When a solution containing non-volatile solute freezes, which equilibrium would exist?

The relative lowering of vapour pressure of an aqueous solution containing non - volatile solute is 0.0125 . The molality of the solution is

A solution containing 0.1 g of a non-volatile organic substance P (molecular mass 100) in 100 g of benzene raises the boiling point of benzene by 0.2^@C, while a solution containing 0.1 gof another non-volatile subistance Q in the same amount of benzene raises the boiling point of benzene by 0.4^@C . What is the ratio of molecular masses of P and Q?

Equimolar solutions of non ionic non volatile solute in the same solvent have

Graphically explain why a solution obtained by dissolving a non-volatile solue in a volatile solvent, freezes at a lower, temperature than that of pure solvent.

Show graphically how the vapour pressure of a solvent and a solution of a non volatile solute change with temperature. Show the boiling points of the solvent and the solution in the graph. Which is higher and why?

A solution containing '30 g' of.non-volatile solute exactly in '90, g' of water has a vapour pressure of '2.8 kPa' at '298 K'. Further, '18 g' of water is then added to the solution and the new vapour pressure becomes '2.9 kPa' at '298K' Calculate: (i) molar mass of the solute (ii) vapour pressure of water at '298 K'.

A solution containing 5.0 g urea per litre was found to be isotonic with 0.7 percent (wt./vol.) solution of an organic, non-volatile solute. Calculate the molar mass of the organic compound (molar mass of urea=60).