I take it, nobody wants to touch inexact differentials. Here is my
interpretation:
A potter is in the process of forming a vase. His vase contains a volume of:
Integral from 0 to X c dX
where c is the internal crossectional area and X is the height.
He wants to increase the contained volume V of the vase. He can use two
methods to do that. He can add to the height of the vase by putting a ring
of clay on top.This hight change causes the volume to change:
dV(height change) = c dX
He can also change the shape of the vase:
dV(shape change) = integral(0 to X) dc dX
The total volume change is:
dV = dV(height change) + dV(shape change)
= c dX + integral(0 to X) dc dX
Finally one can not tell which of the two methods he used. He can decrease
the volume by either height change or sape change, no matter how he had
added the volume. dV(height change) and dV(height change)
are inexact differentials, but dV (total) is an exact differential.
Any comment? Rudy