Schaum's Outline of Theory and Problems of Electric Circuits
This package aims to transform the study of this fundamental subject. With theorems such as superposition, reciprocity and compensation developed and fully solved, students can go on to solve circuit transients using classical differential equations and by Laplace transforms.
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DC RESISTIVE CIRCUITS
DC MESH AND NODE ANALYSIS
15 other sections not shown
admittance amplitudes applied voltage average power capacitance circuit element circuit of Fig coefficients complex numbers constant corresponding current source Determine effective line voltage equivalent circuit EXAMPLE exponential Fourier series Find the current flux Fourier series inductance inductor initial charge lagging Laplace transform line currents line spectrum linear loop magnitude Mathcad maximum network of Fig network shown node voltage method Norton equivalent Obtain the current odd function parallel circuit phase angle phasor phasor diagram phasor voltage polarity positive power factor power triangle rad/s reactance resistance resistor resonance response resulting current RL circuit s-domain Section series circuit series RLC circuit shown in Fig sine sinusoidal SOLVED PROBLEMS Supplementary Problems switch is closed terminals theorem three-phase transient trigonometric Fourier series trigonometric series variable voltage division voltage source wattmeters waveform waveform shown Y-connected load zero