Moles of `K_(2)SO_(4)` to be dissolved in 12 mol water to lowest its vapour pressure by 10 mm of Hg at a temperature at which vapour pressure of pure water is 50 mm is :

What is the vapour pressure of water at 373 K ?

The weight of urea to be dissolved in 100 g. of water to decrease the vapour pressure of water by 5% is

Calculate the vapour pressure of 10% (w/w) aqueous glucose solution at 30^@C , if vapour pressure of pure water is 31.8 mm.

When 25 g of a non-volatile solute is dissolved in 100g of water, the vapour pressure is lowered by 2.25 xx 10^(-1)mm . If the vapour pressure of water at 20^(@)C is mm, what is the molecular weight of the solute?

Weight of solute (M. wt 60) that is required to dissolve in 180 g water to redure the vapour pressure to 4//5th of pure water is 50x g . X is

Set A of glass bulbs contain a solution of 1 mole of glucose in 24 mol of water . Another set B of bulbs contain pure water . All bulbs are maintanined at the same temperature and are interconnected as then through pure water in set B. The solution is found to suffer a mass loss of W_(1)g and water suffers a mass loss of W_(2)g afetr certain period of time . If vapour pressure of water is 50 mm Hg at the temperature of experimeter, the vapour pressure of solution will be :

How many grams of glucose are required to prepare an aqueous solution of glucose having a vapour pressure of 23.324 mm Hg at 25^@ C in 100 g of water ? The vapour pressure of pure water at 25^@C is 23.8 mm Hg. (Molar mass of glucose =180 mol ^(-1) )

A non-volatile solute (A) is dissolved in a volatile solvent (B). The vapour pressure of the resultant solution is P_(s^(*)) . The vapour pressure of pure solvent is P_(B)^(@) . If X_(B) is the mole fraction of the solvent, which of the following is correct?