The compression factor for one mole of real gas at `0^@C` and 100 atm is 0.5. Calculate the van der Waals' constant 'a', if 'b' is zero. 

The compression factor (compressibility factor) for one mole of a van der Waals gas at 0°C and 100 atmospheric pressure is found to be 0.5. Assuming that the volume of a gas molecule is negligible, calculate the van der Waals constant a.

The van der Waals equatin for 0.5 mol of a gas is

At a particular temperature and pressure for a real gas Van der Waal's equation can be written as: (P + a/(V^(2)m)) (V_(m) -b) =RT where Vm is molar volume of gas. This is cubic equation in the variable Vm and therefore for any single value of P & T there should be 3 values of Vm. Which are shown in graph as Q, M and L. As temperature is made to increase at a certain higher temperature the three values of Vm becomes identical. The temperature, pressure & molar volume at point X are called Tc, Pc & Vc for real gas. The compressibility factor in terms of Pc, Vc and T is called Zc. The expression of Van dcr Waal's constant 'a' can be given as

Under critical states for one mole of a gas, compressibility factor is

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

19.5g of CH_(2)FCOOH is dissolved in 500g of water. The depression in freezing point of water observed is 1.0^(@)C . Calculate the Van't Hoff factor and dissociation constant of fluoroacetic acid.

The critical constants for water are 374^(@)C , 218 atm and 0.0566 litre mol^(-1) . Calculate a' and b' of water