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Electromagnetic Theory

Electromagnetic Theory. 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. (from nptel.ac.in)

Lecture 26 - Boundary Conditions


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Module 1: Elements of Vector Calculus
Lecture 01 - Scalar Field and its Gradient
Lecture 02 - Line and Surface Integrals
Lecture 03 - Divergence and Curl of Vector Fields
Lecture 04 - Conservative Field, Stoke's Theorem
Lecture 05 - Laplacian
Module 2: Electrostatics
Lecture 06 - Electric Field Potential
Lecture 07 - Gauss' Law, Potential
Lecture 08 - Electric Field and Potential
Lecture 09 - Potential and Potential Energy
Lecture 10 - Potential and Potential Energy II
Lecture 11 - Potential and Potential Energy III
Lecture 12 - Coefficients of Potential and Capacitance
Lecture 13 - Poisson and Laplace Equation
Lecture 14 - Solutions of Laplace Equation
Lecture 15 - Solutions of Laplace Equation II
Lecture 16 - Solutions of Laplace Equation III
Lecture 17 - Special Techniques
Lecture 18 - Special Techniques II
Lecture 19 - Special Techniques III
Lecture 20 - Dielectrics
Lecture 21 - Dielectrics II
Lecture 22 - Dielectrics III
Module 3: Magnetostatics
Lecture 23 - Equation of Continuity
Lecture 24 - Force between Current Loops, Magnetic Vector Potential
Lecture 25 - Magnetic Vector Potential
Lecture 26 - Boundary Conditions
Lecture 27 - Magnetized Material
Lecture 28 - Magnetostatics (cont.), Time Varying Field (Introduction)
Module 4: Time Varying Field
Lecture 29 - Faraday's Law and Inductance
Lecture 30 - Maxwell's Equations
Lecture 31 - Maxwell's Equations and Conservation Laws
Lecture 32 - Conservation Laws
Lecture 33 - Angular Momentum Conservation, Electromagnetic Waves
Lecture 34 - Electromagnetic Waves
Lecture 35 - Propagation of Electromagnetic Waves in a Metal
Module 5: Waveguides
Lecture 36 - Waveguides
Lecture 37 - Waveguides II
Lecture 38 - Resonating Cavity
Lecture 39 - Radiation
Lecture 40 - Radiation II