The amount of urea to be dissolved in `500` cc of water `(K_(f)=1.86 ^(@)C kg mol"^(-1))` to produce a depresssion of `0.186^(@)C` in the freezing point is :

What is the molality of solution of a certain solute in a solvent .If there is a freezing point depression of 0.184 ""^(@) C and if the freezing point constant is 18.4 K kg mol^(-1) ?

The freezing point of 0.05 molal solution of non- electrolyte in water is _____. (K_(f) = 1.86 ^(@)Ckg mol ^(-1))

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) .

A solution containing 34.2 g of cane sugar (C_(12)H_(22)O_(11)) dissolved in 500 cm3 of water froze at - 0.374°C. Calculate the freezing point depression constant of water.

1.00 g of a non-electrolyte solute dissolved in 50 g of benzene lowered the freezing point of benzene of 0.40K. The freezing point depression constant of benzene is 5.12K kgmol^(-1) . Find the molar mass of the solute .

6g of non-volatile, non-electrolyte x dissolved in 100g of water freezes -0.93^(@)C . The molar mass of x in "g mol"^(-1) is : (K_(f) "of" H_(2)O=1.86 ^(@)C kg mol"^(-1))

Find the K_(f) if 6 g of urea is dissolved in 0.1 dm^(3) of water and it corresponds to 0.15 ""^(@) C in Delta T_f ( Molecular weight of urea = 60 g mol ^(-1) )

At certain Hill-station pure water boils at 99.725^(@)C . If K_(b) for water is 0.513^(@)C kg mol^(-1) , the boiling point of 0.69m solution of urea will be:

Calculate the amount of heat absorbed by 500 g of ice to change into water of 20^@C . (specific heat capacity of water is 1 cal//g^@C )

An aqueous solution of a certain organic compound hasa density of 1.063gL^(-1) an osmotic pressure of 12.16 atm at 25^@C and a freezing point of -1.03^@C . What is the molar mass of the compound? (Given kg = 1.86 kg mol^(-1) .