Engineering Circuit AnalysisThe hallmark feature of this classic text is its focus on the student â¬" it is written so that students may teach the science of circuit analysis to themselves. Terms are clearly defined when they are introduced, basic material appears toward the beginning of each chapter and is explained carefully and in detail, and numerical examples are used to introduce and suggest general results. Simple practice problems appear throughout each chapter, while more difficult problems appear at the ends of chapters, following the order of presentation of text material. This introduction and resulting repetition provide an important boost to the learning process. Hayt's rich pedagogy supports and encourages the student throughout by offering tips and warnings, using design to highlight key material, and providing lots of opportunities for hands-on learning. The thorough exposition of topics is delivered in an informal way that underscores the authorsâ¬" conviction that circuit analysis can and should be fun. |
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amplifier amplitude applied average power Calculate capacitor circuit analysis circuit containing circuit elements circuit of Fig circuit shown coil complex number compute connected constant current flowing current source defined dependent source determine electrical energy equations example exponential expression FIGURE forced response forcing function Fourier transform frequency domain i₁ impedance inductance inductor input integral labeled Laplace transform linear load loop magnitude maximum mesh analysis mesh currents nodal analysis nodal voltages obtain Ohm's law op amp output voltage parallel parameters phase phasor plot power absorbed power delivered PRACTICE PSpice R₁ R₂ rad/s resistance resistor resonant result RLC circuit schematic shown in Fig simple simulation sinusoidal solution supernode superposition terminal theorem Thévenin equivalent two-port V₁ V₂ voltage and current voltage division voltage source Vout waveform wire zero ΙΩ ΚΩ