A solution is prepared by dissolving 10g of non-volatile solute in 200g of water. It has a vapour pressure of 31.84 mm Hg at 308 K. Calculate the molar mass of the solute. (Vapour pressure of pure water at 308K =32 mm Hg)

A solution is prepared by dissolving 9.25 g of non volatile solute in 450 ml of water. It has an osmotic pressure of 350 mm of Hg at 27^(@)C . Assuming the solute is non-electrolyte, determine its molecular mass. (R = 0.0821 lit atm K^(-1)mol^(-1) )

A solution is prepared by dissolving 2.0g of sucrose and 2.0 gurea in 100g of water at 298 K. Calculate the vapour pressure of the solution, if the vapour pressure of pure water at 298 K is 23.756 torr. (Molecular weight of urea = 60 and sucrose = 342).

A solution containing 30 g of a non-volatile solute in exactly 90 g of water has a vapour pressure of 21.85 mm of 25^(@)C . Further 18 g of water is then added to the solution, the new vapour pressure becomes 22.15 mm of Hg at 25 C . Calculate the (a) molecular mass of the solute and (b) vapour pressure of water at 25^(@)C .

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

A solution of sucrose (molar mass =342) is prepared by dissolving 688.4 g in 1000 g of water. Calculate The vapour pressure of solution at 293 K.

At room temperature, a dilute solution of urea is prepared by dissolving 0.60 g of urea in 360 g of water. If the vapour pressure of pure water at this temperature is 35 mm Hg, lowering of vapour pressure will be: (molar mass of urea =60 g "mol"^(-1) )

At room temperature, a dilute solution of urea is prepared by dissolving 0.60 g of urea in 360 g of water. If the vapour pressure of pure water at this temperature is 35 mm Hg, lowering of vapour pressure will be 1.74 xx 10^(-x) mm Hg. The numerical value of x is _____________. (Molar mass of urea = 60 g mol^(-1) ).

An aqueous solution is made by dissolving 10g of glucose (C_(6)H_(12)O_(6)) in 90g of water at 300K. If the vapour pressure of pure water at 300 K is 32.8 mm Hg, what would be the vapour pressure of the solution?

A solution of lactose containing 8.45 g of lactose in 100g of water has a vapour pressure of 4.559 mm of Hg at 0^(@)C . If the vapour pressure of pure water is 4.579 of Hg, calculate the molecular weight of lactose.