Revision as of 13:57, 6 January 2026

Main Sequence to Red Giant to Planetary Nebula (Part 3)

Yabushita68-Motivated Analysis

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

Polytropic LAWE

	$0 = \frac{d^{2} x}{d ξ^{2}} + [4 - (n + 1) Q] \frac{1}{ξ} \cdot \frac{d x}{d ξ} + (n + 1) [(\frac{σ_{c}^{2}}{6 γ_{g}}) \frac{ξ^{2}}{θ} - α Q] \frac{x}{ξ^{2}}$
where: $Q (ξ) \equiv - \frac{d \ln θ}{d \ln ξ},$ $σ_{c}^{2} \equiv \frac{3 ω^{2}}{2 π G ρ_{c}},$ and, $α \equiv (3 - \frac{4}{γ_{g}})$

Motivated by the derivation presented by 📚 S. Yabushita (1968, MNRAS, Vol. 140, pp. 109 - 120), let's now insert an integration constant, $C_{0}$ , into this 2^nd-order ODE to obtain what we henceforth will refer to as the,

Yabushita68-Motivated Polytropic LAWE

$C_{0} = \frac{d^{2} x}{d η^{2}} + [4 - (n + 1) Q] \frac{1}{η} \cdot \frac{d x}{d η} + (n + 1) [(\frac{σ_{c}^{2}}{6 γ_{g}}) \frac{η^{2}}{θ} - α Q] \frac{x}{η^{2}}$

After setting $σ_{c}^{2} = 0$ , let's guess an eigenfunction of the form,

$x$

$=$

$η^{- m} \Rightarrow \frac{d x}{d η} = - m η^{- m - 1}$ and $\frac{d^{2} x}{d η^{2}} = - m (- m - 1) η^{- m - 2},$

in which case we find that,

$C_{0}$	$=$	$- m (- m - 1) η^{- m - 2} + [4 - (n + 1) Q] \frac{1}{η} [- m η^{- m - 1}] + (n + 1) [- α Q] η^{- m - 2}$
	$=$	${m (m + 1) - [4 - (n + 1) Q] [m] + (n + 1) [- α Q]} η^{- m - 2}$

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@@ Line 61: / Line 61: @@
 in which case we find that,
 <table border="0" cellpadding="5" align="center">
 <tr>
    <td align="right">
@@ Line 74: / Line 75: @@
    </td>
 </tr>
-</table>
+<tr>
+  <td align="right">
+&nbsp;
+  </td>
+  <td align="center"><math>=</math></td>
+  <td align="left">
+<math>
+\biggl\{~
+m(m+1)
+- \biggl[ 4 - (n+1) Q \biggr]  \biggl[ m \biggr]
++ (n+1) \biggl[  - \alpha Q\biggr]
+~\biggr\} \eta^{-m - 2}
+</math>
+  </td>
 </tr>
 </table>

SSC/Stability/BiPolytropes/RedGiantToPN/Pt3: Difference between revisions

Revision as of 13:57, 6 January 2026

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Main Sequence to Red Giant to Planetary Nebula (Part 3)

Yabushita68-Motivated Analysis

Related Discussions

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SSC/Stability/BiPolytropes/RedGiantToPN/Pt3: Difference between revisions

Revision as of 13:57, 6 January 2026

Main Sequence to Red Giant to Planetary Nebula (Part 3)

Yabushita68-Motivated Analysis

Related Discussions

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