Introduction to Electromagnetism

Introduction to Electromagnetism

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Divergence of Electric Field & Gauss's Law

8 of 60

8 of 60

Divergence of Electric Field & Gauss's Law

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Classroom Contents

Introduction to Electromagnetism

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  1. 1 Coloumb's Law
  2. 2 Coloumb's Force due to several Point charges
  3. 3 Force due to distribution of Charges
  4. 4 What is an Electric Field?
  5. 5 Electric Field due to a Charged Distribution
  6. 6 Helmholtz's Theorem for Electric Field
  7. 7 Divergence of a Field
  8. 8 Divergence of Electric Field & Gauss's Law
  9. 9 Curl Of a Field-I
  10. 10 Curl of a Field-II & Stokes' Theorem
  11. 11 Line, Surface Area and Volume elements in Cartesian and Cylindrical Coordinates
  12. 12 Line, surface area and Volume element in Spherical Polar Coordinates
  13. 13 Applications of Divergence and Stokes theorem
  14. 14 Electrostatic potential
  15. 15 Electric field as a gradient of potential
  16. 16 Laplace's and Poisson's Equation for Electrostatic Potential
  17. 17 Electrostatic Potential due to charge distribution-I Line Charge of finite length
  18. 18 Electrostatic Potential due to charge distribution-II , Ring and spherical shell of charge
  19. 19 Uniqueness of solution of Laplace's and Poisson's equations
  20. 20 Method of Images-I, Point charge in-front of grounded metallic plane
  21. 21 Method of images I; point charge in front of a grounded metallic plane and grounded metal sphere
  22. 22 Laplace’s equation in some other physical phenomena
  23. 23 Energy of a charge distribution - I
  24. 24 Energy of a charge distribution II – an example
  25. 25 Energy of a charge distribution III – energy density in terms of electric field
  26. 26 Electric field and potential in a conductor
  27. 27 Reciprocity theorem for conductors I
  28. 28 Reciprocity theorem for conductors II – an example
  29. 29 Electric polarization and bound charges I
  30. 30 Electric polarization and bound charges II
  31. 31 Electric Displacement
  32. 32 Electrostatics in presence of dielectric materials - I
  33. 33 Electrostatics in presence of dielectric materials - II
  34. 34 Introduction to Magnetostatics; the Bio-Savart law
  35. 35 Divergence and curl of magnetic field
  36. 36 Ampere’s law for magnetic fields
  37. 37 Vector potential for magnetic fields
  38. 38 Calculation of vector potential for a given magnetic field
  39. 39 Equation for the vector potential in terms of current density
  40. 40 Vector potential from current densities - I
  41. 41 Vector potential from current densities - II
  42. 42 Magnetic materials I
  43. 43 Magnetic materials II – bound currents and densities
  44. 44 The auxiliary field -
  45. 45 Solving for magnetic field of a magnet I
  46. 46 Solving for magnetic field of a magnet in presence of magnetic materials
  47. 47 Faraday’s law
  48. 48 Induced electric field due to changing magnetic field
  49. 49 Lecture 49
  50. 50 Energy stored in a magnetic field - I
  51. 51 Energy stored in a magnetic field II
  52. 52 Displacement current
  53. 53 Quasistatic approximation
  54. 54 Energy transport by electromagnetic field -
  55. 55 The Poynting vector
  56. 56 Linear momentum and angular momentum
  57. 57 Waves and wave equation
  58. 58 Electromagnetic waves in free space I
  59. 59 Electromagnetic waves in free space II
  60. 60 Energy, intensity and momentum carried by electromagnetic waves

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