1. Vector Analysis :
Scalars & vectors, Dot & cross products, Co-ordinate systems & conversions.
2. Coloumb's Law & Electric Field Intensity :
Coloumb's law, Fields due to different charge distributions
3. Electric Flux Intensity, Gauss's Law and Divergence :
Concept of electric flux density, Guass's law & its application, Differential volume element, Divergence, Maxwell's first eqn. & divergence theorem.
4. Energy & Potential :
Energy expended in moving a point charge in electrical field, Line integral, Definition of potential difference & potential, Potential field of a point charge & system of charges,
Potential gradient, Dipole, Potential density in electro static field.
5. Conductors, Di-electrics & Capacitance :
Definition of currents & current density, Continuity eqn., Metallic conductors & their properties, Semiconductors, Die-electric materials, Characteristics, Boundary conditions, Capacitance of a parallel plate capacitor, Coaxial cable & spherical capacitor.
6. Poison's & Laplace Equation :
Poison's & laplace's eqn., Uniqeness theorem, Examples of solutions of laplace & poison eqn.
7. Steady Magnetic Field :
Biot-savart's law, Ampere's circuit law, Concept of curl, Stoke's theorem, Definition of magnetic flux & magnetic flux density, Scalar & vector magnetic potential.
8. Magnetic Forces, Materials & Inductance :
Force on a moving charge, Force on a differential current element, Force and torque on a close circuit, Magnetisation and permeability, Magnetic boundary condition, Magnetic circuit inductance & mutual inductance.
9. Time Varying Field Maxwell's Equation :
Faraday's law, Displacement current, Maxwell eqn. in point & integral form.
10. The Uniform Plane Waves :
Wave motion in free space, Perfect dielectric, Lossy di-electric poynting vector, Power consideration, Propagation in good conductor, Phenomena of skin effect, Reflection of uniform plane waves.
* Books :
1. Engineering Electromagnetics by William Hayt. McGraw Hill.
2. Problems in Electromagnetics by Edminister Schaum Series.
