Review of discrete -time signals and systems – Classification, Z- transform – ROC-stability/causality analysis, DTFT- Frequency domain sampling – DFT-Properties- Frequency analysis of signals using DFT-FFT Algorithm-Radix-2 FFT algorithms-Applications of FFT. 1 - 3

Coulomb’s law – Electric Field Intensity – Electric Flux – Gauss’s Law – Potential due to Point, Line and Surface Charge Distributions. 4 - 7

Different current flow mechanisms – Continuity equation and relaxation time - Boundary conditions – Laplace and Poisson’s equations - Solutions – Analytical Methods – Variables separable methods – Method of images – Numerical Techniques - Finite Difference Method – Electrostatic Energy – Capacitance Calculations 13 - 15

Magnetic Fields – Magnetic Flux – Biot Savart’s Law – Ampere’s Law – Magnetic Torque and Moment – Forces due to Magnetic Fields – Vector Potential – Magnetic Boundary Conditions – Inductors and Inductances – Calculations - Magnetic Energy 13 - 15

Faraday’s law – Lenz’s Law – Maxwell’s equations – Displacement current – Maxwell’s Equations in Final Forms – Time Varying Fields - Relation between field theory and circuit theory 21

Propagation of waves in lossy dielectrics, conductors and free space – Skin effect – Complex Permittivity- Power and Poynting Vector. 22 - 23

Sources, Effects and application of Electromagnetic fields 24 - 25