Dissolution of 1.5 g of a non-volatile solute `(mol.wt.=60)` in 250 g of a solvent reduces its freezing point by `0.01^(@)C`. Find the molal depression constant of the solvent.

If 1 g of solute (molar mass = 50 g mol^(-1) ) is dissolved in 50 g of solvent and the elevation in boiling point is 1 K. The molar boiling constant of the solvent is

1.0 g of non-electrolyte solute dissolved in 50.0 g of benzene lowered the freezing point of benzene by 0.40 K . The freezing point depression constant of benzene is 5.12 kg mol^(-1) . Find the molecular mass of the solute.

A solution of 0.450g of urea (mol.wt 60) in 22.5g of water showed 0.170^(@)C of elevation in boiling point, the molal elevation constant of water:

n moles of a non volatile solute are dissolved in wg of water. If K_(f) is the molal depression constant of water, the freezing point of the solution will be

When 0.01 mole of sugar is dissolved in 100 g of a solvent the despersion is frezzing point is 0.40^(@)C . When 0.03 mole of glucose is dissolved in 50 g of the same solvent , the depression in freezing point will be __________.

A solution of 0.450 g of urea (mol wt. 60 )in 22.5g of water showed 0.170^(@)C of elecation in boiling point. Calculate the molal elevation constant of water