Complete handbook of Electromagnetic field theory with diagrams and graphs.
The app is a complete handbook of Electromagnetism which covers important topics, notes, materials, news & blogs on the course. Download the App as a reference material & digital book for electrical engineering programs & Physics, energy degree courses.
This useful App lists 130 topics with detailed notes, diagrams, equations, formulas & course material, the topics are listed in 5 chapters. The app is must have for all the engineering science students & professionals.
The app provides quick revision and reference to the important topics like a detailed flash card notes, it makes it easy & useful for the student or a professional to cover the course syllabus quickly before an exams or interview for jobs.
Track your learning, set reminders, edit the study material, add favorite topics, share the topics on social media.
You can also blog about engineering technology, innovation, engineering startups, college research work, institute updates, Informative links on course materials & education programs from your smartphone or tablet or at http://www.engineeringapps.net/.
Use this useful engineering app as your tutorial, digital book, a reference guide for syllabus, course material, project work, sharing your views on the blog.
Some of the topics Covered in the app are:
1. Introduction of Electromagnetism (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
Each topic is complete with diagrams, equations and other forms of graphical representations for better learning and quick understanding.
Electromagnetism, Electromagnetic Field Theory is part of physics, electrical engineering education course and technology degree programs of various universities.