• Engineering Electromagnetics
    • A Course on Essential Elements for Electrical and Computer Engineering

    News : The Main Text-Books (Rao & Ulaby) are downloadable below (in references section)


    Course No. 25-733 for undergraduate students
    Time : Sundays & Tuesdays 7:30 - 9:00 AM
    Room : Bargh #5

    Mid-Term Exam :
    Final Exam : Date 1399/04/02 Time :15:30

    Grading Policy :
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    • HWs (1 Mark)

    • Quizzes (1 Mark)

    • Simulation with COMSOL (1 Mark)

    • Midterm (8 Marks)

    • Final (9 Marks)
    Summary of Lectures
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    1. Session #1

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    Homeworks (take home):
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    1. Download Homeworks :

      1. Homework #1 (delivery 10-12-1398)

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    2. Upload your Homework's Solution
      3. only JPG, JPEG, PNG & GIF files are allowed (Maximum size 500K)
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    Sylabuses :
    1. Vectors and Fields (2 Sessions)
      2.
      1. Vector Algebra
      2. Cartesian Coordinate System
      3. Cylindrical and Spherical Coordinate Systems
      4. Scalar and Vector Fields
      5. The Electric Field
      6. The Magnetic Field
      7. Lorentz Force Equation

    2. Maxwell’s Equations in Integral Form (4 Sessions)
      3.
      1. The Line Integral
      2. The Surface Integral
      3. Faraday’s Law
      4. Ampère’s Circuital Law
      5. Gauss’ Laws
      6. The Law of Conservation of Charge
      7. Application to Static Fields

    3. Maxwell’s Equations in Differential Form, and Uniform Plane Waves in Free Space (6 Sessions))
      1. Faraday’s Law and Ampère’s Circuital Law
      2. Gauss’ Laws and the Continuity Equation
      3. Curl and Divergence
      4. Uniform Plane Waves in Time Domain in Free Space
      5. Sinusoidally Time-Varying Uniform Plane Waves in Free Space
      6. Polarization of Sinusoidally Time-Varying Vector Fields
      7. Power Flow and Energy Storage

    4. Fields and Waves in Material Media (7 Sessions)
      5.
      1. Conductors and Semiconductors
      2. Dielectrics
      3. Magnetic Materials
      4. Wave Equation and Solution for Material Medium
      5. Uniform Plane Waves in Dielectrics and Conductors
      6. Boundary Conditions
      7. Reflection and Transmission of Uniform Plane Waves

    5. Electromagnetic Potentials and Topics for Circuits and Systems (5 Sessions)
      1. Gradient, Laplacian, and the Potential Functions
      2. Potential Functions for Static Fields
      3. Poisson’s and Laplace’s Equations
      4. Capacitance, Conductance, and Inductance
      5. Electric- and Magnetic-Field Systems
      6. Magnetic Circuits
      7. Electromechanical Energy Conversion

    6. Transmission-Line Essentials for Digital Electronics (4 Sessions)
      7.
      1. Transmission Line
      2. Line Terminated by Resistive Load
      3. Transmission-Line Discontinuity
      4. Lines with Reactive Terminations and Discontinuities
      5. Lines with Initial Conditions
      6. Interconnections between Logic Gates
      7. Crosstalk on Transmission Lines


    References :
    1. Elements of Engineering Electromagnetics 6th Edition by Nannapaneni Narayana Rao
    2. Fundamentals of Applied Electromagnetics,7th Edition, by Fawwaz T. Ulaby & Umberto Ravaioli
    3. Field and Wave Electromagnetics, 2nd Edition by David K. Cheng
    4. Fields and Waves in Communication Electronics, 3rd Edition by Simon Ramo, by John R. Whinnery, Theodore Van Duzer
    5. Introduction to Electrodynamics 4th Edition by David J. Griffiths
    6. Electromagnetics With Application 5th Edition by Kraus
    7. Classical Electrodynamics 3rd Edition by John David Jackson