A gas such as carbon monoxide would be most likely to obey the ideal gas law at-
1. High temperature and low pressure
2. Low temperature and high pressure
3. High temperature and high pressure
4. Low temperature and low pressure
The kinetic energy for 14 grams of nitrogen gas at 127°C is nearly -
(mol. mass of nitrogen = 28 and gas constant = 8.31JK–1mol–1)
1. 1.0 J
2. 4.15 J
3. 2493 J
4. 3.3 J
Pressure versus volume graph for a real gas and an ideal gas is shown below:
The correct statement among the following is -
1. Real gases show a large deviation from ideal behaviour at low pressure.
2. Real gases show a very small deviation from ideal behaviour at low pressure.
3. Real gases do not behave ideally under any conditions at low pressure.
4. None of the above statements is correct
A helium atom is two times heavier than a hydrogen molecule. At 298 K, the average kinetic energy of a helium atom is-
1. Same as that of a hydrogen molecule
2. Half that of a hydrogen molecule
3. Two times that of a hydrogen molecule
4. Four times that of a hydrogen molecule
At 298 K, assuming ideal behaviour, the average kinetic energy of a deuterium molecule is -
1. Two times that of a hydrogen molecule
2. Four times that of a hydrogen molecule
3. Half of that of a hydrogen molecule
4. Same as that of a hydrogen molecule
With 100% increase in temperature, the average velocity of a gaseous molecule increases by -
1. 2.8 times
2. 4.0 times
3. 1.4 times
4. 2.0 times
The maximum deviation from ideal gas behaviour takes place -
1. At high temperature and low pressure.
2. At low temperature and high pressure.
3. At high temperature and high pressure.
4. At low temperature and low pressure.