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GS Physics Semester 2

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  1. CHAPTER 4: ELECTROMAGNETIC INDUCTION

    Concept of field
  2. Electric field
  3. Electromagnets
  4. Magnetic field of electromagnets (Solenoid)
  5. The Electromagnetic Force (Laplace’s Force)
  6. Existence of Electromagnetic Induction
  7. Magnetic Flux
  8. Faraday’s Law part 1
  9. Faraday’s Law part 2
  10. Faraday’s Law part 3
  11. Lenz’s Law
  12. Solving example on Faraday's law
  13. Power distribution in a magnetic-coil system
  14. Exercises 1 and 2
  15. Exercise 2 (cont.) and 3
  16. Exercise 4 part 1
  17. Exercise 4 part 2
  18. Exercise 5
  19. Exercise 6
  20. CHAPTER 5: SELF INDUCTON
    Experimental evidence of the self induction phenomenon
  21. Visualization of the growth and decay of the current in the circuit
  22. Inductance of a coil / solenoid
  23. Voltages across different electric components
  24. The time equations for the growth and decay of the current in the R-L series circuit (part 1)
  25. The time equations for the growth and decay of the current in the R-L series circuit (part 2)
  26. The time equations for the growth and decay of the current in the R-L series circuit (part 3)
  27. Exercise 1 + exercise 2 + exercise 3
  28. Exercise 4 + exercise 5 (part 1)
  29. Exercise 5 (part 2) + exercise 6 (part 1)
  30. Exercise 6 (part 2) + exercise 7 (part 1)
  31. Exercise 7 (part 2)
  32. CHAPTER 6: ALTERNATE SINUSOIDAL CURRENT
    Oscilloscope
  33. Charging circuit for the capacitor
  34. Charging process (Differential equation, time equation for the voltage across the capacitor)
  35. Charging process (Time equations for the charge and current ) part 1
  36. Charging process (Time equations for the charge and current ) part 2
  37. Low frequency generator
  38. Expression of the AC voltage as a function of time
  39. Important formulas for mathematics
  40. Phase angle between the the voltage across the LFG and the current
  41. RLC series circuit part 1
  42. RLC series circuit part 2
  43. Graph of the amplitude of the electric current traversing an RLC series circuit
  44. Exercise 1 (part 1)
  45. Exercise 1 (part 2)
  46. Exercise 2
  47. Exercise 3
  48. Exercise 4 (part 1)
  49. Exercise 4 (part 2)
  50. Exercise 5
  51. Exercise 6 (part 1)
  52. Exercise 6 (part 2) + exercise 7 (part 1)
  53. Exercise 7 (part 2)
  54. CHAPTER 7: ELECTROMAGNETIC OSCILLATIONS
    The LC-Series circuit
  55. The LC- Series circuit (Differential equation)
  56. 1
  57. 2
  58. 3
  59. 4
  60. 5
  61. 6
  62. 7
Lesson 3 of 62
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Electromagnets