The entropy if vaporisation of benzene is `85JK^(-1) mol^(-1)`. When 117g benzene vaporizes at its's normal boiling point, the entropy change in surrounding is:

The standard molar engthalpy of vaporisation of benzene Delta_(vap)H^(@) at 353 K is 30.8 kJ mol^(-1) . If the benzene vapours behave as an ideal gas, the change in internal energy of vaporisation of 78 g of benzene at 353 K in kJ mol^(-1) is

The enthalpy of vapourisation of a liquid is 30 KJ mol^(-1) and entropy of vapourisation is 75J mol^(-1) k^(-1) . The boiling point of the liquid at 1atm pressure is.

The entropy change for vaporisation of a liquid is 109.3 JK^(-1)mol^(-1) . The molar heat of vaporisation of that liquid is 40.77kJ mol^(-1) . Calculate the boiling point of that liquid.

The molar heat capacity of water at constant pressure, C, is 75 JK^(-1) mol^(-1) . When 1.0KJ of heat is supplied to 100g of water which is free to expand, the increase in temperature of water is :

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

Latent heat of fusion of ice is 6 kJ mol^(-1) . Calculate the entropy change in the fusion of ice.