Basic Electrical Engineering (EE/ECE/CSE 2nd Sem)
Basic Electrical Engineering (EE/ECE/CSE 2nd Sem)
Module 1: DC Circuits
Lecture 0: Basic Concepts of Electric Charge and Electric Current
Lecture 1: Ohm's Law, Series & Parallel Resistors
Lecture 2: Basic Laws: Ohm's Law, OC & SC, Nodes, Branches, & Loops, Kirchhoff's Laws
Lecture 3: Numericals on Kirchhoff's Laws
Lecture 4: Numericals on Kirchhoff's Laws, Series Resistors (Voltage Division), Parallel Resistors (Current Division)
Lecture 5: Numericals on Current and Voltage Division
Lecture 6: Star-Delta Transformation and Numericals on it & Nodal Analysis
Lecture 7: Super Node and Numerical
Lecture 8: Mesh Analysis, Super Mesh and Numericals
Lecture 9: Linearity Property and Numericals
Lecture 10: Superposition Theorem & Numerical
Lecture 11: Source Transformation & Numerical
Lecture 12: Thevenin's Theorem
Lecture 13: Numericals on Thevenin's Theorem
Lecture 14: Numericals on Thevenin's Theorem
Lecture 15: Norton's Theorem & Numericals
Lecture 16: Maximum Power Transfer Theorem & Numericals
Lecture 17: Time-Domain Analysis of Ist-order (Source-free) RL Circuit
Lecture 18: Numericals on Source-free RL Circuits
Lecture 19: Numericals on Source-free RL Circuits
Lecture 20: Step Response of RL Circuits
Lecture 21: Numericals on Step Response of RL-Circuits
Lecture 22: Time-Domain Analysis of Ist-order (Source-free) RC Circuit
Lecture 23: Numericals on Source-free RC-Circuits
Lecture 24: Step Response of RC Circuit
Lecture 25: Numericals on Step Response of RC-Circuits
Module 2: AC Circuits
Lecture 26: Sinusoids & Numericals
Lecture 27: Phasors & Numericals
Lecture 28: Numericals on Sinusoids & Phasors
Lecture 29: Phasor Relationships for Circuit Elements
Lecture 30: Impedance and Admittance
Lecture 31: Impedance Combinations, Voltage & Current Divisions
Lecture 32: Numericals on Lecture 31
Lecture 33: Nodal Analysis & Supernode
Lecture 34: Mesh Analysis & Supermesh
Lecture 35: Source Transformation
Lecture 36: Thevenin's & Norton's Equivalent
Lecture 37: Instantaneous & Average Power
Lecture 38: Numerical on Lecture 37
Lecture 39: Maximum Average Power
Lecture 40: Effective or RMS Value of Power
Lecture 41: Apparent Power & Power Factor
Lecture 42: Complex Power, Real & Reactive Power, Power Triangle
Lecture 43: Numericals on Lecture 42
Lecture 44: Three-phase Circuits
Lecture 45: Balanced Three-Phase Circuits
Lecture 46: Balanced Y-Y (Star-Star) 3-Phase Connection
Lecture 47: Balanced Delta-Delta 3-Phase Connection
Module 3: Magnetic Circuits
Lecture 48: Electromagnetism
Lecture 49: Magnetic Force and Induced EMF
Lecture 50: Magnetic Circuits
Lecture 51: Series and Parallel Magnetic Circuits
Module 4: Transformers
Lecture 52: Magnetic Materials and B-H Curve
Lecture 53: Transformer (Introduction)
Lecture 54: Single-Phase Transformer
Lecture 55: Laminations
Lecture 56: Construction of Transformer
Lecture 57: Ideal Transformer
Lecture 58: Iron Losses and Practical Transformer
Lecture 59: Transformer on Load, Equivalent Circuit
Lecture 60: Copper Losses
Lecture 61: Magnetic Leakage Flux & Exact Equivalent Circuit of Transformer
Module 5: Electrical Machines
Lecture 62: Separately Excited DC Motor (DC Machines)
Lecture 63: Induction Motor and Synchronous Generator
Module 6: Electrical Installations
Lecture 64: Circuit- Breakers, Cables, Wires, Battery, Energy
Quizzes & Assessments
Assignment 1: Voltage Regulation of Transformer
Class Test: Module 1 & Module 2
Solution of PYQs
2019_part1: PYQs_Solution
2019_part2: PYQs_Solution_p2
2019_part3: PYQs_Solution_p3
2019_part3: PYQs_Solution_2022