HC VERMA SOLUTIONS VOL.II
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23. HEAT AND TEMPERATURE
1. EXERCISE
24. KINETIC THEORY OF GASES
1. EXERCISE
25. CALORIMETRY
1. EXERCISE
26. LAW OF THEMODYANAMICS
1. EXERCISE
27. SPECIFIC HEAT CAPACITIES OF GASES
1. EXERCISE
28. HEAT TRANSFER
1. EXERCISE
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23. HEAT AND TEMPERATURE
1. EXERCISE
24. KINETIC THEORY OF GASES
1. EXERCISE
25. CALORIMETRY
1. EXERCISE
26. LAW OF THEMODYANAMICS
1. EXERCISE
27. SPECIFIC HEAT CAPACITIES OF GASES
1. EXERCISE
28. HEAT TRANSFER
1. EXERCISE
29. ELECTRIC FIELD AND POTENTIAL
1. EXERCISE
30. GAUSS LAW
1. EXERCISE
31. CAPACITOR
1. EXERCISE
33. THERMAL AND CHEMICAL EFFECT OF CURRENT
1. EX.
34. MAGNETIC FIELD
1. EXERCISE
35. MAGNETIC FIELD DUE TO CURRENT
1. EXERCISE
36. PERMANENT MAGNET
1. EXERCISE
37. MAGNETIC PROPERTIES OF MATTER
1.EXERCISE
38. ELECROMAGNETIC INDUCTION
1. EXERCISE
39. ALTERNATIVE CURRENT
1. EXERCISE
40. ELETROMAGNETIC WAVE
1. EXERCISE
41. ELECTRIC CURRENT THROUGH GASES
1. EXERCISE
42. PHOTOELECTRIC EFFECT
1. EXERCISE
43. BOHR THEORY
1. EXERCISE
44. X RAYS
1. EXERCISE
45. SEMICONDUCTOR
1.EXERCISE
46. THE NUCLEUS
1. EXERCISE
47. THE SPECIAL THEORY OF RELATIVITY
1. EXERCISE
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37. MAGNETIC PROPERTIES OF MATTER
1.EXERCISE
38. ELECROMAGNETIC INDUCTION
1. EXERCISE
39. ALTERNATIVE CURRENT
1. EXERCISE
40. ELETROMAGNETIC WAVE
1. EXERCISE
41. ELECTRIC CURRENT THROUGH GASES
1. EXERCISE
42. PHOTOELECTRIC EFFECT
1. EXERCISE
43. BOHR THEORY
1. EXERCISE
44. X RAYS
1. EXERCISE
45. SEMICONDUCTOR
1.EXERCISE
46. THE NUCLEUS
1. EXERCISE
47. THE SPECIAL THEORY OF RELATIVITY
1. EXERCISE
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