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September 23, 2023

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Description

Introduction to Electromagnetism. Instructor: Professor Manoj K Harbola, Department of Physics, IIT Kanpur.

The course covers topics on Coulomb's law, Laplace's equation for electrostatic potential, conductors and capacitors, magnetic field due to a magnet, magnetic fields in matter, Maxwell's equations, wave equation. (from nptel.ac.in)

Course Curriculum

  • Lecture 01 – Coulomb’s Law Unlimited
  • Lecture 02 – Coulomb’s Force due to Several Point Charges Unlimited
  • Lecture 03 – Force due to Distribution of Charges Unlimited
  • Lecture 04 – What is an Electric Field? Unlimited
  • Lecture 05 – Electric Field due to a Charged Distribution Unlimited
  • Lecture 06 – Helmholtz’s Theorem for Electric Field Unlimited
  • Lecture 07 – Divergence of a Field Unlimited
  • Lecture 08 – Divergence of Electric Field and Gauss’ Law Unlimited
  • Lecture 09 – Curl of a Field I Unlimited
  • Lecture 10 – Curl of a Field II and Stokes’ Theorem Unlimited
  • Lecture 11 – Line Surface Area and Volume Elements in Cartesian and Cylindrical Coordinates Unlimited
  • Lecture 12 – Line Surface Area and Volume Elements in Spherical Polar Coordinates Unlimited
  • Lecture 13 – Examples of Application of the Divergence and Stokes’ Theorem Unlimited
  • Lecture 14 – Electrostatic Potential Unlimited
  • Lecture 15 – Electric Field as the Gradient of Electrostatic Potential Unlimited
  • Lecture 16 – Laplace’s and Poisson’s Equations for Electrostatic Potential Unlimited
  • Lecture 17 – Electrostatic Potential due to a Charge Distribution I; a Line Charge of Finite Length Unlimited
  • Lecture 18 – Electrostatic Potential due to a Charge Distribution II Unlimited
  • Lecture 19 – Uniqueness of the Solution of Laplace’s and Poisson’s Equations Unlimited
  • Lecture 20 – Method of Images I: Point Charge in front of a Grounded Metallic Plane I Unlimited
  • Lecture 21 – Method of Images II: Point Charge in front of a Grounded Metallic Plane and … Unlimited
  • Lecture 22 – Laplace’s Equation in Some Other Physical Phenomena Unlimited
  • Lecture 23 – Energy of a Charge Distribution I Unlimited
  • Lecture 24 – Energy of a Charge Distribution II – An Example Unlimited
  • Lecture 25 – Energy of a Charge Distribution III – Energy Density in terms of Electric Field Unlimited
  • Lecture 26 – Electric Field and Potential in a Conductor Unlimited
  • Lecture 27 – Reciprocity Theorem for Conductors I Unlimited
  • Lecture 28 – Reciprocity Theorem for Conductors II Unlimited
  • Lecture 29 – Electric Polarization and Bound Charges I Unlimited
  • Lecture 30 – Electric Polarization and Bound Charges II Unlimited
  • Lecture 31 – Electric Displacement Unlimited
  • Lecture 32 – Electrostatics in presence of Dielectric Materials Unlimited
  • Lecture 33 – Electrostatics in presence of Dielectric Materials II Unlimited
  • Lecture 34 – Introduction to Magnetostatics; The Biot-Savart Law Unlimited
  • Lecture 35 – Divergence and Curl of Magnetic Field Unlimited
  • Lecture 36 – Ampere’s Law for Magnetic Fields Unlimited
  • Lecture 37 – Vector Potential for Magnetic Fields Unlimited
  • Lecture 38 – Calculation of Vector Potential for a Given Magnetic Field Unlimited
  • Lecture 39 – Equation for the Vector Potential in terms of Current Density Unlimited
  • Lecture 40 – Vector Potential from Current Densities I Unlimited
  • Lecture 41 – Vector Potential from Current Densities II Unlimited
  • Lecture 42 – Magnetic Materials I Unlimited
  • Lecture 43 – Magnetic Materials II: Bound Current Densities Unlimited
  • Lecture 44 – The Auxiliary Field – H Unlimited
  • Lecture 45 – Solving for Magnetic Field of a Magnet I Unlimited
  • Lecture 46 – Solving for Magnetic Field of a Magnet in presence of Magnetic Materials Unlimited
  • Lecture 47 – Faraday’s Law Unlimited
  • Lecture 48 – Induced Electric Field due to Charging Magnetic Field Unlimited
  • Lecture 49 – Demonstrations on Faraday’s Law, Lenz’s Law and Nonconservative Nature of … Unlimited
  • Lecture 50 – Energy Stored in a Magnetic Field I Unlimited
  • Lecture 51 – Energy Stored in a Magnetic Field I; Solved Examples Unlimited
  • Lecture 52 – Displacement Current Unlimited
  • Lecture 53 – Quasistatic Approximation Unlimited
  • Lecture 54 – Energy Transport by Electromagnetic Fields; The Poynting Vector Unlimited
  • Lecture 55 – The Poynting Vector; Solved Examples Unlimited
  • Lecture 56 – Linear Momentum and Angular Momentum Carried by Electromagnetic Fields Unlimited
  • Lecture 57 – Waves and Wave Equation Unlimited
  • Lecture 58 – Electromagnetic Waves in Free Space I: Qualitative Picture Unlimited
  • Lecture 59 – Electromagnetic Waves in Free Space II: Derivation of the Wave Equation … Unlimited
  • Lecture 60 – Energy and Intensity and Momentum Carried by Electromagnetic Waves Unlimited
  • Lecture 61 – Energy and Intensity and Momentum Carried by Electromagnetic Waves – Examples Unlimited
  • Lecture 62 – Reflection of Waves at a Boundary I – Wave on a Tense String Unlimited
  • Lecture 63 – Reflection of Waves at a Boundary II – Electromagnetic Waves Reflecting … Unlimited
  • Lecture 64 – Radiation from an Accelerating Charge I Unlimited
  • Lecture 65 – Radiation from an Accelerating Charge II Unlimited

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