## Circuit Theory |

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circuit theory

### Contents

Chapter 1 Basic Circuit Analysis | 1-1 |

Examples with Solutions 2 | 2-11 |

Review Questions 239 | 2-39 |

Examples with Solutions 3 32 | 3-32 |

Review Questions 3 81 | 3-81 |

er4 Resonance | 4-1 |

Examples with Solutions 434 | 4-34 |

Review Questions 449 | 4-49 |

Chapter 8 Analysing Three Phase Circuits 8 1 to 8 | 5-8 |

Examples with Solutions 5 33 | 5-33 |

Review Questions 5 56 | 5-56 |

Series RC Circuits 6 20 | 6-20 |

Chapter 7 Laplace Transform in Network Analysis 71 to 7 | 8-7 |

Examples with Solutions 844 | 8-44 |

Review Questions 8 62 | 8-62 |

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### Common terms and phrases

A/WV alternating quantity angle antiresonance Applying KVL bandwidth Calculate capacitance circuit shown Consider constant Cramer's rule current i(t current source current through inductor delta connected differential equation dot convention dt dt equivalent circuit Example expressed Find the current given Hence impedance induced e.m.f. inductance inductor initial conditions instant interms inverse Laplace transform jcoM Key Point KVL to loop line currents loop currents magnitude maximum power transfer Mutually induced voltage negative network shown Norton's theorem obtained Ohm's law open circuit parallel circuit phase currents phase voltage phasor diagram polarities positive ramp function reactance resistance resistor resonant circuit resonant frequency RLC circuit short circuit shown in Fig Solution Substituting value Superposition theorem switch terminals A-B Thevenin's equivalent Thevenin's theorem three phase system unit impulse function unit step function Vc(s voltage across capacitor voltage source volts wattmeter waveform zero