What you'll learn?

Explore AC fundamentals — waveforms, RMS values, induction, and resistive, inductive, and capacitive circuits — alongside resonance and transformers. Gain hands-on insight into instruments and three-phase systems, linking theory to motors, radios, and household power.

Description

Course Outcomes:

  1. to design and analyze AC circuits, calculate key parameters (RMS, reactance, impedance, phase angle, power factor), solve practical AC problems, and safely demonstrate typical AC devices.
  2. To grasp AC fundamentals — generation, waveforms, AC vs. DC, RLC behavior, resonance, and transformer roles in power distribution.
  3. To feel confident applying AC theory to experiments, solving circuit problems, and handling real-world electrical devices with clarity.

Course content

Total: 10 lectures Total Duration: 2 hours, 37 minutes, and 6 seconds

the instructor

Sugapriya Sankarasubbu

Global science mentor specializing in Physics, Chemistry, and Math, creating high-impact resources aligned with international standards.


Student feedback

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