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Biju Patnaik University of Technology, Odisha
Electrical Engineering
Electromagnetic Theory
Biju Patnaik University of Technology, Odisha, Electrical Engineering Semester 4, Electromagnetic Theory Syllabus
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Unit - 1 Cartesian
1.1 Cartesian Cylindrical and Spherical Coordinate Systems
1.2 Scalar and Vector Fields
1.3 Line Surface and Volume Integrals
1.4 Coulomb’s Law
1.5 The Electric Field Intensity
1.6 Electric Flux Density and Electric Flux
1.7 Gauss’s Law
1.8 Divergence of Electric Flux Density Point Form of Gauss’s Law
1.9 The Divergence Theorem
1.10 The Potential Gradient
1.11 Energy Density
1.12 Poisson’s and Laplace’s Equations
1.13 Ampere’s Magnetic Circuital Law and its Applications
1.14 Curl of H
1.15 Stokes’ Theorem
1.16 Divergence of B
1.17 Energy Stored in the Magnetic Field
Unit - 2 The Continuity Equation
2.1 The Continuity Equation
2.2 Faraday’s Law of Electromagnetic Induction
2.3 Conduction Current Point Form of Ohm’s Law
2.4 Convection Current
2.5 The Displacement Current
2.6 Maxwell’s Equations in Differential Form and Maxwell’s Equations in Integral Form
2.7 Maxwell’s Equations for Sinusoidal Variation of Fields with Time
2.8 Boundary Conditions
2.9 The Retarded Potential
2.10 The Poynting Vector
2.11 Poynting Vector for Fields Varying Sinusoidally with Time
Unit - 3 Solution of the One-Dimensional Wave Equation
3.1 Solution of the OneDimensional Wave Equation
3.2 Solution of Wave Equation for Sinusoidally TimeVarying Fields
3.3 Polarization of Uniform Plane Waves
3.4 Fields on the Surface of a Perfect Conductor
3.5 Reflection of a Uniform Plane Wave Incident Normally on a Perfect Conductor and at the Interface of Two Dielectric Regions
3.6 The Standing Wave Ratio
3.7 Oblique Incidence of a Plane Wave at the Boundary between Two Regions
3.8 Oblique Incidence of a Plane Wave on a Flat Perfect Conductor and at the Boundary between Two Perfect Dielectric Regions
Unit - 4 Types of Two-Conductor Transmission Lines
4.1 Types of TwoConductor Transmission Lines
4.2 Circuit Model of a Uniform TwoConductor Transmission Line
4.3 The Uniform Ideal Transmission Line
4.4 Wave Reflection at a Discontinuity in an Ideal Transmission Line
4.5 Matching of Transmission Lines with Load
Unit - 5 Formulation of Field Equations
5.1 Formulation of Field Equations
5.2 Wave Types
5.3 The ParallelPlate Waveguide
5.4 The Rectangular Waveguide
5.5 TE and TM modes of propagation in a Rectangular waveguide
5.6 Radiation Properties of a Current Element
5.7 Radiation Properties of a HalfWave Dipole
5.8 Yagi–Uda Antenna
5.9 The Parabolic Reflector Antenna
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