The osmatic of solution containing non-volatile, non electrolyte solute is 7.6 atm at `27^(@)C` then the boiling point of the same solution is _(Assume that molality and molarity are same)

Explain Raoult's law for a solution containing non-volatile solute.

An aqueous solution of urea has freezing point of -0.604^(@)C & At 27^(@)C . The osmatic pressure of the same solution is ____________atm . (assume molality and molarity are same)

How is molar mass related to the elevation in boiling point of a solution ?

The boiling point of an aqueous solution is found to be 100.28^(@)C . Then the freezing point of the same solution is -X^(0)C . What is the value of 'X' ?

The molality of an aqueous dilute solution containing non-volatile solute is 0.1 m. What is the boiling temperature (in .^(@)C ) of solution? (Boiling point elevation constant, k_(b) = 0.52 kg mol^(-1) K boiling temperature of water = 100 .^(@)C )

For a dilute solution containing 2.5 g of non-electroyte solute in 100g of water , the elevation in boiling point at 1 atm pressure is 2^(@)C . Assuming concentration of solute is much lower than the concentration of solvent, the vapour pressure (mm of Hg) of the solution is (take K_(b)=0.76 "mol"^(-1))

An aqueous solution of 2% non volatile solute exerts a pressure of 1.004 bar at the normal boiling point of the solvent. What is the molecular mass of the solute ?

The vapour pressure of a solution containing non volatile solute is less than the vapour pressure of pure of solvent. Give reason.