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1 Vector analysis and coordinate systems, Differential operators, Gauss and Stokes theorems, Null identities
2 Charge distributions, Coulomb's law, Electrostatic field in free space, Field lines, Electrostatic potential and work
3 Basic equations of Electrostatic, Gauss and Poisson equations, Polarization concept, dielectric and conductive bodies, boundary conditions
4 Image method, Capacitor, electrostatic energy density, Stored energy
5 Steady Electric Current, Current Density, Ohm's Law, Resistance, Current, Voltage; Kirchoff Current and Voltage Law
6 Static magnetic field in free space, Lorentz force, Biot-Savart law, Magnetic field lines
7 Ampere's law, Vector potential, Fundamental equations of Magnetostatic,
8 Magnetic materials, Hysteresis, Boundary conditions, Inductance, Magnetic Energy
9 Generalized Ampere's law, Faraday's Law, Maxwell's equations and fundamentals of Electrodynamics
10 Magnetic circuits, Transformers, Electromechanical energy conversion
11 Time domain relations of R, L, C elements, Harmonic sources in time, Phasor Representation and circuit equivalents
12 Time and Frequency domain Wave Equations and General Solutions
13 Time-Harmonic Waves, Phasor Representation, Electromagnetic Spectrum
14 Plane Waves, Frequency, Wavelength, Phase Velocity, Some Application of Electromagnetic Waves |