Calculate the maximum work done in expanding 16 g of oxygen at 300K and occupying a volume of `5dm^5` isothermally until the volume becomes `25 dm^5`.

Calculate the amount of work done, if 20 g of hydrogen gas is compressed isothermally to 1/4 th of its volume at 27^(@)C .

The volume occupied by 16g of oxygen at S.T.P.

Calculate the maximum work done by an ideal gas when pressure on 10 g of H_2 is reduced from 20 to 2 atm at a constant temperature 300 K.

Calculate the entropy change involved in the isothermal expansion of 5 mol of ideal gas from a volume of 10 L to 100 L at 300 k

Calculate entropy change when 10 moles of an ideal gas expands reversibly and isothermally from an initial volume of 10 litre to 100 litre at 300K.

The compressibility factor for nitrogen at 223K and 800 atm is 1.95 and at 373K and 200 atm is 1.10. A certain mass of nitrogen occupies a volume of 1.0 dm^3 at 223K and 800 atm. Calculate the volume occupied by the same quantity of nitrogen at 373K and 200 atm.

Calculate the total pressure in a mixture of 8g of oxygen and 4 g of hydrogen confined in a vessel of Idm^3 at 27^@C [R= 0 08 bar. dm_3. k^-1 mol^-1]

Calculate the volume occupied by 8.8g of CO_2 at 31.1^@C and 1 bar pressure.R=0.83bar Dm^3.k^1 mol^(-1)