A sample of an ideal gas occupies a volume 'V' at pressure 'P' and absoulle temperature 'T'. The mass of each molecule is m. The expression for the density of gas is

A sample of an ideal gas occupies a volume 'V' at pressure 'P' and absolute temperature 'T'. The mass of each molecule is m. The expression for the density of gas is

A sample of an ideal gas has a volume of 0.5 litres at 27^@C and 750mm pressure. The number of moles of gas are

Consider an ideal gas at pressure p, volume V and temperature T. The mean free path for molecules of the gas is L. If the radius of gas molecules, as well as pressure, volume and temperature of the gas are doubled, then the mean free path will be

Two moles of an ideal gas X occupying a volume V exerts a pressure P. The same pressure is exerted by one mole of another gas Y occupying a volume 2V. If the molecular weight of Y is 16 times the molecular weight of X, find the ratio of the rms speeds of the molecules of X and Y.

Draw the P-T and V-T diagrams of an isochoric process of n moles of 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.

A certain mass of a gas occupies a column of 2L at STP. To what temperature the gas must be heated to double its volume, keeping the pressure constant ?