Electromagnetics Theory

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Electromagnetic theory basically discusses the relationship between the electric and magnetic fields. The basic principles of electromagnetic theory include electrostatics, electromagnetic induction, magnetic fields of steady currents, etc. This training material has been developed based on the latest GATE syllabus. This video class has been developed based on the latest GATE syllabus and will be useful for Electrical Engineering students as well as for GATE exams preparation.

  • Electromagnetics Theory Vector Analysis
    • Electromagnetics Theory - Home
    • Electromagnetics Theory - Addition Of Vectors
    • Electromagnetics Theory - Cross Product
    • Electromagnetics Theory - Properties Of Vector
    • Electromagnetics Theory - Scalar Triple Product
    • Electromagnetics Theory - Scalar Vector Quantity
    • Electromagnetics Theory - Vector Equality
    • Electromagnetics Theory - Vector Field
    • Electromagnetics Theory - Vector Product
    • Electromagnetics Theory - Continuity Of Current
  • Fundamental of EM theory
    • Electromagnetics Theory - Curl
    • Electromagnetics Theory - Curl Example
    • Electromagnetics Theory - Divergence
    • Electromagnetics Theory - Divergence Example
    • Electromagnetics Theory - Dot Product
    • Electromagnetics Theory - Dot Product Examples
    • Electromagnetics Theory - Gradient
    • Electromagnetics Theory - Right Hand Rule
  • Electrostatics
    • Electromagnetics Theory - Gauss Law
    • Electromagnetics - Application Of Gauss Law
    • Electromagnetics Theory - Coulomb's Law
    • Electromagnetics Theory - Electric Field
    • Electromagnetics Theory - Electric Flux Density
    • Electromagnetics - Gauss Divergence Theorem
    • Electromagnetics Theory - Potential
  • Uniform Plane Waves
    • Electromagnetics - Poynting Theorem Unit
    • Electromagnetics - Poynting Theorem Part 1
    • Electromagnetics - Poynting Theorem Part 2
    • Poynting Theorem Example - Part 1
    • Poynting Theorem Example - Part 2
    • Electromagnetics - Poynting Theorem Example 1
    • Electromagnetics - Poynting Theorem Example 2
    • Reflection Of Plane Wave At Normal Incidence
    • Electromagnetics Theory - Basics Of Plane Wave
    • Electric Field Boundary Condition
    • Electromagnetics Theory - Intrinsic Impadence
    • Electromagnetics Theory - Loss Tangent
    • Electromagnetics - Boundary Condition
    • Electromagnetics - Boundary Condition Example
    • Electromagnetics Theory - Plane Wave In Medium
    • Electromagnetics Theory - Skin Depth
    • Electromagnetics Theory - Wave Equation
    • Electromagnetics Theory - Polarization
    • Electromagnetics - Numerical On Polarization
    • Numerical On Average Power Plane Waves
    • Numerical On Circular Polarization
    • Numberical On Transmissed Power Plane Wave
    • Electromagnetics - Numerical On Plane Waves
    • Electromagnetics - Voltage Standing Wave Ratio
    • Electromagnetics - Introduction To Smith Chart
    • Electromagnetics - Numerical On Smith Chart
    • Electromagnetics Theory - Impedance Matching
    • Electromagnetics Theory - Single Stub Matching
  • Transmission Line
    • Introduction To Transmission Line
    • Transit Time In Transmission Line
    • Transit Time Effect In Transmission Line
    • Primary Constants Of Transmission Line
    • Transmission Line Equation Part 1
    • Transmission Line Equation Part 2
    • Electromagnetics - Characteristic Of Impedance
    • Different Type Of Transmission Line Loss Less
    • Different Type Of Transmission Line Low
    • Different Type Of Transmission Line Low Loss
    • Electro Magnetics Theory - Reflection Coefficient
    • Input Impedance Of Transmission Lines
    • Input Impedance Of Open Circuit
    • Input Impedance Of Short Circuit
    • Input Impedance Of Quarter Wave Length Transmission Line
    • Distortion Less Transmission Line
    • Electromagnetics - Power In Transmission Line
    • Voltage Standing Wave Ratio Transmission Line Numerical Example
    • Transmission Line Numerical Example 1
    • Transmission Line Numerical Example 2
    • Input Impedance Transmission Line Numerical Example
    • Reflection Coefficient Transmission Line Numerical Example
    • Input Impedance Transmission Line Example
    • Numerical On Average Power Transmission Line
    • Range Of Reflection Coefficient And VSWR
  • Magneto Statics
    • Electromagnetics Theory - Ampere's Circuital Law
    • Electromagnetics Theory - Biot Savart's Law
    • Electromagnetics Theory - Stroke's Theorem
  • Maxwells Equations
    • Electromagnetics Theory - Maxwell's 1st Equation
    • Electromagnetics - Maxwell's 2nd Equation
    • Electromagnetics - Maxwell's 3rd Equation
    • Electromagnetics - Maxwell's 4th Corrected Equation
    • Electro Magnetics - Maxwell's 4th Equation
  • Coordinate System
    • Rectangular Cartesian Coordinate System
    • Electromagnetics - Cylindrical Coordinate System
    • Electromagnetics - Spherical Coordinate System
  • Wave Guide
    • Electromagnetics - Introduction To Wave Guide
    • Electromagnetics - Parallel Plane Wave Guide
    • Transverse Magnetic Mode Rectangular Wave Guide
    • Transverse Electric Mode Rectangular Wave Guide
    • Cut Off Frequency Of Wave Guide
    • Numerical On Cut Off Frequency Rectangular Wave Guide
    • Numerical On Impedance Rectangular Wave Guide
  • Antenna Theory
    • Electromagnetics - Introduction To Antenna
    • Radiation Characteristic Of Antenna
    • Electromagnetics - Hertzian Dipole Antenna
    • Electromagnetics - Numerical On Hertz Dipole
    • Numerical On Hertzian Dipole Antenna
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