Calculate the pressure exerted by one mole of `CO_(2)` gas at `273 K` van der Waals constant `a=3.592 dm^(6) atm mol^(-2)`. Assume that the volume occupied by `CO_(2)` molecules is negligible.

The pressure exerted by 1 mol of CO_(2) at 273 K is 34.98 atm . Assuming that volume occupied by CO_(2) molecules is negligible, the value of van der Waals constant for attraction of CO_(2) gas is

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 pressure exerted by 1 mole of a van der Waal's gas at a temperature of (8)/(0.0821) K "in a"(1)/(2)L container if volume of the molecule is assumed to be negligible and van der Waal's contant a=2 "atm-lit"^(2) "mole"^(-2) Express answer in atm.

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)

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.