Revision as of 16:45, 12 October 2025

Main Sequence to Red Giant to Planetary Nebula

Following the Lead of Yabushita75

Here in the context of $(n_{c}, n_{e}) = (5, 1)$ bipolytropes, we want to construct mass-versus-central density plots like the one displayed for truncated isothermal spheres in Figure 1 of an accompanying discussion, and as displayed for a $(n_{c}, n_{e}) = (\infty, 3 / 2)$ bipolytrope in Figure 1 (p. 445) of 📚 S. Yabushita (1975, MNRAS, Vol. 172, pp. 441 - 453).

In our accompanying chapter that presents example models of $(n_{c}, n_{e}) = (5, 1)$ bipolytropes, we have adopted the following normalizations:

$ρ^{*}$	$\equiv$	$\frac{ρ}{ρ_{0}}$	;	$r^{*}$	$\equiv$	$\frac{r}{[K_{c}^{1 / 2} / (G^{1 / 2} ρ_{0}^{2 / 5})]}$
$P^{*}$	$\equiv$	$\frac{P}{K_{c} ρ_{0}^{6 / 5}}$	;	$M_{r}^{*}$	$\equiv$	$\frac{M_{r}}{[K_{c}^{3 / 2} / (G^{3 / 2} ρ_{0}^{1 / 5})]}$

Also, from the relevant interface conditions, we find,

$(\frac{K_{e}}{K_{c}})$

$=$

$ρ_{0}^{- 4 / 5} (\frac{μ_{e}}{μ_{c}})^{- 2} θ_{i}^{- 4} .$

Inverting this last expression gives,

$ρ_{0}^{4 / 5}$	$=$	$(\frac{μ_{e}}{μ_{c}})^{- 2} θ_{i}^{- 4} (\frac{K_{e}}{K_{c}})^{- 1}$
$\Rightarrow ρ_{0}^{1 / 5}$	$=$	$(\frac{μ_{e}}{μ_{c}})^{- 1 / 2} θ_{i}^{- 1} (\frac{K_{e}}{K_{c}})^{- 1 / 4} .$

Hence, for a given specification of the interface location, $ξ_{i}$ — test values shown (in parentheses) assuming $μ_{e} / μ_{c} = 1.0$ and $ξ_{i} = 0.5$ — the desired expression for the central density is,

$ρ_{0}$

$=$

$[K_{e}^{- 5} K_{c}^{5}]^{1 / 4} (\frac{μ_{e}}{μ_{c}})^{- 5 / 2} θ_{i}^{- 5};$

and, drawing the expression for the normalized total mass from our accompanying table of parameter values, namely,

$M_{t o t}^{*}$

$=$

$(\frac{μ_{e}}{μ_{c}})^{- 2} (\frac{2}{π})^{1 / 2} \frac{A η_{s}}{θ_{i}}$

we find,

$M_{r}$	$=$	$M_{r}^{*} [K_{c}^{3 / 2} G^{- 3 / 2} ρ_{0}^{- 1 / 5}]$
	$=$	$M_{r}^{*} [K_{c}^{3 / 2} G^{- 3 / 2}] {(\frac{μ_{e}}{μ_{c}})^{- 1 / 2} θ_{i}^{- 1} (\frac{K_{e}}{K_{c}})^{- 1 / 4}}^{- 1}$
	$=$	$M_{r}^{*} [K_{c}^{3 / 2} G^{- 3 / 2} (\frac{K_{e}}{K_{c}})^{1 / 4}] (\frac{μ_{e}}{μ_{c}})^{1 / 2} θ_{i}$
$\Rightarrow M_{t o t}$	$=$	$[K_{c}^{3 / 2} G^{- 3 / 2} (\frac{K_{e}}{K_{c}})^{1 / 4}] (\frac{μ_{e}}{μ_{c}})^{1 / 2} θ_{i} (\frac{μ_{e}}{μ_{c}})^{- 2} (\frac{2}{π})^{1 / 2} \frac{A η_{s}}{θ_{i}}$
	$=$	$[K_{e} K_{c}^{- 5} G^{- 6}]^{1 / 4} (\frac{μ_{e}}{μ_{c}})^{- 3 / 2} (\frac{2}{π})^{1 / 2} A η_{s},$

where — again, from our accompanying table of parameter values —

$θ_{i}$	$=$	$(1 + \frac{1}{3} ξ_{i}^{2})^{- 1 / 2};$	(0.96077)
$η_{i}$	$=$	$(\frac{μ_{e}}{μ_{c}}) \sqrt{3} θ_{i}^{2} ξ_{i};$	(0.79941)
$Λ_{i}$	$=$	$\frac{1}{η_{i}} - \frac{ξ_{i}}{\sqrt{3}};$	(0.96225)
$A$	$=$	$η_{i} (1 + Λ_{i}^{2})^{1 / 2};$	(1.10940)
$η_{s}$	$=$	$η_{i} + \frac{π}{2} + \tan^{- 1} (Λ_{i});$	(3.13637)
$\frac{M_{t o t}}{[K_{e} K_{c}^{- 5} G^{- 6}]^{1 / 4}}$	$=$	$(\frac{μ_{e}}{μ_{c}})^{- 3 / 2} (\frac{2}{π})^{1 / 2} A η_{s};$	(2.77623)
$\frac{ρ_{0}}{[K_{e}^{- 5} K_{c}^{5}]^{1 / 4}}$	$=$	$(\frac{μ_{e}}{μ_{c}})^{- 5 / 2} θ_{i}^{- 5} .$	(1.22153)

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Instability Onset Overview
Analytic (nc,ne)=(5,1)
- Part 1
- Part 2

@@ Line 295: / Line 295: @@
    \biggl( \frac{\mu_e}{\mu_c} \biggr)^{-3 / 2}
 \biggl(\frac{2}{\pi}\biggr)^{1/2} A\eta_s
-\, .
+\, ;
 </math>
    </td>
    <td align="center">&nbsp; &nbsp; &nbsp;</td>
    <td align="left">(2.77623)</td>
+</tr>
+<tr>
+  <td align="right">
+<math>\frac{\rho_0}{[K_e^{-5}K_c^{5}]^{1/4}}</math>
+  </td>
+  <td align="center">
+<math>=</math>
+  </td>
+  <td align="left">
+<math>
+\biggl( \frac{\mu_e}{\mu_c} \biggr)^{-5 / 2} \theta^{-5}_i\, .
+</math>
+  </td>
+  <td align="center">&nbsp; &nbsp; &nbsp;</td>
+  <td align="left">(1.22153)</td>
 </tr>
 </table>

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Revision as of 16:45, 12 October 2025

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Main Sequence to Red Giant to Planetary Nebula

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Main Sequence to Red Giant to Planetary Nebula

Following the Lead of Yabushita75

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