c12 JWBS043-Rogers September 13, 2010 11:27 Printer Name: Yet to Come
12 Solution Chemistry
The concept of the ideal solution is as useful as the concept of the ideal gas, but the
reference states must be very different because a model having no intermolecular
interactions would not be a liquid. The next best thing is to propose a model in which
nochangein molecular forces takes place upon mixing two completely miscible
liquids. In this model, mixing of two ideal liquids would be essentially the same as
mixing of two ideal gases (Section 5.3.1). The enthalpy change would be zero at all
proportions, and the mixing process would be entirely driven by a positive entropy
change.
12.1 THE IDEAL SOLUTION
Theenthalpyof mixing to form an ideal solution
A(pure)+B(pure)→AB(mixed)
is zero because no change takes place in attractive forces upon going from isolated
A and isolated B to AB neighbors in the mixture. On the other hand, the entropy
of a system of two pure isolated liquids A and B, in which an observer knows that
any randomly selected molecule will be either A or B according to which “beaker”
it is drawn from, is replaced by a mixed system of greater disorder where random
Concise Physical Chemistry,by Donald W. Rogers
Copyright©C2011 John Wiley & Sons, Inc.
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