Download EEE2215 ELECTROMAGNETICS I Course ouline

Course Outline 2020/2021
EEE2215 Electromagnetics I
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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