The Foundations of Chemistry

Because changes in the thermodynamic quantity entropymay be understood in terms

of changes in molecular disorder,we can often predict the sign of 
Ssys. The following illus-

trations emphasize several common types of processes that result in predictable entropy

changes for the system.

1.Phase changes.When melting occurs, the molecules or ions are taken from their quite

ordered crystalline arrangement to a more disordered one in which they are able to

move past one another in the liquid. Thus, a melting process is always accompa-

nied by an entropy increase (
Ssys 0). Likewise, vaporization and sublimation both

take place with large increases in disorder, and hence with increases in entropy. For

the reverse processes of freezing, condensation, and deposition, entropy decreases

because order increases.

2.Temperature changes— for example, warming a gas from 25°C to 50°C. As any sample

is warmed, the molecules undergo more (random) motion; hence entropy increases

(
Ssys 0) as temperature increases. Likewise, as we raise the temperature of a solid,

the particles vibrate more vigorously about their positions in the crystal, so that at

any instant there is a larger average displacement from their mean positions; this

results in an increase in entropy.

3.Volume changes.When the volume of a sample of gas increases, the molecules can

occupy more positions, and hence are more randomly arranged than when they are

closer together in a smaller volume. Hence, an expansion is accompanied by an

increase in entropy (
Ssys 0). Conversely, as a sample is compressed, the mole-

cules are more restricted in their locations, and a situation of greater order (lower

entropy) results.

4.Mixing of substances,even without chemical reaction. Situations in which the mole-

cules are more “mixed up” are more disordered, and hence are at higher entropy.

We pointed out that the mixed gases of Figure 15-12b were more disordered than

the separated gases of Figure 15-12a, and that the former was a situation of higher

entropy. We see that mixing of gases by diffusion is a process for which 
Ssys 0;

we know from experience that it is always spontaneous. We have already pointed

The vaporization of bromine,
Br 2 (
) nBr 2 (g) (left) and the
sublimation of iodine, I 2 (s) nI 2 (g)
(right) both lead to an increase in
disorder, so
Ssys 0 for each
process. Which do you think results
in the more positive
S? Carry out
the calculation using values from
Appendix K to check whether your
prediction was correct.

626 CHAPTER 15: Chemical Thermodynamics