Access Guidelines
1.0 Course Strategy (must watch, Check point-1)
1.2 Types of electrical sources, Ohm's Law
1.3 Finding equivalent resistance
3.1 AC Fundmentals, why sinusoid, avg, rms,peak form factor -Part1
3.2 AC Fundmentals, why sinusoid, avg, rms,peak form factor -Part2
3.3 AC Fundamentals Numericals
3.4 Concept of Phasor, leading and lagging calculations
3.4b Easy and best way to draw a 3-phase waveform
Animations for Phasor Concept (works only with windows)
3.5 Phasor Diagram, Important Math Operations on Phasors
3.6 AC given to R, L, C, RL, RC, RLC-Part1
Animations for Addition, Multiplication of Sinusoid (works only with windows)
3.7 AC given to R, L, C, RL, RC, RLC-Part2
3.8 AC Steady State Analysis-Part1
3.9 AC Steady State Analysis-Part2
3.10 Resonance Intro, Series, Parallel RLC-Part1
Animations for RLC series resonance (works only with windows)
3.11 Resonance Intro, Series, Parallel RLC-Part2
3.12 Realistic RLC circuit resonane
3.13 Numericals on Realistic RLC circuit resonane
3.14 Complex Waveform Analysis
4.1 SPT (Super Position Theorem)
4.2 Dualilty, Thevenin and Norton's Theorems
4.3 MPTT (Maximum Power Transfer Theorem)
5.1 Introduction to Magnetic Circuits
5.3 Inductance Calculation of coupled circuits
6.1 Two port intro, Z, Y, h, f Parameters
6.2 Z, Y, h, g Parameters numericals, interconnection-Part1
7.1b Why and How Inductor does not allow sudden change in currents
7.3 Initial & Final Value Calculation
7.4 Complete Response of 1st order DC circuit
7.5 RC, RL circuit time constant Derivation
Click here to download the Project files and Explainer video(s)
Follow the above access guidelines to watch the video.