The boiling point of benzene is `80^(@)C`. Estimate its molar heat of vaporisation assuming that it obeys Trouton's rule.

The boiling point elevation constant of toluene is 3.32K kg "mol"^(-1) and the normal boiling point of toluene is 110.7^(@)C . The enthalpy of vaporisation of toluene would be nearly

Enthalpy of vaporisation of benzene is 30.8 kJ mol" at its normal boiling point of 80^(@)C. Time required for a 100 W electric heater to vapourise 100 g benzene at its boiling point (Given 1W = 1 Js^(-1) )

A compound has the empirical formula C_(10)H_(8) Fe . A solution of 0.26 gof the compound in 11.2 g of benzene (C_6H_6) boils at 80.26^@C. The boiling point of benzene is 80.10^@C, K_b" is 2.53"^@C"/molal". What is the molecular formula of the compound?

A solution containing 0.1 g of a non-volatile organic substance P (molecular mass 100) in 100 g of benzene raises the boiling point of benzene by 0.2^@C, while a solution containing 0.1 gof another non-volatile subistance Q in the same amount of benzene raises the boiling point of benzene by 0.4^@C . What is the ratio of molecular masses of P and Q?

0.48g of a substance was dissolved in 10.6 g C_6H_6. The freezing point of benzene was lowered by 1.8^@C. Calculate molar mass of the substance. Molecular depression constant for benzene is "5K kg mol"^(-1) .

The boiling point of benzene is 353.23K. When 1.80g of a non-volatile solute was dissolved in 90g of benzene, the boiling point is raised to 354.11K. Calculated the molar mass of the solute k_b for benzene is 2.53K kg mol^(-1)

The boiling point of a pure liquid is 353.23 K. When 1.80 g of a non-volatile solute is dissolved in 90 g of this pure liquid, the boiling point becomes 354.11 K. The molar mass of the solute is (given that the boiling point elevation constant function of the pure liquid is 2.53 K. kg. mol^-1 )