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=Free-Energy of Bipolytropes= | =Free-Energy of Bipolytropes= | ||
In this case, the Gibbs-like free energy is given by the sum of four separate energies, | |||
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<math>~\mathfrak{G}</math> | |||
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<math>~=</math> | |||
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<math>~ | |||
\biggl[W_\mathrm{grav} + \mathfrak{S}_\mathrm{therm}\biggr]_\mathrm{core} + \biggl[W_\mathrm{grav} + \mathfrak{S}_\mathrm{therm}\biggr]_\mathrm{env} \, . | |||
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In addition to specifying (generally) separate polytropic indexes for the core, <math>~n_c</math>, and envelope, <math>~n_e</math>, and an envelope-to-core mean molecular weight ratio, <math>~\mu_e/\mu_c</math>, we will assume that the system is fully defined via specification of the following five physical parameters: | |||
* Total mass, <math>~M_\mathrm{tot}</math>; | |||
* Total radius, <math>~R</math>; | |||
* Interface radius, <math>~R_i</math>, and associated dimensionless interface marker, <math>~q \equiv R_i/R</math>; | |||
* Core mass, <math>~M_c</math>, and associated dimensionless mass fraction, <math>~\nu \equiv M_c/M_\mathrm{tot}</math>; | |||
* Polytropic constant in the core, <math>~K_c</math>. | |||
In general, the warped free-energy surface drapes across a five-dimensional parameter "plane" such that, | |||
<div align="center"> | |||
<table border="0" cellpadding="5" align="center"> | |||
<tr> | |||
<td align="right"> | |||
<math>~\mathfrak{G}</math> | |||
</td> | |||
<td align="center"> | |||
<math>~=</math> | |||
</td> | |||
<td align="left"> | |||
<math>~\mathfrak{G}(R, K_c, M_\mathrm{tot}, q, \nu) \, .</math> | |||
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</table> | |||
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=See Also= | =See Also= | ||
Revision as of 13:40, 15 October 2023
Background
Index to original, very long chapter
Free-Energy of Bipolytropes
In this case, the Gibbs-like free energy is given by the sum of four separate energies,
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In addition to specifying (generally) separate polytropic indexes for the core, , and envelope, , and an envelope-to-core mean molecular weight ratio, , we will assume that the system is fully defined via specification of the following five physical parameters:
- Total mass, ;
- Total radius, ;
- Interface radius, , and associated dimensionless interface marker, ;
- Core mass, , and associated dimensionless mass fraction, ;
- Polytropic constant in the core, .
In general, the warped free-energy surface drapes across a five-dimensional parameter "plane" such that,
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See Also
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Appendices: | VisTrailsEquations | VisTrailsVariables | References | Ramblings | VisTrailsImages | myphys.lsu | ADS | |