Electromagnetic Field Theory

Features

• This unique free application is for all students across the world. It covers 133 topics of Electromagnetic Field Theory in detail. These 133 topics are divided in 5 units.
• Each topic is around 600 words and is complete with diagrams, equations and other forms of graphical representations along with simple text explaining the concept in detail.
• This USP of this application is "ultra-portability". Students can access the content on-the-go from anywhere they like.
• Basically, each topic is like a detailed flash card and will make the lives of students simpler and easier.
• Some of topics Covered in this application are:
• 1. Introduction of Electromagnetics (EM)
• 2. Vector Algebra
• 3. Unit Vector
• 4. Position and Distance vectors
• 5. Vector Multiplication
• 6. Component of the Vector
• 7. Cartesian coordinate Systems
• 8. Cylindrical coordinates
• 9. Rectangular to Cylindrical Coordinate Transformation
• 10. Cylindrical to Rectangular Coordinate Transformation
• 11. Spherical coordinate system
• 12. Rectangular to Spherical Coordinate Transformation
• 13. Spherical to Rectangular Coordinate Transformation
• 14. Differential Lengths in Cartesian Coordinates
• 15. Differential length in Cylindrical Coordinates
• 16. Differential Lengths in Spherical Coordinates
• 17. Line Integral
• 18. Surface Integral
• 19. Volume Integral
• 20. Del operator
• 21. Del operator
• 22. Gradient of a Scalar
• 23. Divergence of a vector
• 24. Divergence Theorem
• 25. Curl of a Vector
• 26. Stoke’s theorem
• 27. Laplacian of a scalar
• 28. Electrostatic Field
• 29. Coulomb’s Law
• 30. Electric field intensity
• 31. Electric field due to charge distribution
• 32. Electric field due to line Charge
• 33. Electric field due to Surface Charge
• 34. Electric field due to Volume Charge
• 35. Electric flux density
• 36. Gauss's law
• 37. Application of Gauss's law
• 38. Electric potential
• 39. Relationship between E and V-maxwell's Equation
• 40. Electric dipole
• 41. Electric flux line
• 42. Energy density in electrostatic fields
• 43. Properties of materials
• 44. Convection Currents
• 45. Conduction Currents
• 46. Conductors
• 47. Polarization in Dielectrics
• 48. Field due to a polarized dielectric
• 49. Dielectric Constants
• 50. Dielectric Material
• 51. Continuity Equation
• 52. Relaxation Time
• 53. Boundary Condition
• 54. Dielectric-Dielectric Boundary Conditions
• 55. Conductor-Dielectric Boundary Conditions
• 56. Conductor-Free Space Boundary Conditions
• 57. Poission’s and Laplace’s equations
• 58. Uniqueness Theorem
• 59. General procedures for solving Poission’s or Laplace’s equations
• 60. Resistance and Capacitance
• 61. Parallel-Plate Capacitor
• 62. Coaxial Capacitor
• 63. Spherical Capacitor
• 64. Method of Image
• 65. A Point Charge Above a Grounded Conducting Plane
• 66. A Line Charge above a Grounded Conducting Plane
• 67. Magnetostatics
• 68. Biot-Savart’s Law
• 69. Field due to a straight current
• 70. Ampere's circuit law
• 71. Application of ampere’s law
• 72. Infinite Sheet of Current-Ampere's Law
• 73. Infinitely Long Coaxial Transmission Line-Ampere's Law
• 74. Magnetic flux density
• 75. Maxwell’s equation for static fields
• 76. Magnetic scalar and vector potential
• 77. Derivation of Biot-Savart's law
• 78. Derivation of Ampere's law
• 79. Forces due to magnetic field-moving charged particle
• 80. Forces due to magnetic field-Current Element
• 81. Forces due to magnetic field-Between Two Current Elements
• 82. Magnetic Torque and Moment
• 83. Magnetic Dipole
• 84. Magnetization in materials
• 85. Classification of Magnetic Materials
• 86. B-H curve
• 87. Magnetic Boundary Conditions
• 88. Inductance and Inductor
• 89. Magnetic Energy
• 90. Time varying fields
• 91. Faraday's Law
• 92. Transformer emf
• 93. Motional emf
• 94. Link between electric and magnetic fields
• 95. Displacement Current
• 96. Maxwell’s equation in final form
• 97. Electromagnetic wave
• 98. EM wave propagation
• 99. Wave propagation in lossy dielectrics

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