If benzene. Toluene and para-xylene are mixed in molar ratio 1:2:3.
Then answer the following question carefully.
Estimate the bubble point pressure (At the bubble point pressure all liquid exist. No trace of vapour in mixture) for the above mixture.

If benzene. Toluene and para-xylene are mixed in molar ratio 1:2:3. Then answer the following question carefully. Estimate the dew point pressure (At the dew point pressure all liquid vaporiaed ) for the above mixture (approximately)

Two liquids X and Y form an ideal solution. The mixture has a vapour pressure of 400 mm at 300 K when mixed in the molar ratio 1:1. when mixed in the molar ratio of 1:2 at the same temperatre the vapour pressure of the mixture is 350 mm. The vapour pressure of the two pure liquids X and Y respectively are

The vapour pressures of benzene and toluene at 293 K are 75 mm and 22 mm Hg respectively. 23.4g of benzene and 64.4 g of toluene are mixed. If the two form and ideal solution, calculate the mole fraction of benzene in the vapour phase assuming that the vapours are in equilibrium with the liquid mixture at this temperature.

Two liquids A and B are mixed at temperature T in a certain ratio to form an idela solution. It is found that the partial vapoure pressure of A. i.e, P_(A) is equal to P_(B) . The vapoure pressure of B for the liquid mixture. Whatis the total vapour pressure of the liquid mixture in terms of P_(A)^(@) and P_(B)^(@) ?

A mixture of ideal gasses N_(2) and He are taken in the mass ratio 14:1 respectively. Molar heat capacity of the mixture at constant pressure is

Two liquids having vapour pressure P_1^0 and P_2^0 in pure state in the ratio of 2:1 are mixed in the molar ratio 1:2 The ratio of their moles in the vapour state would be

Compreshension-II In non-ideal solutions, at one of the intermediate compostions, the total vapour pressure is highest and the boiling point is lowest. At this point, the composition of the liquid and vapour phase is same. So, if liquid mixture vapouriese at this point and vapours are condensed, teh condensate contains same compositon as present in original liquid mixture. it means at this point liquid behaves like a pure liquid and is called an Azeotropic mixture. Choose the correct answer :

Compreshension-II In non-ideal solutions, at one of the intermediate compostions, the total vapour pressure is highest and the boiling point is lowest. At this point, the composition of the liquid and vapour phase is same. So, if liquid mixture vapouriese at this point and vapours are condensed, teh condensate contains same compositon as present in original liquid mixture. it means at this point liquid behaves like a pure liquid and is called an Azeotropic mixture. Which of the following cannot form low boiling point azeotrope ?

Compreshension-II In non-ideal solutions, at one of the intermediate compostions, the total vapour pressure is highest and the boiling point is lowest. At this point, the composition of the liquid and vapour phase is same. So, if liquid mixture vapouriese at this point and vapours are condensed, the condensate contains same compositon as present in original liquid mixture. it means at this point liquid behaves like a pure liquid and is called an Azeotropic mixture. A and B forms non-ideal solution showing positive deviation. Boiling point of pure A and B is 350 K and 380 K respectively. The solution will bpoil at (approximate)

In ideal solutions of non volatile solute B in solvent A in 2:5 molar ratio has vapour pressure 250 mm, if a another solution in ratio 3:4 prepared then vapour pressure above this solution?