Important Mathematical Relations
Suppose there exists a relationship  among the there variables  and z. Then the following relation can be obtained.
- The chain rule of partial differentiation
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(32.4) |
 |
(32.5) |
 |
(32.6) |
Jacobian Methods
 |
(32.7) |
In general  can be written as 
Let 
This is a special case 
 |
(32.8) |
Similarly
 |
(32.9) |
1. Properties:
 |
(32.10) |
2. Transposition
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(32.11) |
3. Inversion
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(32.12) |
4. Chain rule
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(32.13) |
5. Cyclic rule
or
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(32.17) |
Let us consider
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(32.18) |
 |
(32.19) |
In Jacobian form
 |
(32.20) |
again
Let us consider 
|
|
 |
(32.21) |
Earlier we have obtained the Tds equations. These can be rewritten as
|
(32.22) |
 |
(32.23) |
In addition, we know the availability function and Gibbs function
|
(32.24) |
 |
(32.25) |
These equations can be generated through Mnemonic diagram (figure-32.1)
Figure 32.1
Differential (property) = differential of (independent variables)
Sign convention: going away from independent variable positive
Coming in toward independent variable negative
Equations (32.23)−(32.25) can now be expressed in the form
Let b be the dummy variable
|
(32.26) |
|
(32.27) |
|
(32.28) |
 |
(32.29) |
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