If the intermolecules forces vanish away, the volume occupied by the molecules contained in `4.5 kg` water at stantard temperature and pressure will be given by

Molar volume is the volume occupied by 1 mol of any (ideal) gas at standard temperature and pressure (STP : 1 atmospheric pressure, 0^(@)C ). Show that it is 22.4 litres.

The density of water is 1000 kg m^(-3) . The density of water vapour at 100^(@)C and 1 atm pressure is 0.6 kg m^(-3) . The volume of a molecule multiplied by the total number gives ,what is called, molecular volume. Estimate the ratio (or fraction) of the molecular volume to the total volume occupied by the water vapour under the above conditions of temperature and pressure.

Equal volumes of different gases under similar conditions of temperature and pressure contain equal number of _______

A vessel contains 1 mole of O_(2) gas (molar mass 32 ) at a temperature T . The pressure of the gas is P . An identical vessel containing one mole of He gas (molar mass 4 ) at a temperature 2T has a pressure of xP . Find the value of x.

An ideal gas having initial pressure p, volume V and temperature T is allowed to expand adiabatically until its volume becomes 5.66V, while its temperature falls to T//2 . (a) How many degrees of freedom do the gas molecules have? (b) Obtain the work done by the gas during the expansion as a function of the initial pressure p and volume V. Given that (5.66)^0.4=2

The ratio of number of collisions per second at the walls of containers by He and O_(2) gas molecules kept at same volume and temperature is (assume normal incidence on walls)