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)`)

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

The enthalpy change for the evaporation of a liquid at its boiling point 127^(@)C is + 40.32 k J mol^(-1) . What is the volume of internal energy change for the above process at 127^(@)C ? (R = 8.3 JK^(-1) mol^(-1))

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?

A scientist wants to perform an experiment in aqueous solution in a hill station where the boiling point of water is 98.98^(@)C . How much urea (mol.wt 60 g mol^(-1) ) is to be added by him to 2 kg of water to get the boiling point 100^(@)C at the same place? ( K_(b) ofwater = 0.51K kg mol^(-1) )

Molar enthalpy change for vapourisation of 1 mol of water at 100^@C and 1 bar pressure is 41 kJ mol^-1 . Assuming water vapour to be a perfect gas, calculate the internal energy change when (i) 1 mol of water is vapourised at 1 bar pressure and 100^@C