Revision as of 21:44, 25 December 2025

Main Sequence to Red Giant to Planetary Nebula (Part 2)

Foundation

In an accompanying discussion, we derived the so-called,

Adiabatic Wave (or Radial Pulsation) Equation

$\frac{d^{2} x}{d r_{0}^{2}} + [\frac{4}{r_{0}} - (\frac{g_{0} ρ_{0}}{P_{0}})] \frac{d x}{d r_{0}} + (\frac{ρ_{0}}{γ_{g} P_{0}}) [ω^{2} + (4 - 3 γ_{g}) \frac{g_{0}}{r_{0}}] x = 0$

whose solution gives eigenfunctions that describe various radial modes of oscillation in spherically symmetric, self-gravitating fluid configurations.

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

We note as well that,

$g_{0}$

$=$

$\frac{G M (r_{0})}{r_{0}^{2}} = \frac{G M_{r}^{*}}{(r^{*})^{2}} [ρ_{c}^{3 / 5} (\frac{K_{c}}{G})^{1 / 2}]$

Multiplying this LAWE through by $(K_{c} / G) ρ_{c}^{- 4 / 5}$ and recognizing that,

$g_{0}$

$=$

$\frac{G M (r_{0})}{r_{0}^{2}} = \frac{G M_{r}^{*}}{(r^{*})^{2}} [ρ_{c}^{3 / 5} (\frac{K_{c}}{G})^{1 / 2}]$

we have,

$0$

$=$

$\frac{d^{2} x}{d r *^{2}} + {\frac{4}{r^{*}} - (\frac{ρ^{*}}{P^{*}}) \frac{M_{r}^{*}}{(r^{*})^{2}}} \frac{d x}{d r *} + (\frac{ρ^{*}}{P^{*}}) {\frac{ω^{2}}{γ_{g} G ρ_{c}} + (\frac{4}{γ_{g}} - 3) \frac{M_{r}^{*}}{(r^{*})^{3}}} x$

In shorthand, we can rewrite this equation in the form,

$0$

$=$

$x^{″} + \frac{ℋ}{r^{*}} x^{'} + 𝒦 x,$

where,

$x^{'}$

$=$

$\frac{d x}{d r^{*}}$

and

$x^{″}$

$=$

$\frac{d^{2} x}{d (r^{*})^{2}};$

and,

$𝒦 \to (\frac{σ_{c}^{2}}{γ_{g}}) 𝒦_{1} - α_{g} 𝒦_{2};$

and,

$ℋ$

$\equiv$

${4 - (\frac{ρ^{*}}{P^{*}}) \frac{M_{r}^{*}}{(r^{*})}}$

,

$𝒦_{1}$

$\equiv$

$\frac{2 π}{3} (\frac{ρ^{*}}{P^{*}})$

and

$𝒦_{2}$

$\equiv$

$(\frac{ρ^{*}}{P^{*}}) \frac{M_{r}^{*}}{(r^{*})^{3}} .$

Drawing from our "Table 2" profiles,

Related Discussions

@@ Line 27: / Line 27: @@
 </div>
-whose solution gives eigenfunctions that describe various radial modes of oscillation in spherically symmetric, self-gravitating fluid configurations.  Multiplying this LAWE through by <math>(K_c/G)\rho_c^{-4 / 5}</math> and recognizing that,
+whose solution gives eigenfunctions that describe various radial modes of oscillation in spherically symmetric, self-gravitating fluid configurations.
+<table border="1" align="center" cellpadding="8" width="80%"><tr><td align="left">
+<div align="center">
+<table border="0" cellpadding="3">
+<tr>
+  <td align="right">
+<math>~\rho^*</math>
+  </td>
+  <td align="center">
+<math>~\equiv</math>
+  </td>
+  <td align="left">
+<math>~\frac{\rho_0}{\rho_c}</math>
+  </td>
+  <td align="center">; &nbsp;&nbsp;&nbsp;</td>
+  <td align="right">
+<math>~r^*</math>
+  </td>
+  <td align="center">
+<math>~\equiv</math>
+  </td>
+  <td align="left">
+<math>~\frac{r_0}{[K_c^{1/2}/(G^{1/2}\rho_c^{2/5})]}</math>
+  </td>
+</tr>
+<tr>
+  <td align="right">
+<math>~P^*</math>
+  </td>
+  <td align="center">
+<math>~\equiv</math>
+  </td>
+  <td align="left">
+<math>~\frac{P_0}{K_c\rho_c^{6/5}}</math>
+  </td>
+  <td align="center">; &nbsp;&nbsp;&nbsp;</td>
+  <td align="right">
+<math>~M_r^*</math>
+  </td>
+  <td align="center">
+<math>~\equiv</math>
+  </td>
+  <td align="left">
+<math>~\frac{M_r}{[K_c^{3/2}/(G^{3/2}\rho_c^{1/5})]}</math>
+  </td>
+</tr>
+</table>
+</div>
+We note as well that,
+<table border="0" cellpadding="5" align="center">
+<tr>
+  <td align="right">
+<math>~g_0</math>
+  </td>
+  <td align="center">
+<math>~=</math>
+  </td>
+  <td align="left">
+<math>~\frac{GM(r_0)}{r_0^2}
+=
+\frac{G M_r^*}{(r^*)^2} \biggl[ \rho_c^{3 / 5} \biggl( \frac{K_c}{G}\biggr)^{1 / 2} \biggr]
+</math>
+  </td>
+</tr>
+</tr>
+</table>
+</td></tr></table>
+Multiplying this LAWE through by <math>(K_c/G)\rho_c^{-4 / 5}</math> and recognizing that,
 <table border="0" cellpadding="5" align="center">

SSC/Stability/BiPolytropes/RedGiantToPN/Pt2: Difference between revisions

Revision as of 21:44, 25 December 2025

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Main Sequence to Red Giant to Planetary Nebula (Part 2)

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SSC/Stability/BiPolytropes/RedGiantToPN/Pt2: Difference between revisions

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Main Sequence to Red Giant to Planetary Nebula (Part 2)

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