Electromagnetic Field Theory (Technical) By U. A. Bakshi and A. V. Bakshi
Electromagnetic Field Theory (Technical) is ebook for electrical engineering college students by U. A. Bakshi and A. V. Bakshi.
Introduction Vector relation in rectangular, Cylindrical, Spherical and basic curvilinear co-ordinate system, Idea and bodily interpretation of gradient, Divergence and curl, Inexperienced`s and Stoke`s theorems. Electrostatics Electrical area depth and flux density. Electrical area on account of varied cost configurations, The potential capabilities and displacement vector, Gauss`s legislation. Poisson`s and Laplace`s equation and their resolution, Uniqueness theorem, Continuity equation, Capacitance and electrostatics power, Field willpower by technique of photos, Boundary situations, Field mapping and idea of area cells. Magnetostatics Magnetic area depth, flux density and magnetization, Faraday`s legislation, Biot-Savart`s legislation, Ampere`s legislation, Magnetic scalar and vector potential, Self and mutual inductance, Vitality saved in magnetic area, Boundary situations, Analogy between electrical and magnetic area, Field mapping and idea of area cells. Time Various Fields Displacement currents and equation of continuity, Maxwell`s equations, Uniform airplane wave in free area, Dielectrics and conductors, Pores and skin impact sinusoidal time variations, Reflection and refraction of uniform airplane wave, Standing wave ratio, Poynting vector and energy issues. Radiation, EMI and EMC Retarded potentials and ideas of radiation, Radiation from a small present aspect. Radiation resistance : Introduction to Electromagnetic Interference and Electromagnetic compatibility, EMI coupling modes, Strategies of eliminating interference, Shielding, Grounding, Performed EMI, EMI testing : Emission testing, susceptibility testing.