## Electric CircuitsElectric Circuits, Eighth Editionfeatures a new design,a four-color format, and 80% of chapter problems have been updated. In the midst of these changes, the book retains the goals that have made it a best-seller: 1) To build an understanding of concepts and ideas explicitly in terms of previous learning; 2) To emphasize the relationship between conceptual understanding and problem solving approaches; 3) To provide readers with a strong foundation of engineering practices.Chapter topics include Circuit Variables; Circuit Elements; Simple Resistive Circuits; Techniques of Circuit Analysis; The Operational Amplifier; Inductors, Capacitors, and Mutual Inductance; Response of First-OrderRLandRCCircuits; Natural and Step Responses ofRLCCircuits; Sinusoidal Steady-State Analysis; and more.For anyone interested in circuit analysis. |

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### Contents

Circuit Variables | 2 |

Circuit Elements | 22 |

Simple Resistive Circuit | 31 |

Copyright | |

53 other sections not shown

### Common terms and phrases

amplifier amplitude ASSESSMENT PROBLEMS Objective bandpass filter bandreject filter branch currents Calculate capacitor circuit analysis circuit elements circuit for Example circuit in Fig circuit model circuit shown coil component connected cuit current source cutoff frequency Derive electrical energy stored equations equivalent circuit expression Find the power Fourier series Fourier transform H(jv high-pass filter ideal impedance inductor initial integral Laplace transform load low-pass filter magnitude mesh currents mesh-current method method to find node-voltage method Note Ohm’s law op amp output voltage parallel parameters phase angle phasor plot power dissipated Practical Perspective PSPICE PSPICE Figure rad>s resistor RLC circuit s-domain shown in Fig shows sinusoidal solution solve steady-state step response switch Thévenin equivalent three-phase tion total power transfer function try Chapter Problems vo(t voltage and current voltage division voltage drop voltage source voltmeter zero