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Electrostatics and Magnetostatics

What Will Learn?

  • Course Aims
    The aim of this course is to provide students with the needed knowledge to define fundamental concepts and terminologies of electrostatics and magnetostatics problems. It will also provide the students with skills to solve to solve the Electromagnetics problems in steady state condition.
  • Course Goals
  • Quality Education
  • Industry, Innovation and Infrastructure

Requirements

PHM122

Description

  • English Description

    Coulomb’s law, Electric field intensity, Field of point charge, line charge, surface charge, and continuous volume charge, Electric flux, Gauss’s law, Divergence, Electric energy and potential, Electric conductors, Principle of images, Electrical capacitance, Dielectric materials, Dipoles, Dielectric permittivity, Poisson’s equation, Laplace’s equation. Steady magnetic fields, Ampere’s law, Magnetic forces, Magnetic materials, Magnetic circuits, Inductance, time varying fields, Maxwell’s equations, Wave equations, Propagation in free space.
  • Arabic Description

    Coulomb’s law, Electric field intensity, Field of point charge, line charge, surface charge, and continuous volume charge, Electric flux, Gauss’s law, Divergence, Electric energy and potential, Electric conductors, Principle of images, Electrical capacitance, Dielectric materials, Dipoles, Dielectric permittivity, Poisson’s equation, Laplace’s equation. Steady magnetic fields, Ampere’s law, Magnetic forces, Magnetic materials, Magnetic circuits, Inductance, time varying fields, Maxwell’s equations, Wave equations, Propagation in free space.
  • Department
    Electronics and Communications Engineering
  • Credit Hours
    3
  • Grades
    Total ( 100 ) = Midterm (20) + tr.Major Assessment (35 = tr.Industry 0% , tr.Project 20% , tr.Self_learning 0% , tr.Seminar 20% ) + tr.Minor Assessment (5) + Exam Grade (40)
  • Hours
    Lecture Hours: 2, Tutorial Hours: 2, Lab Hours: 0
  • Required SWL
    125
  • Equivalent ECTS
    5
  • -W. Hayt and J. Buck, "Engineering Electromagnetics", 8th Edition, McGraw Hill, 2011.
  • -Fawwaz T. Ulaby & Umberto Ravaioli, “Fundamentals of Applied Electromagnetics”, Prentice Hall; Seventh Edition. October 11, 2014.
  • - S.R. Pennock and Peter R. Shepherd. Microwave engineering with wireless applications. McGraw-Hill, 1998., eISBN: 978-1-349-14761-8 ( Available at EKB) - W. Hayt and J. Buck, Engineering Electromagnetics, 8th Edition, McGraw Hill, 2011.