Electromagnetic Theory (EE2202) Full Scanned Lecture Notes - All Units

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Anna University , Chennai

Department of B.E-Electrical and Electronics Engg
Third Semester
Electromagnetic Theory 
UNIT -1
ELECTROMAGNETIC FIELD CONCEPT


  • Vector Analysis
  • Coordinate system
  • Types
  • Parameters of co-ordinate system
  • Problems
  • Differential Operator
  • Properties
  • Condition of divergence and curl:
  • Problems
  • STOKES’S THEOREM
  • DIVERGENCE THEOREM
  • Proof
  • Problems
UNIT-2
ELECTROSTSTIC FIELD

  • Columb’s law
  • Problems
  • Continuous distribution of charge:
  • Electric field intensity
  • Potential difference:
  • Absolute potential:
  • Conservative field
  • Problems
  • GUASS LAW:
  • Proof
  • Poisson’s and laplace’s equation:
  • Laplace equation
  • Electric field intensity between two shells
  • Potential between two concentric circles
  • Co-axial cylinder
  • Capacitors and capacitance:
  • Electrostatic energy
  • Energy density
  • Method of images
  • Polarization:
  • Boundary condition:
  • Proof
  • Dielectric strength
UNIT-3
MAGNETIC STATIC FIELD:

  • Magnetic flux
  • Magnetic flux density (b)
  • Relation between magnetic flux density B and H
  • Magnetic field intensity (H)
  • Magnetic gauss law
  • Biot-savart’s law
  • Ampere’s law
  • Application of biot-savart’s law
  • MAGNETIC POTENTIAL:
  • Scalar magnetic potential:
  • Vector magnetic potential:
  • Boundary condition
  • Proof
  • Magnetic dipole
  • COUPLED CIRCUITS
  • Electromagnetic induction:
  • Faraday’s 1st law
  • Faraday’s 2nd law
  • Self induction
  • Mutual induction
  • Coefficient of coupling
  • Inductance of toroid:
  • Inductance of two transmission line:
UNIT -4
MAXWELL’s EQUATION

  • Maxwell’s equation-1
  • Ampere critical law
  • Maxwell’s eqation-2
  • Faraday’s law
  • Maxwell’s eqution-3
  • Electric gauss law
  • Maxwell’s equation-4
  • Magnetic gauss law
  • Problems
  • Comparison between circuit theory and field theory
UNIT-5
ELECTROMAGNETIC WAVES

  • Wave
  • Plan wave
  • Transverse electromagnetic wave equation (TEM)
  • Characteristic impedance
  • Pointing theorem
  • Slepian vector (N)
  • Loss tangent or dissipation factor:
  • Depth of penetrationskin depth)
  • Reflection co-efficient:
  • Transmission co-efficient:
  • Wave incident obliquely on a perfect dielectric
  • Vertical polarization
  • Horizontal polarization
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