كلية الهندسة - جامعة عين شمس, الرئيسية

الرئيسية  >  كلية الهندسة - جامعة عين شمس, الرئيسية

Fundamentals of Electromagnetics

What Will Learn?

  • Course Aims
    • Provide the fundamental concepts of electromagnetic theory. • Explain the behavior of electromagnetic waves propagation in the presence of material media and their interfaces. • Define the high frequency characteristics of transmission line systems. • Improve the students’ skills with respect to practical considerations.
  • Course Goals
  • Quality Education
  • Industry, Innovation and Infrastructure

Requirements

PHM213s AND EPM212s

Description

  • English Description

    Time Varying Fields, Maxwell Equations, Displacement Current, Boundary Conditions for Electromagnetics, Plane Wave Propagation, Time Harmonics Fields, Complex Permittivity, Uniform Plane Wave in Lossless Media, General Relation between Electric and Magnetic Fields, Wave Polarization, Plane Wave Propagation in Lossy Media, Plane Wave Propagation in Low-Loss Dielectric and Good Conductor, Electromagnetic Power Density in Lossless and Lossy Media, Poynting Theorem, Wave Reflection and Transmission at Normal Incidence, Boundary between Lossless Media and Lossy Media, Snell’s Law, Multiple reflections from a dielectric slab, Power flow in Lossless Media, Wave Reflection and Transmission at Oblique Incidence, Brewster Angle, Perpendicular and Parallel Polarizations, Reflectivity and Transmissivity, Transmission Lines Theory, Role of Wavelength, Lumped Element Model, Transmission Line Equations, Wave Propagation on Transmission Line, Wave Impedance and Power flow on Transmission Lines, Smith Chart, Impedance Matching, Special Cases of Transmission Lines, Impedance to Admittance Transformation, Single Stub Matching, Double Stub Matching.
  • Arabic Description

    Time Varying Fields, Maxwell Equations, Displacement Current, Boundary Conditions for Electromagnetics, Plane Wave Propagation, Time Harmonics Fields, Complex Permittivity, Uniform Plane Wave in Lossless Media, General Relation between Electric and Magnetic Fields, Wave Polarization, Plane Wave Propagation in Lossy Media, Plane Wave Propagation in Low-Loss Dielectric and Good Conductor, Electromagnetic Power Density in Lossless and Lossy Media, Poynting Theorem, Wave Reflection and Transmission at Normal Incidence, Boundary between Lossless Media and Lossy Media, Snell’s Law, Multiple reflections from a dielectric slab, Power flow in Lossless Media, Wave Reflection and Transmission at Oblique Incidence, Brewster Angle, Perpendicular and Parallel Polarizations, Reflectivity and Transmissivity, Transmission Lines Theory, Role of Wavelength, Lumped Element Model, Transmission Line Equations, Wave Propagation on Transmission Line, Wave Impedance and Power flow on Transmission Lines, Smith Chart, Impedance Matching, Special Cases of Transmission Lines, Impedance to Admittance Transformation, Single Stub Matching, Double Stub Matching.
  • قسم
    هندسة الإلكترونيات والإتصالات
  • الساعات المعتمدة
    3
  • الدرجات
    الإجمالي ( 100 ) = نصف العام (20) + tr.Student Activities (30 = tr.Industry 0% , tr.Project 5% , tr.Self_learning 5% , tr.Seminar 20% ) + tr.Oral/Practical (10) + درجة الامتحان (40)
  • الساعات
    ساعات المحاضرة: 2, ساعات التعليم: 2, ساعات المعمل: 1
  • Required SWL
    125
  • Equivalent ECTS
    5
  • • David M. Pozar, “Microwave engineering”, 4th Edition, John Wiley and sons, Inc., ISBN 978-0-470-63155-3, 2011.
  • • Fawwaz T. Ulaby, and Umberto Ravaioli, “Fundamentals of Applied Electromagnetics”, 7th Edition, Pearson, ISBN-13: 978-0-13-335681-6, ISBN-10: 0-13-335681-7, 2015.
  • • William H. Hayt, Jr., and John A. buck, “Engineering Electromagnetics”, 8th Edition, McGraw Hill, ISBN 978-0-07-338066-7, 2012. - David M. Pozar, Microwave engineering, 4th Edition, John Wiley and sons, Inc., ISBN 978-0-470-63155-3, 2011.