Network Theory

Network Theory

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Sinusoidal Steady-State (Solved Question 3)

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163 of 208

Sinusoidal Steady-State (Solved Question 3)

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Classroom Contents

Network Theory

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  1. 1 Introduction to Network Theory
  2. 2 Electric Charge
  3. 3 Law of Conservation of Charge
  4. 4 Electric Current
  5. 5 Conventional Current vs. Electron Current
  6. 6 Is Current a Scalar or a Vector Quantity?
  7. 7 Electric Potential Difference (Voltage)
  8. 8 Electric Power
  9. 9 Electric Power (Solved Problem)
  10. 10 Circuit Elements (Resistor)
  11. 11 Ohm's Law
  12. 12 The Concept of Short Circuit
  13. 13 The Concept of Open Circuit
  14. 14 Circuit Elements (Inductor)
  15. 15 Linear and Non-Linear Inductors
  16. 16 Energy Stored in an Inductor
  17. 17 Inductor (Important Points)
  18. 18 Circuit Elements (Capacitor)
  19. 19 Energy Stored in a Capacitor
  20. 20 Capacitor (Important Points)
  21. 21 Dependent and Independent Sources
  22. 22 Ideal and Practical Voltage Sources
  23. 23 Ideal and Practical Current Sources
  24. 24 Voltage Source (Tips & Tricks)
  25. 25 Current Source (Tips & Tricks)
  26. 26 Current & Voltage Source (Important Points)
  27. 27 Node, Path, Loop and Branch
  28. 28 Kirchhoff's Current Law (KCL)
  29. 29 Kirchhoff's Voltage Law (KVL)
  30. 30 KCL and KVL (Solved Problem)
  31. 31 More Insight into Kirchhoff's Voltage Law (KVL)
  32. 32 Mesh Analysis
  33. 33 Mesh Analysis (Solved Problem 1)
  34. 34 Mesh Analysis (Solved Problem 2)
  35. 35 Mesh Analysis with Current Source
  36. 36 Supermesh Analysis
  37. 37 Supermesh Analysis (Solved Problem)
  38. 38 Nodal Analysis
  39. 39 Nodal Analysis (Solved Problem 1)
  40. 40 Nodal Analysis with Voltage Source
  41. 41 Nodal Analysis (Solved Problem 2)
  42. 42 Supernode Analysis
  43. 43 Supernode Analysis (Solved Problem)
  44. 44 Series & Parallel Combination of Resistors
  45. 45 Series & Parallel Combination of Capacitors
  46. 46 Series & Parallel Combination of Inductors
  47. 47 Voltage Divider Rule
  48. 48 Current Divider Rule
  49. 49 Equivalent Resistance (Solved Problem 1)
  50. 50 Equivalent Resistance (Solved Problem 2)
  51. 51 Equivalent Resistance (Solved Problem 3)
  52. 52 Calculation of Equivalent Resistance Using Symmetry
  53. 53 Equivalent Resistance (Solved Problem 4)
  54. 54 Equivalent Resistance of a Cube (Between the Space Diagonal)
  55. 55 Equivalent Resistance of a Cube (Between the Vertices of an Edge)
  56. 56 Balanced Bridge
  57. 57 Balanced Bridge (With Impedances)
  58. 58 Balanced Bridge (Solved Problem)
  59. 59 Equivalent Resistance (Solved Problem 7)
  60. 60 Equivalent Resistance (Solved Problem 8)
  61. 61 Delta to Wye (Star) Conversion
  62. 62 Wye (Star) to Delta Conversion
  63. 63 Delta to Wye & Wye to Delta Conversion (for Capacitors)
  64. 64 Equivalent Capacitance (Solved Problem 1)
  65. 65 Equivalent Capacitance (Solved Problem 2)
  66. 66 Equivalent Capacitance (Solved Problem 3)
  67. 67 Equivalent Capacitance (Solved Problem 4)
  68. 68 Active and Passive Elements
  69. 69 Bidirectional and Unidirectional Elements
  70. 70 Lumped and Distributed Elements
  71. 71 Linear and Nonlinear Elements
  72. 72 Basics of Network Theory (Solved Problem 1)
  73. 73 Basics of Network Theory (Solved Problem 2)
  74. 74 Basics of Network Theory (Solved Problem 3)
  75. 75 Basics of Network Theory (Solved Problem 4)
  76. 76 Basics of Network Theory (Solved Problem 5)
  77. 77 Basics of Network Theory (Solved Problem 6)
  78. 78 Basics of Network Theory (Solved Problem 7) | Problem on Bulbs
  79. 79 Basics of Network Theory (Solved Problem 8)
  80. 80 Basics of Network Theory (Solved Problem 9)
  81. 81 Basics of Network Theory (Solved Problem 10)
  82. 82 Basics of Network Theory (Solved Problem 11)
  83. 83 Basics of Network Theory (Solved Problem 12)
  84. 84 Basics of Network Theory (Solved Problem 13)
  85. 85 Basics of Network Theory (Solved Problem 14)
  86. 86 Basics of Network Theory (Solved Problem 15)
  87. 87 Basics of Network Theory (Solved Problem 16)
  88. 88 Basics of Network Theory (Solved Problem 17)
  89. 89 Basics of Network Theory (Solved Problem 18)
  90. 90 Basics of Network Theory (Solved Problem 19)
  91. 91 Practice Sheet-1 | Network Theory Basics | Network Theory
  92. 92 Introduction to Two−Port Networks
  93. 93 Z−Parameters (or) Impedance Parameters
  94. 94 Z−Parameters (Solved Problem 1)
  95. 95 Z−Parameters (Solved Problem 2)
  96. 96 Y−Parameters (or) Admittance Parameters
  97. 97 Y−Parameters to Z−Parameters Conversion
  98. 98 Z−Parameters to Y−Parameters Conversion
  99. 99 Y−Parameters (Solved Problem 1)
  100. 100 Y−Parameters (Solved Problem 2)
  101. 101 h−Parameters (or) Hybrid Parameters
  102. 102 h−Parameters to Z−Parameters Conversion (and vice versa)
  103. 103 h−Parameters to Y−Parameters Conversion (and vice versa)
  104. 104 h−Parameters (Solved Problem)
  105. 105 g−Parameters (or) Inverse Hybrid Parameters
  106. 106 Z−Parameters to g−Parameters Conversion (and vice versa)
  107. 107 ABCD−Parameters (or) Transmission Parameters
  108. 108 ABCD−Parameters to Z−Parameters Conversion (and vice versa)
  109. 109 ABCD−Parameters (Solved Problem)
  110. 110 Concept of Symmetry in Two−Port Networks
  111. 111 Condition for Symmetry in Two−Port Networks
  112. 112 Condition for Reciprocity in Two−Port Networks (Part 1)
  113. 113 Condition for Reciprocity in Two−Port Networks (Part 2)
  114. 114 Series−Series Interconnection of Two−Port Networks
  115. 115 Parallel−Parallel Interconnection of Two−Port Networks
  116. 116 Series−Parallel Interconnection of Two−Port Networks
  117. 117 Parallel−Series Interconnection of Two−Port Networks
  118. 118 Cascade Interconnection of Two−Port Networks
  119. 119 Two−Port Network (Important Shortcuts)
  120. 120 Bartlett's Bisection Theorem
  121. 121 Two−Port Networks (Solved Problem 1)
  122. 122 Two−Port Networks (Solved Problem 2)
  123. 123 Two−Port Networks (Solved Problem 3)
  124. 124 Two−Port Networks (Solved Problem 4)
  125. 125 Two−Port Networks (Solved Problem 5)
  126. 126 Two−Port Networks (Solved Problem 6)
  127. 127 Open Circuit & Short Circuit Impedances (In Terms of ABCD-Parameters)
  128. 128 Two−Port Networks (Solved Problem 7)
  129. 129 Two−Port Networks (Solved Problem 8)
  130. 130 ABCD−Parameters of an Ideal Transformer
  131. 131 ABCD−Parameters of Gyrator
  132. 132 Practice Sheet-2 | Two-Port Networks | Network Theory
  133. 133 Sinusoidal Steady-State Analysis (Introduction)
  134. 134 Sinusoids
  135. 135 Sinusoids (Solved Problems)
  136. 136 Phasors
  137. 137 Phasors (Solved Problem 1)
  138. 138 Phasors (Solved Problem 2)
  139. 139 Phasors (Solved Problem 3)
  140. 140 Phasor Relationship for Resistor
  141. 141 Phasor Relationship for Inductor
  142. 142 Phasor Relationship for Capacitor
  143. 143 Instantaneous Power in AC Circuits
  144. 144 Average Power in AC Circuits
  145. 145 Average Power in AC Circuits (Solved Problem 1)
  146. 146 Average Power in AC Circuits (Solved Problem 2)
  147. 147 Root Mean Square (RMS) Value
  148. 148 RMS Value (Solved Problem)
  149. 149 Apparent Power & Power Factor
  150. 150 Power Factor (Solved Problem)
  151. 151 Complex Power & Reactive Power
  152. 152 Complex Power (Solved Problem)
  153. 153 Power Triangle
  154. 154 Power Triangle (Solved Problem)
  155. 155 Phasor Diagram of Series RL Circuit
  156. 156 Phasor Diagram of Series RC Circuit
  157. 157 Phasor Diagram of Series RLC Circuit
  158. 158 Phasor Diagram of Parallel RL Circuit
  159. 159 Phasor Diagram of Parallel RC Circuit
  160. 160 Phasor Diagram of Parallel RLC Circuit
  161. 161 Sinusoidal Steady-State (Solved Question 1)
  162. 162 Sinusoidal Steady-State (Solved Question 2)
  163. 163 Sinusoidal Steady-State (Solved Question 3)
  164. 164 Sinusoidal Steady-State (Solved Question 4)
  165. 165 Sinusoidal Steady-State (Solved Question 5)
  166. 166 RMS & Average Values of Standard Waveforms
  167. 167 Sinusoidal Steady-State (Solved Question 6)
  168. 168 Introduction to Network Theorems
  169. 169 Superposition Theorem
  170. 170 Superposition Theorem with Dependent Sources
  171. 171 Superposition Theorem (Problem 2)
  172. 172 Superposition Theorem (Problem 3)
  173. 173 Superposition Theorem (Problem 4)
  174. 174 Thevenin's Theorem
  175. 175 Thevenin's Theorem (Problem 1)
  176. 176 Thevenin's Theorem with Dependent Sources
  177. 177 Thevenin's Theorem (Problem 3)
  178. 178 Thevenin's Theorem (Problem 4)
  179. 179 Thevenin's Theorem (Problem 5)
  180. 180 Thevenin's Theorem (Problem 6)
  181. 181 Norton's Theorem
  182. 182 Source Transformation
  183. 183 Source Transformation (Problem 1)
  184. 184 Source Transformation (Problem 2)
  185. 185 Norton's Theorem with Dependent Source
  186. 186 Norton's Theorem (Problem 2)
  187. 187 Norton's Theorem (Problem 3)
  188. 188 Norton's Theorem (Problem 4)
  189. 189 Norton's Theorem (Problem 5)
  190. 190 Reciprocity Theorem
  191. 191 Reciprocity Theorem (Problem 1)
  192. 192 Reciprocity Theorem (Problem 2)
  193. 193 Millman's Theorem
  194. 194 Millman's Theorem (Solved Problem)
  195. 195 Compensation Theorem
  196. 196 Substitution Theorem
  197. 197 Tellegen's Theorem
  198. 198 Maximum Power Transfer Theorem
  199. 199 Maximum Power Transfer Theorem (Solved Problem 1)
  200. 200 Maximum Power Transfer Theorem (Solved Problem 2)
  201. 201 Maximum Power Transfer Theorem (Solved Problem 3)
  202. 202 Maximum Power Transfer Theorem (Solved Problem 4)
  203. 203 Maximum Power Transfer Theorem (Solved Problem 5)
  204. 204 Maximum Power Transfer Theorem (Solved Problem 6)
  205. 205 Maximum Power Transfer Theorem for AC Circuits
  206. 206 Maximum Power Transfer Theorem (Solved Problem 7)
  207. 207 Maximum Power Transfer Theorem (Solved Problem 8)
  208. 208 Maximum Power Transfer Theorem (Solved Problem 9)

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