Physics IB

Physics IB af Zaira Ivanna Uranga

1. Oscillation and Waves

2. Circular motion

3. Gravitational Forces

4. Waves behaviour

5. Light waves

6. Sound waves

7. Energy transfer

8. Internal Energy

9. Temperature

10. Phase change

11. Specific latent heat

12. Specific heat capacity

13. Defining gas

14. Pressure

15. Volume

16. Traveling Waves

17. Longitudinal waves

18. Wave characteristics

19. Amplitude

20. Tranverse waves

21. Simple harmonic motion

22. Standing waves

23. Gravitational field strength

24. F=GMm/r^2

25. g=F/m

26. Harmonics

27. Opened at both ends

28. Fixed ends

29. One fixed and one opened end

30. 1st harmonic

31. Fundamental frequency

32. v=2/n*L*f

33. v=4/n*L*f

34. Energy

35. Thermodynamics

36. Kinetic Energy

37. Potential Enegy

38. Law of conservation of energy

39. internal energy

40. Polarizer

41. Mechanics

42. Electricity

43. Energy Production

44. Motion

45. Forces

46. Parabolic motion

47. Orbits

48. Fields

49. Electric Current

50. Circuits

51. Specific Energy

52. Energy Density

53. Energy sources

54. Generation electricity

55. Renewable and Non-Renewable sources

56. Primary Energy sources

57. Velocity

58. Wavelength

59. Frequency

60. Period

61. Momentum

62. Impulse

63. Tension force

64. Gravitational force

65. Reaction force

66. Spring force

67. Friction force

68. Air resistance

69. Centripetal acceleration

70. Centripetal force

71. Angular velocity

72. F=kQq/r^2

73. Electric force

74. Electric field strength

75. Free fall

76. Potential Difference

77. Electro Motive Force

78. Internal Resistance

79. Kircchauf's Laws

80. Ohm's law

81. Inseries Resistance

82. Series circuits

83. Kinetic Energy

84. Heat

85. Potential Energy

86. Work

87. Parallel circuits

88. Total resistance = sum of resistances

89. emf = sum of voltages

90. Total current = current 1 = current 2

91. emf = voltage 1 = voltage 2

92. Total current = sum of currents

93. 1/total resistance = 1/r1+1/r2