Assertion An actual gas behaves as an ideal gas most closely at low pressure and high temperature.
Reason At low pressure and high temperature, real gases obey the gasl laws.

Assertion: Real gases behave as ideal gases most closely at low pressure and high temperature. Reason: Intermolecular force between ideal gas molecules is assumed to be zero. Choose the appropriate option: a) If both Assertion and Reason are true and the reason is correct explanation of the Assertion. b) If both Assertion and Reason are true but Reason is not the correct explanation of Assertion. c) If Assertion is true, but the Reason is false. d) If Assertion is false but the Reason is true.

A: A real gas will approach ideal behaviour at high temperature and low pressure. R: At low pressure and high temperature z = 1, for all gases

At high temperature and low pressure van der Waal's equation becomes

A gas behaves more closely as an ideal gas at (a)low pressure and low temperature. (b)low pressure and high temperature (c) high pressure and low temperature (d) high pressure and high temperature

Statement- 1 : A real gas behaves as an ideal gas at high temperature and low pressure . Statement- 2 : Liquid state of an ideal gas is impossible.

Real gases show deviation from ideal behavior at low temperature and high pressure.

The temperature below which a gas does not obey ideal gas laws is

At low pressure and high temperature the Van der Waals equation is finally reduced (simplified) to

Statement-1: A reas gas nearly behaves like an ideal gas at low pressure and high temperature. Statement-2: If the ratio of translational and rotational degree of freedom is 1.5 the gas must be diatomic Statement-3: Most probable speed of a gas is proportional to absolute temperature of the gas.

For which of the following reaction is product formation favoured by low pressure and high temperature?