7 RBTS PAPER(PHYSICS)
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7 RBTS PAPER

164200 In a diatomic molecule, the rotational energy at a given temperature

1 does not obey Maxwell's distribution
2 have the same value for all molecules
3 equals the translational kinetic energy for each molecule
4 is (2/3)rd the translational kinetic energy for each molecule
NCERT-XI-II-252
7 RBTS PAPER

164201 The mean free path is average distance covered by a molecule between two successive collision.

1 \(\lambda=\frac{d^2}{\sqrt{2} n \pi}\)
2 \(\lambda=\frac{\mathrm{n}}{\sqrt{2} \pi \mathrm{d}^2}\)
3 \(\lambda=\frac{1}{\sqrt{2} \mathrm{n} \pi \mathrm{d}^2}\)
4 \(\lambda=\frac{1}{2 \sqrt{2} n \pi d^2}\)
NCERT-XI-II-255
7 RBTS PAPER

164202 On which factor does the average translational kinetic energy of gas molecules depend?

1 Nature of the gas
2 Temperature
3 Volume
4 Mass
NCERT-XI-II-252
7 RBTS PAPER

164203 What is the average velocity of the molecules of an ideal gas?

1 Infinity
2 Constant
3 Unstable
4 Zero
NCERT-XI-II-249
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7 RBTS PAPER

164200 In a diatomic molecule, the rotational energy at a given temperature

1 does not obey Maxwell's distribution
2 have the same value for all molecules
3 equals the translational kinetic energy for each molecule
4 is (2/3)rd the translational kinetic energy for each molecule
NCERT-XI-II-252
7 RBTS PAPER

164201 The mean free path is average distance covered by a molecule between two successive collision.

1 \(\lambda=\frac{d^2}{\sqrt{2} n \pi}\)
2 \(\lambda=\frac{\mathrm{n}}{\sqrt{2} \pi \mathrm{d}^2}\)
3 \(\lambda=\frac{1}{\sqrt{2} \mathrm{n} \pi \mathrm{d}^2}\)
4 \(\lambda=\frac{1}{2 \sqrt{2} n \pi d^2}\)
NCERT-XI-II-255
7 RBTS PAPER

164202 On which factor does the average translational kinetic energy of gas molecules depend?

1 Nature of the gas
2 Temperature
3 Volume
4 Mass
NCERT-XI-II-252
7 RBTS PAPER

164203 What is the average velocity of the molecules of an ideal gas?

1 Infinity
2 Constant
3 Unstable
4 Zero
NCERT-XI-II-249
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7 RBTS PAPER

164200 In a diatomic molecule, the rotational energy at a given temperature

1 does not obey Maxwell's distribution
2 have the same value for all molecules
3 equals the translational kinetic energy for each molecule
4 is (2/3)rd the translational kinetic energy for each molecule
NCERT-XI-II-252
7 RBTS PAPER

164201 The mean free path is average distance covered by a molecule between two successive collision.

1 \(\lambda=\frac{d^2}{\sqrt{2} n \pi}\)
2 \(\lambda=\frac{\mathrm{n}}{\sqrt{2} \pi \mathrm{d}^2}\)
3 \(\lambda=\frac{1}{\sqrt{2} \mathrm{n} \pi \mathrm{d}^2}\)
4 \(\lambda=\frac{1}{2 \sqrt{2} n \pi d^2}\)
NCERT-XI-II-255
7 RBTS PAPER

164202 On which factor does the average translational kinetic energy of gas molecules depend?

1 Nature of the gas
2 Temperature
3 Volume
4 Mass
NCERT-XI-II-252
7 RBTS PAPER

164203 What is the average velocity of the molecules of an ideal gas?

1 Infinity
2 Constant
3 Unstable
4 Zero
NCERT-XI-II-249
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7 RBTS PAPER

164200 In a diatomic molecule, the rotational energy at a given temperature

1 does not obey Maxwell's distribution
2 have the same value for all molecules
3 equals the translational kinetic energy for each molecule
4 is (2/3)rd the translational kinetic energy for each molecule
NCERT-XI-II-252
7 RBTS PAPER

164201 The mean free path is average distance covered by a molecule between two successive collision.

1 \(\lambda=\frac{d^2}{\sqrt{2} n \pi}\)
2 \(\lambda=\frac{\mathrm{n}}{\sqrt{2} \pi \mathrm{d}^2}\)
3 \(\lambda=\frac{1}{\sqrt{2} \mathrm{n} \pi \mathrm{d}^2}\)
4 \(\lambda=\frac{1}{2 \sqrt{2} n \pi d^2}\)
NCERT-XI-II-255
7 RBTS PAPER

164202 On which factor does the average translational kinetic energy of gas molecules depend?

1 Nature of the gas
2 Temperature
3 Volume
4 Mass
NCERT-XI-II-252
7 RBTS PAPER

164203 What is the average velocity of the molecules of an ideal gas?

1 Infinity
2 Constant
3 Unstable
4 Zero
NCERT-XI-II-249
For More Updates join with Us