The vapour pressure of pure water at `25^(@)C` is `23-62` mm Hg. What will be the vapour pressure of a solution of `1.5g` of urea in `50g` of water ?

(a) 10 g of a certain non-volatile solute were dissolved in 100 g water at 20^(@) C . The vapour pressure was lowered from 17.3555 mm to 17.2350 mm , calculate m . wt. of solute. (b) The vapour pressure of pure water at 25^(@)C is 23.62 mm . What will be the vapour pressure of a solution of 1.5 g of urea in 50 g of water?

The vapour pressure of water at 20^(@)C is 17.53 mm. Calculate the vapour pressure of a solution at 20^(@)C containing 6g of urea in 100g of water (molecular mass of urea = 60)

The vapour pressure of water at 20^(@)C is 17 mm Hg Calculate the vapour pressure of a solution containing 2.8 g of urea (NH_(2)CONH_(2)) in 50 g of water .

The vapour pressure of pure water at 26^(@)"C" is 25.21 torr. What is the vapour pressure of a solution which contains 20.0 g glucose, "C"_(6)"H"_(12)"O"_(6) , in 70 g water?

If the vapour pressure of pure water at 25^@C is 23.8 mmHg , then calculate the vapour pressure lowering caused by the addition of 100 g of sucrose (molecular mass = 342 g/mol) to 100 g of water

The vapour pressure of pure water at 25^(@)"C" is 23.76 torr. The vapour pressure of a solution containing 5.10 g of a nonvolatile substance in 90.0g water is 23.32 torr. Compute the molecular weight of the solute.

The vapour pressure of water at 293K is 17.535mm Hg . Calculate the vapour pressure of water at 293K when 25g of glucose is dissolved in 450g of water.

The vapour pressure of pure water at 20^(@)C is 17.5 mm of Hg. A solution of sucrose is prepared by dissoving 68.4 g of sucrese in 1000 g of water. Calculate the vapour pressure of the solution.