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Question 4.5: Two of the Massieu functions are functions of the following ...

Two of the Massieu functions are functions of the following state variables:

  1. J \Bigl(\frac{1}{T},V\Bigr) .
  2. Y \Bigl(\frac{1}{T},\frac{p}{T}\Bigr) .

The Massieu functions are obtained by performing Legendre transformations of the state function entropy S (U, V) with respect to the state variables U and V. Use Legendre transformations to express the Massieu functions J \Bigl(\frac{1}{T},V\Bigr) and Y \Bigl(\frac{1}{T},\frac{p}{T}\Bigr) in terms of the thermodynamical potentials F and G. Determine also the differentials d J \Bigl(\frac{1}{T},V\Bigr) and d Y \Bigl(\frac{1}{T},\frac{p}{T}\Bigr) .

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The entropy S (U, V) as a state function reads,

S =\frac{1}{T} U +\frac{p}{T} V .

and its differential is written as,

dS =\frac{1}{T} dU +\frac{p}{T} dV .

Thus,

\frac{∂S}{∂U} = \frac{1}{T}       and      \frac{∂S}{∂V} = \frac{p}{T} .

To obtain the Massieu function J \Bigl(\frac{1}{T},V\Bigr) , we perform a Legendre transformation on the entropy S (U, V) with respect to the internal energy U,

J = S −\frac{∂S}{∂U} U = S − \frac{U}{T} = – \frac{F}{T} .

Likewise, to obtain the Massieu function Y \Bigl(\frac{1}{T},\frac{p}{T}\Bigr) , also called the Planck function, we perform two Legendre transformations on the entropy S (U, V) with respect to the internal energy U and the volume V,

Y = S −\frac{∂S}{∂U} U – \frac{∂S}{∂V} V= S − \frac{U}{T} – \frac{pV}{T} = – \frac{G}{T} .

Differentiating the Massieu function J \Bigl(\frac{1}{T},V\Bigr) yields,

dJ = dS -\frac{1}{T} dU -Ud\Bigl(\frac{1}{T}\Bigr) = – U d\Bigl(\frac{1}{T}\Bigr) +\frac{p}{T} dV .

Similarly, differentiating the Massieu function Y \Bigl(\frac{1}{T},\frac{p}{T}\Bigr) yields,

dY = dS – \frac{1}{T} dU -U d\Bigl(\frac{1}{T}\Bigr) -\frac{p}{T} dV – Vd\Bigl(\frac{p}{T}\Bigr) = -U d\Bigl(\frac{1}{T}\Bigr)- V d\Bigl(\frac{p}{T}\Bigr) .

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