MODULE-I (10 HOURS)
Representation of vectors in Cartesian, Cylindrical and Spherical coordinate system, Vector products,
The Law of force between elementary electric Charges, Electric Field Intensity and Potential due to
various charge configuration, Electric Flux density, Gauss law and its application, Application of Gauss
Law to differential Volume element, Divergence Theorem. Potential Gradient, Dipole, and Energy
Density in Electrostatic Field.
MODULE-II (10 HOURS)
Current and Conductors, Continuity of Current, Conductor Properties and Boundary Conditions. The
Method of Images, Nature of dielectric Materials, Boundary Conditions for Perfect Dielectric Materials
Capacitance, Poisson’s & Laplace equation, Uniqueness Theorem, Analytical Solution in one dimension.-
Use of MATLAB
Steady Magnetic Field: Biot Savart Law, Ampere’s Circuital Law, Stoke’s Theorem, Scalar and Vector
MODULE-III (10 HOURS)
Force on a moving Charge, Force on a differential Current Element, Force & Torque Magnetisation &
Permeability, Magnetic Boundary Conditions, Inductance & Mutual Inductance.
Time Varying Fields: Faraday’s Law, Displacement Current, Maxwell’s Equation.
MODULE-IV (10 HOURS)
Wave propagation in Free Space, Dielectric, and Good Conductor. Poynting’s Theorem and wave power,
Wave polarization, Reflection and Transmission of Uniform Plane Waves at Normal & Oblique
incidence, Standing Wave Ratio, Basic Wave Guide Operation and Basic Antenna Principles.