EE 230 -ELECTROMAGNETIC THEORY

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Karabuk University Department of Electrical and Electronics Engineering Spring Semester 2014-2015 EE 230 -ELECTROMAGNETIC THEORY 2013/2014 Spring Instructor :Assoc. Prof. Dr. Habibe Uslu :Asst. Prof. Dr. Ahmet Hayrettin YÜZER Office place and phone :M-413 / +90 370 4332021-1568 :M-415 / +90 370 4332021-1584 @ :habibeuslu@karabuk.edu.tr :hayrettinyuzer@karabuk.edu.tr www :http://web.karabuk.edu.tr/yuzer/ee230.html Teaching Assistant :Ediz Delihasanlar, edizdelihasanlar@karabuk.edu.tr Room no: 217 Textbook: 1. Fundamentals of Engineering Electromagnetics, David K. Cheng, Addison - Wesley. Reference books: 1. Fundamentals of Applied Electromagnetics, F. T. Ulaby, E. Michelssen, U. Ravaoli 2. Microwave Engineering, David M. Pozar, Addison-Wesley 3. Principles and Applications of Electromagnetic Fields, R. Plonsey and R. Collin, McGraw-Hill. 4. Electromagnetic Fields and Waves, P. Lorrain and D. Corson, Freeman. 5. Electromagnetics, J. D. Kraus, McGraw-Hill. 6. Vector Analysis, Schaum`s outline series. 7. The Feynman Lectures on Physics, R. Feynman, Addison-Wesley. 8. Introductory Engineering Electromagnetics, Branko D. Popovic, Addison Wesley. Grading: Midterm exams: 40 % (written exam) Final exam:.60 % Ölü kisilikli, köle ruhlu insanların ne kendisine, ne de insanlıga bir faydası vardır. Köle zihinli insanlar, emir almaya ve aldıkları emri yerine getirmeye alıstıkları için ancak dikta rejimlerinin isine yararlar.

Course Schedule Week Subject 1 Introduction about course 2 Vector Analysis 3 Quiz 1, Vector Analysis 4 Quiz 2, Electric Fields 5 Electric Fields 6 Electric Fields 7 Electric Fields 8 Quiz 3, Steady Electric Currents 9 Midterm 10 Steady Magnetic Fields 11 Steady Magnetic Fields 12 Steady Magnetic Fields 13 Quiz 4, Time Varying Fields 14 Time Varying Fields All announcements will be published in the course web page given below http://web.karabuk.edu.tr/yuzer/ee230.htm

EE 230 COURSE OUTLINE [1] 1. Vector Analysis (Ch.2) a) Vector Algebra i) Addition ii) Subtraction iii) Multiplication (Dot Product, Cross Product, Product of Three Vectors) b) Orthogonal Coordinate Systems i) Cartesian Coordinates ii) Cylindrical Coordinates iii) Spherical Coordinates c) Vector Calculus i) Vector and Scalar Fields ii) Gradient of a Scalar Field iii) Line Integral, Surface Integral, Volume Integral iv) Divergence of a Vector Field v) Curl of a Vector Field vi) Divergence Theorem vii) Stoke s Theorem viii) Null Identities ix) Helmholtz Theorem 2. Static Electric Fields ( Ch.3) a) Coulomb s Law i) Definition of the electric field ii) Electric field due to a system of discrete charges iii) Electric field due to a continuous distribution of charge b) Gauss Law in free space and its applications c) Electrostatic Potential d) Material media in static electric field i) Conductors in static electric field ii) Dielectrics in static electric field iii) Polarization vector, polarization charge densities iv) Electric flux density, generalized form of Gauss Law v) Electric succeptibility, permittivity e) Boundary conditions for electrostatic field f) Capacitances and capacitors i) Parallel plate capacitor

ii) Coaxial cable capacitor iii) Spherical capacitor g) Poisson s and Laplace s Equations, 1D solutions h) Electrostatic energy and forces i) Electrostatic energy in terms of field quantities ii) Electrostatic forces iii) Method of virtual displacements i) Method of Images 3. Steady Electric Currents (Ch.4 ) a) Equation of continuity and Kirchoff s current law b) Current density and types of current c) Power dissipation and Joule s Law d) Resistance calculations 4. Static Magnetic Fields (Ch.5) a) Ampere s force law b) Definition of field c) The Biot-Savart Law and applications d) Vector Magnetic Potential e) Ampere s Circuital Law and applications f) Solenoidal property of field and flux conservation g) The magnetic dipole h) Magnetization and equivalent current densities i) Magnetization vector ii) Equivalent volume and surface magnetization current densities i) Magnetic field intensity and generalized Ampere s Circuital Law i) Magnetic susceptibility, permeability j) Behavior of magnetic materials k) Boundary conditions for magnetostatic fields l) Inductances and inductors m) Magnetic energy i) Magnetic energy in terms of field quantities n) Magnetic force and torques 5. Time Varying Fields (Ch.6) a) Faraday s law of electromagnetic induction i) Lenz law

ii) Motional and Transformer EMF s iii) A moving conductor in a magnetic field iv) A stationary circuit in a time varying magnetic field v) A moving circuit in a time-varying magnetic field

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