Revision as of 17:58, 12 October 2022

Interrelating (5, 1) and (0, 0) Bipolytropes

Structure of (n_c, n_e) = (0, 0) Bipolytropes

Here we draw heavily from an accompanying discussion to construct a bipolytrope in which both the core and the envelope have uniform densities, that is, the structure of both the core and the envelope will be modeled using an $n = 0$ polytropic index.

Assuming that the central density, $ρ_{0}$ , and central pressure, $P_{0}$ , are specified, the natural dimensionless radius is given by the expression,

$χ$

$\equiv$

$r [\frac{G ρ_{0}^{2}}{P_{0}}]^{1 / 2} .$

Throughout the core (0 ≤ χ ≤ χ_i)

In equilibrium, the radial profile of the density, pressure, and integrated mass are, respectively,

$ρ$	$=$	$ρ_{0}$
$P$	$=$	$P_{0} (1 - \frac{2 π}{3} χ^{2})$
$M_{r}$	$=$	$\frac{4 π}{3} [\frac{P_{0}^{3}}{G^{3} ρ_{0}^{4}}]^{1 / 2} χ^{3} .$

Interface Conditions

In terms of the (as yet unspecified) total radius, $R$ , we use $q$ to specify the fractional radial location of the core/envelope interface, that is,

$q$	$\equiv$	$\frac{r_{i}}{R}$
$\Rightarrow χ_{i}$	$\equiv$	$q [\frac{G ρ_{0}^{2} R^{2}}{P_{0}}]^{1 / 2} .$

And whether viewed from the perspective of the core or the envelope, the pressure at the interface is given by the expression,

$P_{i}$

$=$

$P_{0} (1 - \frac{2 π}{3} χ_{i}^{2})$

Related Discussions

Analytic solution with $n_{c} = 5$ and $n_{e} = 1$ .

@@ Line 67: / Line 67: @@
 ===Interface Conditions===
-In terms of the (as yet unspecified) total radius, <math>R</math>, we use <math>q</math> to define the fractional radial location of the core/envelope interface, that is,
+In terms of the (as yet unspecified) total radius, <math>R</math>, we use <math>q</math> to specify the fractional radial location of the core/envelope interface, that is,
 <table border="0" cellpadding="5" align="center">
@@ Line 103: / Line 103: @@
 <tr>
    <td align="right">
-<math>P</math>
+<math>P_i</math>
    </td>
    <td align="center">

Appendix/Ramblings/Interrelating51and00Bipolytropes/Organization: Difference between revisions

Revision as of 17:58, 12 October 2022

Contents

Interrelating (5, 1) and (0, 0) Bipolytropes

Structure of (n_c, n_e) = (0, 0) Bipolytropes

Throughout the core (0 ≤ χ ≤ χ_i)

Interface Conditions

Related Discussions

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Appendix/Ramblings/Interrelating51and00Bipolytropes/Organization: Difference between revisions

Revision as of 17:58, 12 October 2022

Interrelating (5, 1) and (0, 0) Bipolytropes

Structure of (nc, ne) = (0, 0) Bipolytropes

Throughout the core (0 ≤ χ ≤ χi)

Interface Conditions

Related Discussions

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Structure of (n_c, n_e) = (0, 0) Bipolytropes

Throughout the core (0 ≤ χ ≤ χ_i)