0.08 kg of M ( mol , wt `=62`) in 400 gm of water freezing point of mixture is approximately ______.

A 0.2 Molal aqueous solution of a weak acid (HX) is 20 % ionised . The freezing point of this solution is ______. ("Given " =K_(f) =1.86^(@)C/m for water )

Calculate the freezing point of solution prepared by dissolving 4.5 g of glucose (molar mass = 180 g mol^(-1)) in 250 g of bromoform. Given, freezing point of bromoform = 7.8^@C and K_f for bromoform = 14.4 K kg mol^(-1) .

The molal boiling point constant for water is 0.513 ""^(@)C kg // mol . When 0.1 mole of sugar is dissolved in 200 g of water, the sugar is boils under a pressure of 1 atm at _____.

How many grams of KCI should be added to 1000 g of water , so that the freezing point reduces to - 10^(@)C? (K_(f) "for water "=1.86""^(@)C kg mol ^(-1))

A solution is obtained by dissolving 12g of urea(mol.wt.60)in a litre of water.Another solution is obtained by dissolving 68.4g of cane sugar (mol.wt.342) in a litre of water at are the same temperature .The lowering of vapour pressure in the first solution is

0.440 g of a substance dissolved in 22.2 g of benzene lowered the freezing point of benzene by 0.567 ^(@)C . The molecular mass of the substance is _____ (K_(f) = 5.12 ^(@)C kg mol ^(-1))

Calculate the power of pump lifting 100 kg of water and storing it in a water tank of height 9 m in 1 minute.

The boiling point of water (100^(@) C) becomes 100.52 ^(@) C if 3 grams of non-volatile solute is dissolved in 200 mL of water . The molecular weight of solute is ______ (K_(b) "for water is " 0.6K kg mol ^(-1))

1.250 g of naphthalene was dissolved in 60 cm3 of benzene and freezing point of the solution was found to be 277.515 K while that of benzene 278.495 K. Density of benzene is 0.880 g cm^(-3) Kf = 5.1 K mol^(-1) kg. Calculate the molecular weight of naphthalene.

When 0.1 kg of ice at 0 ^@C is mixed with 0.32 kg of water at 35 ^@C in a container. The resulting temperature of the mixture is 7.8 ^@C . Calculate the heat of fusion of ice (S_water = 4186 J kg^-1 K^-1)