The enthalpy of vaporisation of water at `100^(@)C` is `40.63 KJ mol^(-1)`. The value `Delta E` for the process would be :-

If Delta H_("vap") of pure water at 100^(@)C is 40.627 kJ mol^(-1) . The value of Delta S_("vap") is

The enthalpy change for transition of liquid water to steam is 40.8 KJ mol^(1) at 737 K calculate DeltaS for the process

The enthalpy change for transition of liquid water to steam is 40.8 kJ mol^(-1) at 373K. Calculate Delta S for the process.

If water vapour is assumed to be a perfect gas, molar enthalpy change for vapourisation of 1 mol of water at 1 bar and 100^(@)C is 41 KJ mol^(-1) . Calculate the internal energy, when i) 1 mol of water is vaporised at 1 bar pressure and 100^(@)C ii) 1 mole of water is converted into ice.

Standard enthalpy of vaporization of water at 1 atm pressure and 100°C is 40.66 kJ mol^(-1) . The internal energy change of vaporization of 2 moles of water at 100°C (in kJ) is

The Delta S for the vaporisation of 1 mol of water is 88.3 J/mole K. The value of Delta S for the condensation of 1 mole of water vapour will be