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Lecture Description of this above Topic:
Lecture 1: Introduction to Network Theory
Lecture 2: Electric Charge
Lecture 3: Law of Conservation of Charge
Lecture 4: Electric Current
Lecture 5: Conventional Current vs. Electron Current
Lecture 6: Is Current a Scalar or a Vector Quantity?
Lecture 7: Electric Potential Difference (Voltage)
Lecture 8: Electric Power
Lecture 9: Electric Power (Solved Problem)
Lecture 10: Circuit Elements (Resistor)
Lecture 11: Ohm's Law
Lecture 12: The Concept of Short Circuit
Lecture 13: The Concept of Open Circuit
Lecture 14: Circuit Elements (Inductor)
Lecture 15: Linear and Non-Linear Inductors
Lecture 16: Energy Stored in an Inductor
Lecture 17: Inductor (Important Points)
Lecture 18: Circuit Elements (Capacitor)
Lecture 19: Energy Stored in a Capacitor
Lecture 20: Capacitor (Important Points)
Lecture 21: Dependent and Independent Sources
Lecture 22: Ideal and Practical Voltage Sources
Lecture 23: Ideal and Practical Current Sources
Lecture 24: Voltage Source (Tips & Tricks)
Lecture 25: Current Source (Tips & Tricks)
Lecture 26: Current & Voltage Source (Important Points)
Lecture 27: Node, Path, Loop and Branch
Lecture 28: Kirchhoff's Current Law (KCL)
Lecture 29: Kirchhoff's Voltage Law (KVL)
Lecture 30: KCL and KVL (Solved Problem)
Lecture 31: More Insight into Kirchhoff's Voltage Law (KVL)
Lecture 32: Mesh Analysis
Lecture 33: Mesh Analysis (Solved Problem 1)
Lecture 34: Mesh Analysis (Solved Problem 2)
Lecture 35: Mesh Analysis with Current Source
Lecture 36: Supermesh Analysis
Lecture 37: Supermesh Analysis (Solved Problem)
Lecture 38: Nodal Analysis
Lecture 39: Nodal Analysis (Solved Problem 1)
Lecture 40: Nodal Analysis with Voltage Source
Lecture 41: Nodal Analysis (Solved Problem 2)
Lecture 42: Supernode Analysis
Lecture 43: Supernode Analysis (Solved Problem)
Lecture 44: Series & Parallel Combination of Resistors
Lecture 45: Series & Parallel Combination of Capacitors
Lecture 46: Series & Parallel Combination of Inductors
Lecture 47: Voltage Divider Rule
Lecture 48: Current Divider Rule
Lecture 49: Equivalent Resistance (Solved Problem 1)
Lecture 50: Equivalent Resistance (Solved Problem 2)
Lecture 51: Equivalent Resistance (Solved Problem 3)
Lecture 53: Equivalent Resistance (Solved Problem 4)
Lecture 56: Balanced Bridge
Lecture 57: Balanced Bridge (With Impedances)
Lecture 58: Balanced Bridge (Solved Problem)
Lecture 59: Equivalent Resistance (Solved Problem 7)
Lecture 60: Equivalent Resistance (Solved Problem 8)
Lecture 61: Delta to Wye (Star) Conversion
Lecture 62: Wye (Star) to Delta Conversion
Lecture 64: Equivalent Capacitance (Solved Problem 1)
Lecture 65: Equivalent Capacitance (Solved Problem 2)
Lecture 66: Equivalent Capacitance (Solved Problem 3)
Lecture 67: Equivalent Capacitance (Solved Problem 4)
Lecture 68: Active and Passive Elements
Lecture 69: Bidirectional and Unidirectional Elements
Lecture 70: Lumped and Distributed Elements
Lecture 71: Linear and Nonlinear Elements
Lecture 72: Basics of Network Theory (Solved Problem 1)
Lecture 73: Basics of Network Theory (Solved Problem 2)
Lecture 74: Basics of Network Theory (Solved Problem 3)
Lecture 75: Basics of Network Theory (Solved Problem 4)
Lecture 76: Basics of Network Theory (Solved Problem 5)
Lecture 77: Basics of Network Theory (Solved Problem 6)
Lecture 79: Basics of Network Theory (Solved Problem 8)
Lecture 80: Basics of Network Theory (Solved Problem 9)
Lecture 81: Basics of Network Theory (Solved Problem 10)
Lecture 82: Basics of Network Theory (Solved Problem 11)
Lecture 83: Basics of Network Theory (Solved Problem 12)
Lecture 84: Basics of Network Theory (Solved Problem 13)
Lecture 85: Basics of Network Theory (Solved Problem 14)
Lecture 86: Basics of Network Theory (Solved Problem 15)
Lecture 87: Basics of Network Theory (Solved Problem 16)
Lecture 88: Basics of Network Theory (Solved Problem 17)
Lecture 89: Basics of Network Theory (Solved Problem 18)
Lecture 90: Basics of Network Theory (Solved Problem 19)
Lecture 92: Introduction to Two−Port Networks
Lecture 93: Z−Parameters (or) Impedance Parameters
Lecture 94: Z−Parameters (Solved Problem 1)
Lecture 95: Z−Parameters (Solved Problem 2)
Lecture 96: Y−Parameters (or) Admittance Parameters
Lecture 97: Y−Parameters to Z−Parameters Conversion
Lecture 98: Z−Parameters to Y−Parameters Conversion
Lecture 99: Y−Parameters (Solved Problem 1)
Lecture 100: Y−Parameters (Solved Problem 2)
Lecture 101: h−Parameters (or) Hybrid Parameters