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Course Outline 2020/2021 EEE2215 Electromagnetics I 1. 2. 3. 4. 5. Introduction Fundamental units in SI system Vector Analysis Coordinate systems Static Electric fields Coulomb's law Electric field intensity Electric Field due to continuous charge distribution Electric field lines of charges of opposite and same sign and Equipotential contours Electric Flux Electric flux over closed surface, , Gauss' law Static Electric fields in Dielectrics Understanding of Dielectric Materials Boundary relations Electric fields Divergence theorem Theory of images Static Magnetic fields of steady Electric Current Effect of a magnet on a current carrying wire The magnetic field of a current carrying element; The Biot Savart Law magnetic field of an infinite linear conductor force between two linear parallel conductors magnetic field of a current carrying loop magnetic flux and magnetic flux density magnetic flux of closed surface magnetic relations in vector notation; cross product Ampere circuital law and H Ampere’s circuital law applied to a conducting medium and the maxwell’s equation Energy considerations in magnetic circuits. Boundary relations in magnetic fields Time dependent electromagnetic fields Faradays Law Moving conductor in a magnetic field Stokes theorem Maxwell’s equation from Faradays law Maxwell’s equation from Ampere’s Law Poisson’s and Laplace equations REFERENCE 1. ELECROMAGNETICS – John Kraus – 3rd edition ELECROMAGNETICS FIELDS – R.MEENAKUMARI, R. SUBASRI – 2ND EDITION