resistances. Description of DA. Extending the measurement limit of the voltmeter and ammeter. The effect of heat on resistance. Equivalent resistance calculation. Star-delta resistance transformations. Nonlinear resistance definition. Voltage adjustment methods. Kirchhoff`s Laws. Finding of resistors with current-voltage measurement. Measuring of resistors with Wheatstone bridge. Electrical work and power. Conversion of electrical energy to heat. Equivalent circuit, series and parallel connection of the voltage source. Maximum power theorem. Thevenin and Norton equivalents. Source transformation. Thevenin and Norton theorems. Superposition theorem. Capacitor, series and parallel connections and its behavior in DC. Magnetic circuits. Structure and definition of inductance. Series and parallel connection of inductance The behavior of inductance in DA. Hysteresis and fuco losses.
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