The van der Waal's constants for a gas are `a=1.92` atm `L^(2) "mol"^(-2),b=0.06 L "mol"^(-1)`. If `R = 0.08 L` atm `K^(-1) "mol"^(-1)`, what is the Boyle's temperature (in K) of this gas ?

The van der Waals' constantes for a gas are a=3.6 atmL^(2)mol^(-2),b=0.6Lmol^(-1) .If R=0.08LatmK^(-1)mol^(-1) and the Boyle's temperature (K) is T_(B) of this gas, then what is the value of (T_(B))/(15) ?

The values of the van der Waals constants for a gas a = 4.10 dm^(6) "bar" mol^(-2) and b = 0.035 dm^(3) mol^(-1) . Calculate the values of the critical temperature and critical pressure for the gas.

The vander waals constant for O_(2) are a = 1.36 atm L^(2) mol^(-2) and b = 0.0318 L mol^(-1) . Calculate the temperature at which O_(2) gas behaves, ideally for longer range of pressure.

If the Vander Waal's constant of gas A are given as - a ( atm L^(2) mol^(2) ) =6.5 b( L mol^(1) ) 0.056 than critical pressure of A is

The van der Waal's constants a & b of CO_(2) are 3.64 L^(2) mol^(-2) bar & 0.04 L mol^(-1) respectively. The value of R is 0.083 bar dm^(3)mol^(-1)K^(-1) . If one mole of CO_(2) is confined to a volume of 0.15L at 300 K , then the pressure (in bar) eaxerted by the gas is :

Calculate the pressure exerted by 16 g of methane in a 250 mL container at 300 K using van der Waal's equation. What pressure will be predicted by ideal gas equation ? a = 2.253 atm L^(2) mol^(-2), b = 0.0428 L mol^(-1) R = 0.0821 L atm K^(-1) mol^(-1)

The Van der Waals constants for two gases A and B are as follows : {:("Gas",a("atm L"^(2)" mol"^(-2)),b("L mol"^(-1))),(" A"," 1.63"," 0.0326"),(" B"," 3,72"," 0.0521"):} Which of these (i) is more easily liquefied? (ii) has larger molecular size?