Module 0: Pre-Requisite Knowledge
Lecture 0: Basic Concepts of Electric Charge and Electric Current
"This module is provided to you for a short recap of fundamental concepts. Please go through this lecture and prepare for a pre-requisite quiz which will be held on 9th October, 2023 at 12:00 pm (IST). The syllabus for this pre-requisite test is Lecture 0".
Module 1: DC Circuits
Lecture 1: Electrical Circuit Elements (R, L, and C)
Lecture 2: Basic Laws
This lecture contains:
Ohm's Law
Open and short-circuit
Series Resistors and Voltage Division
Parallel Resistors and Current Division
Nodes, Branch, Loop, and Mesh
Numerical Questions for Practice
Lecture 3: Kirchhoff's Laws
Lecture 4: Numerical Problems on Kirchhoff's Laws
Practice Lecture 1 to Lecture 4 well as there will be a quiz from these four lectures on 19th October 2023. The timing I will inform you all once confirmed.
Lecture 4 Complete: Numerical Problems on Kirchhoff's Laws
Lecture 5: Star-Delta Transformation
Lecture 6-7: Nodal Analysis and Supernode
Lecture 8: Mesh Analysis and Supermesh
Lecture 9: Linearity Property
Network Theorems:
Lecture 10: Superposition Theorem
Lecture 11: Source Transformation
Lecture 12: Thevenin's Theorem
Lecture 13: Numerical Problems on Thevenin's Theorem_Part I
Lecture 14: Numerical Problems on Thevenin's Theorem_Part II
Practice Lecture 5 to 8 well for getting good scores in Quiz which is going to be conducted on 18th December, 2023.
Lecture 15: Norton's Theorem & Numerical
Lecture 16: Maximum Power Transfer Theorem & Numerical
Time-Domain Analysis of Ist Order Circuits:
Lecture 17: Source-free Response of RL Circuit
Lecture 18: Numerical Problems (RL Circuit)
Lecture 19: Numerical Problems (RL Circuit)
Lecture 20: Step Response of RL Circuit
Lecture 21: Numerical Problem on Step Response of RL Circuit
Lecture 22: Source-Free Response of RC Circuit
Lecture 23: Numerical Problem (RC Circuit)
Lecture 24: Step Response of RC Circuit
Lecture 25: Numerical on Step Response (RC Circuit)
Module 2: AC Circuits
Lecture 26: Sinusoids
Lecture 27: Phasors
Lecture 28: Numerical Problems on Phasors
Lecture 29: Peak, RMS, and Average Values of Sinusoids
Lecture 30: Impedance and Admittance
Lecture 31: Voltage and Current Division (Series & Parallel Impedance)
Lecture 32: Numerical Series and Parallel Impedance
Lecture 33: Nodal and Mesh Analysis in AC Circuit
Lecture 34: Numerical on AC Circuit (Mesh and Nodal)
Lecture 35: Source Transformation in AC Circuit
Lecture 36: Thevenin and Norton Theorem in AC Circuit
Lecture 37: Series and Parallel Resonance (Best Assignment Submitted)
Lecture 38: Complex Power, Real Power, Reactive Power, Power Triangle
Lecture 39: Numerical on complex power
Lecture 40: Single phase and Poly-Phase System (3-phase)
Lecture 41: Balanced 3-Phase Voltages and Load
Lecture 42: Balanced Y-Y Connection
Lecture 43: Balanced D-D Connection
Lecture 44-47: Revision Classes
Module 3: Magnetic Circuits
Lecture 48: Electromagnetism
Lecture 49: Magnetic Force
Lecture 50: Magnetic Circuits
Lecture 51: Magnetic Circuit with Air Gap in the Path
Lecture 52: Magnetic Materials
Lecture 52 Continue: Series and Parallel Magnetic Circuits (Best Assignment)
Lecture 52 Continue: Analysis of Series and Parallel Magnetic Circuits (Best Assignment)
Module 4: Transformer
Lecture 53: Transformer Introduction
Lecture 54: Transformer
Lecture 55: Laminations
Lecture 56: Magnetostriction, Construction of T/F
Lecture 57: Ideal Transformer
Lecture 58: Iron losses
Lecture 59: Transformer on Load
Lecture 60: Winding Resistances
Lecture 61: Magnetic Leakage Flux
Lecture 61 Continue: Auto-Transformer & 3-Phase Transformer (Best Assignment)
Module 5: Electrical Machines
Lecture 62: DC Motor
Lecture 63: Induction Motor & Synchronous Generator
Module 6: Electrical Installations
Lecture 64: Electrical Installations & Power Factor Improvement