Calculate the compressibility factor for `SO_(2)`, if 1 mole of it occupies 0.35 litre at 300 K and 50 atm. Also comment on the result.

Calculate the compressibility factor for CO_(2) if one mole of it occupies 0.4 litre at 300K and 40 atm . Comment on the result:

Calculate the volume of gas X at S.T.P. if it occupies 380 litres at 300 K and 70 cm of mercury.

Calculate the temperature of 2.0 moles of a gas occupying a volume of 5.0 litres at 2.46 atmosphere.

What is the compressibility factor (Z) for 0.02 mole of a van der Waals's gas at pressure of 0.1 atm. Assume the size of gas molecules is negligible. Given : RT=20 L atm mol^(-1) and a=1000 atm L^(2) mol^(-2)

20 mol of chlorine gas occupies a volume of 800 ml at 300 K and 5 xx 10^(6) Pa pressure. Calculate the compressibility factor of the gas (R = 0.083 L bar K^(-1) mol^(-1) ). Comment whether the gas is more compressible or less compressible under the conditions

The compression factor (compressibility factor) for 1 mol of a van der Waals gas at 0^(@)C and 100 atm pressure is found to be 0.5 . Assuming that the volume of a gas molecule is neligible, calculate the van der Waals constant a .

The compression factor (compressibility factor) for 1 mol of a van der Waals gas at 0^(@)C and 100 atm pressure is found to be 0.5 . Assuming that the volume of a gas molecule is neligible, calculate the van der Waals constant a .

1 mol of SO_(2) occupies a volume of 350 mL at 300 K and 50 atm pressure. Calculate the compressibility factor of the gas.

The compressibility factor for nitrogen at 330K and 800 atm is 1.90 and at 570K and 200 atm is 1.10 . A certain mass of N_(2) occupies a volume of 1dm^(3) at 330K and 800 atm calculate volume occupied by same quantity of N_(2) gas at 570 K and 200 atm

20 mol of chlorine gas occupies a volume of 800 mL at 300 K and 5xx10^(6) Pa pressure. Calculate the compressibility factor of the gas. (R=0.083 L "bar" K^(-1)mol^(-1)) . Comment, whether the gas is more compressible or less compressible under these conditions.