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Electromagnetic Theory

Electromagnetic Theory covers the basic principles of electromagnetism: experimental basis, electrostatics, magnetic fields of steady currents, motional e.m.f. and electromagnetic induction, Maxwell's equations, propagation and radiation of electromagnetic waves, electric and magnetic properties of matter, and conservation laws. This is a graduate level subject which uses appropriate mathematics but whose emphasis is on physical phenomena and principles. It has a weightage of 8 to 10 marks

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About Electromagnetic Theory

Electromagnetic Theory covers the basic principles of electromagnetism: experimental basis, electrostatics, magnetic fields of steady currents, motional e.m.f. and electromagnetic induction, Maxwell's equations, propagation and radiation of electromagnetic waves, electric and magnetic properties of matter, and conservation laws. This is a graduate level subject which uses appropriate mathematics but whose emphasis is on physical phenomena and principles. It has a weightage of 8 to 10 marks

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Syllabus

Chapter 1

Vectors & Coordinate Systems

1.1_Introduction of EMT & Vector Analysis

1.2 Co-ordinate System

1.3_Vector Calculus - I

1.4_Vector Calculus - II

1.5_Electrostatic Field

1.6_Concept of Electrostatic Field

1.7_Maxwell's Equation

1.8_Concept of Capacitor

1.9_Boundary Conditions in Electrostatic Field

1.10_Magnetic Boundary Conditions

10 videos

Introduction of EMT & Vector Analysis

Vector Calculus - II

Concpet of Electrostatic Field

Concept Of Capacitor

Boundary Conditions in Electrostatic Field

Magnetic Boundary Conditions

Chapter 2

Plane Wave Propagation

2.1 Plane Wave Propagation

2.2 Depth of Penetration

2.3 Calculation Of Power

2.4 Reflection Of A Plane Wave At Normal Incidence

2.5 Polarization of Wave

2.6 Reflection of Plane Wave at Oblique Incident

2.7 GATE Questions on Plane Wave Propagation

7 videos

Plane Wave Propagation

Depth of Penetration

Calculation Of Power

Reflection Of A Plane Wave At Normal Incidence

Polarization of Wave

Reflection of Plane Wave at Oblique Incident

GATE Questions on Plane Wave Propagation

Chapter 3

Transmission Line & Smith Chart

3.1 Transmission Line

3.2 Concept of Input Impedance, Standing Wave Ratio and Power Transmission

3.3 Smith Chart

3.4 Matching of the Transmission Line

3.5 Transient Response In Transmission Line

3.6 Scattering Parameters of the Transmission Line

6 videos

Concept of Input Impedance, Standing Wave Ratio and Power Transmission

Matching of the Transmission Line

Transient Response In Transmission Line

Scattering Parameters of the Transmission Line

Chapter 4

Wave Guides

4.1 Wave Guides

4.2 Transverse Magnetic Modes

4.3 Concept of Power in the Wave Guide

4.4 Wave Guide Resonators

4.5 Basic of Optical Fiber

4.6 GATE Questions of Waveguide

6 videos

Transverse Magnetic Modes

Concept of Power in the Waveguide

Waveguide Resonators

Basic of Optical Fiber

GATE Questions of Waveguide

Chapter 5

Antenna Theory, Radar & Wave Propagation

5.1 Antenna Theory and Wave Propagation

5.2 Antenna Terminology - I

5.3 Antenna Terminology - II

5.4 Basic of Radar

5.5 Antenna Array

5.6 GATE Questions of Antenna Array

5.7 GATE Questions of Antenna Theory

7 videos

Antenna Theory and Wave Propagation

Antenna Terminology - I

Antenna Terminology - II

GATE Questions of Antenna Array

GATE Questions of Antenna Theory

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