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  • Course Information
    • Course Title Code Semester Laboratory+Practice (Hour) Pool Type ECTS
    Circuit Theory I EEM221 FALL 3+0 C 4
    Learning Outcomes
    1-Defines basic electrical concepts such as current, voltage, energy power
    2-Lists up connections of connection elements, calculates equivalents
    3-Solves complex circuit problems with thevenin, norton, max. power theorems
    4-Draws R, RL, RC and RLC circuit connections
    Prerequisites -
    Language of Instruction Turkish
    Responsible Assoc. Prof.Dr. Fatih KORKMAZ
    Instructors -
    Assistants -
    Resources R1-Nilsson, J. W. & Riedel, S. A. (2001). Electric Circuits (6 th Edition), Prentice Hall, United States. R2-Edminister, J. A. (1994). Çeviren : Aydemir, M. T. & Nakiboğlu, K. C. (1999). Elektrik Devreleri, Nobel Yayın Dağıtım, Ankara.
    Supplementary Book -
    Goals To understand basic concepts of DC circuits behavior, to draw and solve mathematical representations of simple RLC circuits, to understand the use of circuit analysis theorems and methods
    Content Definitions, Current, Voltage; Power. Energy. Active and Passive Elements, Resistance, Independent / Dependent Sources, Short and Open Circuits, Ohm and Kirchoff Laws, Current and Voltage Separators, Series / Parallel Resistors, Node Volumes Method Environmental Currents Method, Superposition Theorem, Resource Transformations, Thevenin, Norton, Max . Power Theorems, Operational Amplifier Circuits and Node Analysis in These Circuits, Energy Storage Elements, Energies, Series-Parallel Connections, Switched Circuits, (1 st Degrees) RC and RL Circuits Solutions, (2 rd Degree) Homogeneous RLC Circuits, Forced RLC Circuits and Complete Solution,Roots in s-domain
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