Electromagnetic Theory

Electromagnetic Theory by Indian Institute of Technology Bombay

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Created by IIT Bombay Staff Last updated Wed, 23-Mar-2022 English


Electromagnetic Theory free videos and free material uploaded by IIT Bombay Staff .

Syllabus / What will i learn?

Scalar field and its Gradient.
Line and Surface Integrals.
Divergence and Curl of Vector Fields.
Conservative Field, Stoke's Theorem.
Laplacian.
Electric Field Potential.
Gauss's Law, Potential. Electric Field and Potential.
Potential and Potential Energy.
Potential and Potential Energy II.
Potential and Potential Energy III.
Coefficients of Potential and Capacitance.
Poission and Laplace Equation.
Solutions of Laplace Equation.
Solutions of Laplace Equation II.
Solutions of Laplace Equation III.
Special Techniques.
Special Techniques II.
Special Techniques III.
Dielectrics.
Dielectrics II.
Dielectrics III.
Equation of Continuity.
Force between current loops,Magnetic Vector Potential.
Magnetic Vector Potential.
Boundary Conditions.
Magnetized Material.
Magentostatics (contd..),Time Varying Field (Introduction).
Faraday's Law and Inductance.
Maxwell's Equations.
Maxwell's Equations and Conservation Laws.
Conservation Laws.
Angular Momentum Conservation , Electromagnetic Waves.
Electromagnetic Waves.
Propagation of Electromagnetic Waves in a metal.
Waveguides. Waveguides II.
Resonating Cavity.
Radiation, Radiation II.



Curriculum for this course
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Description

Instructor: Professor D.K. Ghosh, Department of Physics, IIT Bombay.

The course is a one semester first course on Electromagnetic Theory at B.Sc. level. This course would be a prerequisite for the advanced level course at the M. Sc. Level.

The course begins with a review of vector calculus which is extensively used in the course. The course covers electrostatics, magnetostatics, electromagnetic induction and electromagnetic waves. At the end of this course, a student is expected to be familiar with both the differential and integral forms of Maxwell's equations.

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