For an ideal gas number of moles per litre in terms of its pressure `P` gas contant `R` and temperature `T` is .

For an ideal gas, number of moles per litre in terms of its pressure P, gas constant R and temperature T is

The pressure of a certain volume of a gas is reduced to half of its initial pressure at contant temperature. Calculate its new volume.

Draw the P-T and V-T diagrams of an isochoric process of n moles an ideal gas from pressure P_(0) volume V_(0) to pressure 4P_(0) , indicating the pressures and temperatures of the gas in the initial and the final states.

For an ideal gas the fractional change in its volume per degree rise in temperature at constant pressure is equal to [T is absolute temperature of gas]

One mole of an ideal gas at temperature T_ expands slowly according to the law p/V= constant. Its final temperature is T_2 . The work done by the gas is

A container having 3 mole of ideal gas occupies 60 litres at pressure P and temperature T. If 0.1 mole of gas is introduced at same P and T in container the change in volume will be ________ litre.

A mixture of ideal gas containing 5 moles of monatomic gas and 1 mole of rigid diatomic gas is initially at pressure P_0 volume V_0 and temperature T_0 . If the gas mixture is adiabatically compressed to a volume V_0//4 , then the correct statement(s) is(are) : (Given R is gas constant)

Some ideal monoatomic gas A in an enclosure has a pressure P and the temperature T . Another ideal monoatomic gas B enclosed in a container of the same volume has a pressure of 2P and temperature T/2 . The ratio of the average kinetic energy per molecule of gas A to gas B is