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Transcript
EE 4301 – Electromagnetic Engineering I – Spring 2006 Instructor: Prof. Matthew J. Goeckner Office: EC 2.918 Phone: (972) 883-4293 Email: goeckner @ utdallas . edu Office Hours: Tuesday 10 to 11 Thursday 3:30 to 5 Or by appointment Prerequisites: EE 3300, Phys 2326 Class: Room: CBW 1.201 Time: T,Th 2:00-3:15 Final: 2:00 pm Tuesday, April 25 Texts: Required: EE 4301 Class notes (Introduction to electromagnetism, MJ Goeckner) Found at www.utdallas.edu/~goeckner/emag_class THESE NOTES WILL BE UPDATED THROUGH OUT THE SEMESTER Recommended: Fundamentals of Electromagnetics, Lonngren and Savov Scitech Publishing, Raleigh NC, ISBN 1-981121-38-3 Mathematical Methods in the Physical Sciences, 2nd Edition, Mary Boas John Wiley, New York, 1983, ISBN 0-471-04409-1 NOTE YOU WILL BE EXPECTED TO LOOK AT OTHER BOOKS AS WELL AS THE ASSIGNED “BOOK” Topics: Vector Calculus (About 1-2 day review) Electrostatics and Magnetostatics Fields and Materials Maxwell’s Equations Theory Applications (Antenna, Transmission Lines) Grading: (dates subject to change) Midterm 1 (Thru Statics) 20% Approx Tues Feb 27th Midterm 2 (Thru Waves) 20% Approx Tues March 20th Final (Comprehensive) 20% 2:00 pm Tuesday, April 25 Class Notes* 20% Due each Tuesday Homework* 20% (Approx. 1 set each Thursday) *Homework and Notes handed in after the due date will not be counted! This rule will be strictly enforced! (This means that the homework/notes can be slid under my door that night. I usually arrive at ~8 AM.) Approximate Topic list and order for EMAG 1 and 2 EMAG 1 in Bold – EMAG 2 not bolded Section 1 Basic concepts and basic Mathematics History Maxwell’s equations in point and integral form Concept, Nature and sources of vector fields Proof of Divergence and Stokes theorems Point to Integral form Concept of vector and scalar potential Section II – Static electric and magnetic fields Electrostatic fields from point charge sources Magnetostatic fields from ‘point’ current sources Physical properties of materials (types) Electric and magnetic dipoles => and µ Collisions and Drag Material related electric and magnetic fields Maxwell’s equations and charge conservation Equivalence between integral and point forms Boundary conditions Section III – Dynamic electromagnetic fields Wave equation for Electric and Magnetic fields Vector and scalar potentials for dynamic systems Solutions to the waves equation Relationship between Electric and Magnetic fields Physical properties of materials (types) Energy and energy propoagation Boundary conditions Normal incident waves Oblique incident waves Waves with multiple boundaries Section IV – Applications for electromagnetic fields Antennas Electric dipole Magnetic dipole Reflectors Transmission lines Waveguides Microwave Optical Cavities (microwaves)
