The temperature of an ideal gas is increased from 120 K to 480 K. If at 120 K, the root mean square velocity of the gas molecules is v, at 480 K it becomes
1. 4v
2. 2v
3. v/2
4. v/4
The value of densities of two diatomic gases at constant temperature and pressure are and then the ratio of the speed of sound in these gases will be :
1.
2.
3.
4.
By what factor the r.m.s. velocity will change, if the temperature is raised from 27°C to 327°C
1.
2.
3.
4.
At a given temperature if is the root mean square velocity of the molecules of a gas and the velocity of sound in it, then these are related as
1.
2.
3.
4.
Let A and B the two gases and given : where T is the temperature and M is molecular mass. If and are the r.m.s. speed, then the ratio will be equal to
1. 2
2. 4
3. 1
4. 0.5
For a gas at a temperature the root-mean-square velocity , the most probable speed , and the average speed obey the relationship
1.
2.
3.
4.
If the ratio of vapour density for hydrogen and oxygen is \(\frac{1}{16},\) then under constant pressure, the ratio of their RMS velocities will be:
1. | \(\frac{4}{1}\) | 2. | \(\frac{1}{4}\) |
3. | \(\frac{1}{16}\) | 4. | \(\frac{16}{1}\) |
What is the velocity of a wave in a monoatomic gas having pressure 1 kilopascal and density ?
1.
2.
3. Zero
4. None of these
If the pressure in a closed vessel is reduced by drawing out some gas, the mean free path of the molecules
1. Is decreased
2. Is increased
3. Remains unchanged
4. Increases or decreases according to the nature of the gas
At constant volume, for different diatomic gases the molar specific heat is
1. Same and 3 cal/mole/°C approximately
2. Exactly equal and its value is 4 cal/mole/°C
3. Will be totally different
4. Approximately equal and its value is 5 cal/mole/°C