Calculate the critical constants of a gas whose van der Waals constants are :
`a=0.751" L"^(2)" atm "mol^(-2)` and `b=0.0226" L mol"^(-1)`.

Calculate the pressure exerted by 110 g of carbon dioxide in a vessel of 2 L capacity at 37^(@)C . Given that the van der Waal’s constants are a = 3.59 L^(2) " atm "mol^(-2) and b = 0.0427 L mol^(-1) . Compare the value with the calculated value if the gas were considered as ideal.

Calculate the pressure exerted by 110 g of carbon dioxide in a vessel of 2 L capacity at 37^(@)C . Given that the van der Waal’s constants are a = 3.59 L^(2) " atm "mol^(-2) and b = 0.0427 L mol^(-1) . Compare the value with the calculated value if the gas were considered as ideal.

Calculate the temperature of 2 moles of sulphur dioxide gas contained in a 5 L vessel at 10 bar pressure. Given that for SO_(2) gas, van der Waals constants are : a=6.7 bar L^(2) mol^(-2) and b=0.0564 L mol^(-1) .

A quantity of 2 mol of NH_(3) occupies 5L at 27^(@)C . Calculate the pressure of the gas using the van der Waals equation if a = 4.17 "atm "L^(2)" mol"^(-2) and b = 0.3711 L "mol"^(-1) .

The van der Waals' constants of a gas are a=0.687dm^2mol^(-2)b=0.0226dm^3mol^(-1)

Calculate critical temperature and critical pressure of oxygen if the values of the van der Waal's constants a and b are 1.32 dm^(6) "bar" mol^(-2) and 0.0312 dm^(3) mol^(-1) respectively.

Calculate critical temperature and critical pressure of oxygen if the values of the van der Waal's constants a and b are 1.32 dm^(6) "bar" mol^(-2) and 0.0312 dm^(3) mol^(-1) respectively.

One mole of CO_(2) occpuies 1.5 L at 25^(@)C . Calculate the pressure exerted by the gas using (i) ideal gas equation van der Waals gas equation with a=3.6 L^(2)" bar mol"^(-2) and b="0.04 L mol"^(-1)