Does the internal potential energy of water in a tight container increase or decrease when it evaporates from heat transfer?

Question

I am a physics and a chemistry student who needs help with a contradictory statement made by my books on the matter.

I was under the impression that internal potential energy of water would increase when it is brought to a boil, as the intermolecular bonds get broken, and thus the stability and forces between the molecules drop, causing an increase in the internal potential energy. My physics book reaffirms this. However, my chemistry books with the same example in mind says that "Since evaporation breaks weak bonds, the water molecules have a lower internal potential energy." This, to me, does not make sense.

Neither my physics teachers, nor my chemistry teachers can agree on the matter at my school. Help is greatly appreciated.

The question word for word is "We heat a tight container with water so that the water evaporates. Has the internal potential energy increased or decreased?"

Answer 1

The confusion arises because internal energy and potential energy are two different things. Internal energy is the sum of kinetic and potential energy: $$U = E_\text{K} + E_{P}$$ In liquids the potential energy is negative due to attraction. When a liquid is converted into vapor at the same temperature the kinetic energy stays the same but the potential energy increases from something fairly negative to something fairly close to zero. That's because gas phase molecules interact more weakly due to larger intermolecular distances.

We may conclude that (a) the internal energy of the vapor is higher than that of the liquid , and (b) that the potential energy of the vapor is smaller in absolute value than that of the liquid but higher in true value, because 0 is is smaller in absolute value but larger in true value than a negative number.