What you'll learn?
In this course, Learn how alternating current differs from DC, explore waveforms, RMS values, and electromagnetic induction. Study resistive, inductive, and capacitive circuits, resonance, transformers, and efficient power distribution. Gain hands‑on insight into instruments and three‑phase systems, connecting theory with real‑world applications like motors, radios, and household power.
Description
Course Outcomes:
- 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.
- To grasp AC fundamentals — generation, waveforms, AC vs. DC, RLC behavior, resonance, and transformer roles in power distribution.
- 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
Sugapriya Sankarasubbu specializes in Physics, Chemistry, and Mathematics, making them engaging and accessible for learners across global curricula. With experience as a Science Coordinator and Olympiad content developer, she creates high-impact resources aligned with international standards. Her teaching emphasizes active learning, real-world connections, and structured support to build lasting scientific understanding