Review of DC Circuits:Notations andconventions; Ohm’s law, Kirchhoff’s voltage law and current law, Nodal and mesh analysis; Source transformation, Circuits with dependent sources.

First-order Circuits:Voltage-current relationships for inductor and capacitor, RL and RC circuits; Time domain solution to first-order differential equation, Time constant, Forced and natural responses.

Second-order Circuits:Second-order differential equation and solution; nodal and mesh analysis of second order and higher order circuits, Evaluation of initial conditions,  Forced response and natural response, Under-damped, critically damped and over-damped second order circuits,  Analysis of higher order circuits

Sinusoidal Steady State Analysis:Average value and r.m.s. value of a.c. waveforms, Review of complex numbers; Phasor representation of sinusoidal waveforms, Impedance and admittance, Series and parallel combination of impedances, Nodal and mesh analysis, Mutually-coupled circuits, Power in a.c. circuits, Maximum power transfer theorem, Series and parallel resonance.

Laplace Transform and network analysis:Laplace transform, Properties of Laplace transform, Application to network analysis, Initial value theorem, Final value theorem, Transform of step, ramp, impulse and other waveforms, Transform circuits, Network functions, T-, Phi-, Bridged-T, paralleled T, and ladder networks, Poles and zeros, stability of networks.

Two-Port Networks:z-,y-, hybrid and transmission parameters; T-,π-, and hybrid equivalent circuits; Relationship between sets of parameters, Parallel and series connection of two-port networks.