If the boiling point of an aqueous solution is `100.1^(@)C`, what is its freezing point ? Given `l_(f)=80` ,` l_(v)=540 "cal" g^(-1)` respectively, of `H_(2)O`.

If boiling point of an aqueous solution is 100.1^(@)C , its freezing point is ( I_(f) of water =80 cal/g I_(v) of water =540 cal/g)

If boiling point of an aqueous solution is 100.1^(@)C . What is its freezing point? Given latent heat of fusion and vaporization of water are 80calg^(-1) and 540 calg^(-1) respectively.

If boiling point of an aqueous solution is 100.1^(@)C . What is its freezing point? Given latent heat of fusion and vaporization of water are 80calg^(-1) and 540 calg^(-1) respectively.

The boiling point of an aqueous solution is 100.18 .^(@)C . Find the freezing point of the solution . (Given : K_(b) = 0.52 K kg mol^(-1) ,K_(f) = 1.86 K kg mol^(-1))

If the boiling point of an aqueous solution containing a non-volatile solute is 100.1^(@)C . What is its freezing point? Given latent heat of fusion and vapourization of water 80 cal g^(-1) and 540 cal g^(-1) , respectively.

If the boiling point of an aqueous solution containing a non-volatile solute is 100.15^(@)C . What is its freezing point? Given latent heat of fusion and vapourization of water 80 cal g^(-1) and 540 cal g^(-1) , respectively.

If the boiling point of an aqueous solution containing a non-volatile solute is 100.15^(@)C . What is its freezing point? Given latent heat of fusion and vapourization of water 80 cal g^(-1) and 540 cal g^(-1) , respectively.

A certain aqueous solution boils at 100.303^@C . What is its freezing point ? K_b for water = 0.5 "mol"^(-1) and K_f = 1.87 K "mol"^(-1)

The boiling point of an aqueous solution is found to be 100.28^(@)C . Then the freezing point of the same solution is -X^(0)C . What is the value of 'X' ?