Lectures
Lectures will be uploaded sequentially.
- Lecture #1: Basic concepts of electrical systems, Circuit theory.
- Lecture #2: Overview of Circuit Analysis, DC and AC, Voltage and Current.
- Lecture #3: Basic circuit elements, power and energy.
- Lecture #4: Voltage and current sources, ohm’s law.
- Lecture #5: KVL and KCL.
- Lecture #6: Source Transformation, Circuit using dependent source.
- Lecture #7: Resistive circuits, series and parallel connection, series-parallel combination.
- Lecture #8: Voltage and current divider circuits.
- Lecture #9: Delta-to-Wye (Pi-to-Tee) conversion.
- Lecture #10: Superposition Theorem.
- Lecture #11: Node-Voltage Method.
- Lecture #12: Mesh Current Method
- Lecture #13: Thevenin Theorem.
- Lecture #14: Norton Theorem.
- Lecture #15: Maximum Power Transfer.
- Lecture #16: AC circuit elements, Inductor and Capacitor.
- Lecture #17: Series-parallel combination, Mutual inductance.
- Lecture #18: Transient response of R-L and R-C Circuits.
- Lecture #19: AC circuit fundamentals, sinusoidal source, average value, RMS value.
- Lecture #20: Phasor analysis, Impedance, Reactance.
- Lecture #21: AC series-parallel circuit analysis.
- Lecture #22: AC Mesh, Nodal and Thevenin.
- Lecture #23: Transformer.
- Lecture #24: AC Filter, Low-pass and High-pass filter.
To be successful in this Class:
- Attend all classes (or communicate to the instructor).
- Listen attentively.
- Take notes.
- Participate in discussions.
- Attempt all homework.
- Form study groups.