Calculate the mass in grams of an impurity of molar mass `100 g "mol"^(-1)` which would be required to raise the boiling point of 50 g of chloroform by `0.30^(@)C`
`(k_(B)` for chloroform = 3.63 K kg `"mol"^(-1)`

What mass of ethylene glycol (molar mass = "62.0 g mol"^(-1) ) must be added to 5.50 kg of water to lower the freezing point of water from 0^(@)C to -10.0^(@)C ( k_(f) for water = "1.86 K kg mol"^(-1) ).

What would be the molar mas of a compound if 6.21 g of it dissolved in 24.0 g of chloroform a solution that has a boiling point of 68.04^(@)C ? Given that the boiling point of pure chloroform is 61.7^(@)C and K_(b) for chloroform= 3.63^(@)C/m .

Calculatate the mass of compound (molar mass = 256 g mol^(-1) be the dissolved in 75 g of benzene to lower its freezing point by 0 .48 k(k_(f) = 5. 12 k kg mol ^(-1) .

Calculate the freezing point of a solution containing 60 g glucose (Molar mass = 180 g mol^(-1) ) in 250 g of water . ( K_(f) of water = 1.86 K kg mol^(-1) )