`0.48`g of a substane was dissolved in `10.6g C_(6)H_(6)` . The freezing point of benzene was lowered by `1.8^(@)C` . Calculate m.w.t. of the substance. Molecular depression constant for benzene is `50 K"mol"^(-1) 100 g`.

0.48 of a substance is dissolved in 10.6 g of C_(6)H_(6) .The freezing point of benzene is lowered by 1.8^(@)C what will be the mol.wt.of the substance ( K_(f) for benzene = 5 )

0.48 g of a substance is dissolved in 10.6 g of C_(6)H_(6) .The freezing point of benzene is lowered by 108^(@)C . What will be the mol.wt. of the ( K_(f) for benzene = 5 )

5 g of a substance when dissolved in 50 g water lowers the freeezing by 1.2^(@)C . Calculate molecular wt. of the substance if molal depression constant of water is 1.86^(@)C K kg mole^(-1) .

By dissolving 13.6 g of a substance in 20 g of water, the freezing point decreased by 3.7^(@)C . Calculate the molecular mass of the substance. (Molal depression constant for water = 1.863K kg mol^(-1))

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 K kg mol ^(-1))

Two elements A and B form compounds having formula AB_(2) and AB_(4) . When dissolved in 20 g of benzene ( C_(6)H_(6) ) , 1g of AB_(2) lowers the freezing point by 2.3 K whereas 1.0 g of AB_(4) lowers it by 1.3 K . The molar depression constant for benzene is 5.1 K kg mol^(-1) . Calculate atomic masses of A and B.

1.355 g of a substance dissolved in 55 g of CH_(3)COOH produced a depression in the freezing point of 0.618^(@)C . Calculate the molecular weight of the substance (K_(f)=3.85)

A solution of 2.5g of non-volatile solid in 100g benzene is boiled at 0.42^(@)C higher than the boiling point of pure benzene. Calculate the molecular mass of the substance. Molal elevation constant of benzene is 2.67 "K kg mol"^(-1) .