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ECE339: Comprehensive Guide to Electromagnetic Theory - Fields Study - Prof. David Atkinso, Study notes of Electrical and Electronics Engineering

University of Idaho (U of I)Electrical and Electronics Engineering

Prof. David Atkinson

An in-depth exploration of ece339: background study in electromagnetic theory. Topics include vector algebra, coordinate systems, vector calculus, electric fields, steady electric currents, magnetic fields, time varying fields, and maxwell's equations. Learn about concepts such as coulomb's law, ohm's law, lorentz force law, and gauss's law.

Typology: Study notes

Pre 2010

Uploaded on 08/19/2009

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Download ECE339: Comprehensive Guide to Electromagnetic Theory - Fields Study - Prof. David Atkinso and more Study notes Electrical and Electronics Engineering in PDF only on Docsity! ECE339 Background Study in Electromagnetic Theory 1. Introduction to Course 2. Review of Mathematics A. Vector Algebra Addition Dot Product Cross Product Unit Vectors Surface Vectors B. Coordinate Systems Cartesian Spherical Cylindrical C. Vector Calculus Gradient Divergence Curl Laplacian Helmholtz Theorem 3. Electric Fields A. Concept of Charge, Electric Fields B. Coulomb's Law C. Charge Densities D. Electric Scalar Potential E. Energy and Forces F. Dielectrics G. Electric Flux, Flux Density H. Electric Boundary Conditions I. Capacitance J. Gauss's Law 4. Steady Electric Currents A. Introduction B. Ohm's Law C. Voltage, Electromotive Force and Kirchhoff's Voltage Law D. Boundary Conditions E. Resistance 5. Magnetic Fields A. Definition, relation to electric field B. Lorentz Force Law C. Magnetostatics, Ampere's Circuital Law D. Magnetic Vector Potential E. Law of Biot-Savart F. Magnetic Dipoles G. Magnetization and Current Densities H. Magnetic Field Intensity $\vec{H}$ I. Permeability J. Magnetic Circuits K. Paramagnetic, Diamagnetic and erromagnetic Materials L. Magnetic Boundary Conditions M. Inductance N. Magnetic Energy O. Magnetic Forces on Circuits 6. Time Varying Fields and Maxwell's Equations A. Faraday's Law and Lenz's Law B. Maxwell's Equations C. Potentials and Gauge Theory D. Boundary Conditions E. Electrodynamics F. Vector and Scalar Wave Equations G. Helmholtz Equation H. Applications

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ECE339: Comprehensive Guide to Electromagnetic Theory - Fields Study - Prof. David Atkinso, Study notes of Electrical and Electronics Engineering

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