A pistion exerting a pressure of `1.0atm` rests on the surface of water at `100^(@)C`. The pressure is reduced to smaller extent and as a result `10g` of `H_(2)O` eveportes and abosrb `20 kJ` fo heat. Determine

A piston exering a pressure of one atm rests on the surface of water at 373K . The pressure is reduced to smaller extent and as a result 10gm of water evaporates and absorbs 22.4kJ of heat. The change in internal energy is :

What is the free energy charge (DeltaG) when 1.0 mole of water at 100^(@)C and 1 atm pressure is converted into steam at 100^(@)C and 1 atm pressure ?

What if the free energy change (DeltaG) when 1.0 mole of water at 100^(@)C and 1 pressure is converted into steam at 100^(@)C and 2 atm pressure ?

What is the free energy change, 'DeltaG' When 1.0 mole of water at 100^(@)C and 1 atm pressure is converted into steam at 100^(@)C and 1 atm pressure

What is the free energy change, 'DeltaG' When 1.0 mole of water at 100^(@)C and 1 atm pressure is converted into steam at 100^(@)C and 1 atm pressure

What is the free energy change (DeltaG) when 1.0 "mole" of water at 100^(@)C and atm pressure is converted into steam at 100^(@)C and 1 atm pressure?

Calculate (1) the enthalpy change in the fusion of 100 g ice at 0^(@)C temperature and 1 atm pressure pressure (2) the enthalpy change in the vaporisation of 10g water at 100^(@)C temperature and 1 atm pressure. Givenn : Latent heat of ice at 0^(@)C temperature and 1 atm pressure =6.02kJ*mol^(-1) and latent heat of vaporisation of water at 100^(@)C temperature= 40.4kJ*mol^(-1) .

A 10.0 L container is filled with a gas to a pressure of 2.00 atm at 0^(@)C . At what temperature will the pressure inside the container be 2.50 atm ?