![]() ![]() Capacitor, voltage and current relationships, power and energy. Inductor, voltage and current relationships, power and energy. Introduction to node-voltage method, node-voltage method with dependent sources and special cases, introduction to mesh current, mesh current method with dependent sources and special cases, source transformations, Thevenin and Norton equivalent circuits, maximum power transfer, superposition. Resistors in series and parallel, voltage and current divider circuits, measuring voltage and current, the Wheatstone bridge, Delta-to-wye ( D - Y) equivalent circuits. Review of circuit analysis, International System of Units (SI), voltage and current, power, energy, basic circuit elements (passive and active), voltage and current sources, Ohm's law, Kirchhoff's laws, circuit models, circuits with dependent sources. To study the main electrical components and electrical analysis methods for DC and AC electrical systems. Bachelors Degree Programme (Course Synopsis) EEE105/3 - Circuits Theory 1 ![]()
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