chapter 1 circuit models and circuit law 1.1 systems of units 1.2 charge and current 1.3 voltage 1.4 current and voltage reference directions 1.5 power and energy 1.6 circuit elements problems chapter 2 basic laws 2.1 ohms law 2.2 kirchhoffs law 2.3 series resistors and voltage division,parallel resistors and current division 2.4 wye-delta transformation 2.5 source transformation problems chapter 3 methods of analysis 3.1 nodal analysis 3.2 nodal analysis with voltage sources 3.3 mesh analysis 3.4 mesh analysis with current sources 3.5 nodal versus mesh analysis problems chapter 4 circuit theorems 4.1 linearity property 4.2 superition 4.3 thevenins theorem 4.4 nortons theorem 4.5 mamum power transfer problems chapter 5 capacitors and inductors 5.1 capacitors 5.2 series and parallel capacitors 5.3 inductors 5.4 series and parallel inductors problems chapter 6 first-order circuits 6.1 dynamic circuit and initial, final values 6.2 the source-free rc circuit 6.3 the source-free rl circuit 6.4 singularity functions 6.5 step response of an rc circuit 6.6 step response of an rl circuit problems chapter 7 sinusoids and phasors 7.1 sinusoids 7.2 phasors 7.3 phasor relationshi for circuit elements 7.4 kirchhoffs laws in the frequency domain problems chapter 8 sinusoidal steady-state analysis 8.1 impedance and admittance 8.2 impedance(admittance) binations 8.3 sinusoidal steady state analysis problems chapter 9 sinusoidal steady-state power analysis 9.1 instantaneous and average power 9.2 effective or rms value 9.3 plex power 9.4 mamum average power transfer problems chapter 10 three-phase circuits 10.1 three-phase circuits 10.2 the relation of line voltage(current) and phase voltage(current) 10.3 balanced three-phase circuit 10.4 unbalanced three-phase systems 10.5 power in three-phase circuit problems chapter 11 magically coupled circuits 11.1 mutual inductance 11.2 contains coupling inductance circuit calculation 11.3 linear transformers 11.4 ideal transformers problems chaper 12 nonsinusoidal period current circuit 12.1 trigonometric fourier series 12.2 symmetry considerations 12.3 circuit applications 12.4 average power and rms values problems chapter 13 the plex frequency domain analysis of linear dynamic circuit 13.1 definition of the lace transform 13.2 properties of the lace transform 13.3 the inverse lace transform 13.4 operation circuit 13.5 application of lace transform method of linear circuit analysis 13.6 transfer functions problems references
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