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   </td>
   </td>
</tr>
</tr>
</table>
Hence,
<table border="0" cellpadding="5" align="center">
<tr>
  <td align="right">
<math>~0</math>
  </td>
  <td align="center">
<math>~=</math>
  </td>
  <td align="left">
<math>~
\frac{d^2x}{dr_0^2} + \biggl[\frac{4}{r_0} - \biggl(\frac{g_0 \rho_0}{P_0}\biggr) \biggr] \frac{dx}{dr_0}
+ \biggl(\frac{\rho_0}{\gamma_\mathrm{g} P_0} \biggr)\biggl[\omega^2 + (4 - 3\gamma_\mathrm{g})\frac{g_0}{r_0} \biggr]  x
</math>
  </td>
</tr>
<tr>
  <td align="right">
&nbsp;
  </td>
  <td align="center">
<math>~=</math>
  </td>
  <td align="left">
<math>~
\frac{d^2x}{dr_0^2} + \biggl[4 - \biggl(\frac{g_0 \rho_0 r_0}{P_0}\biggr) \biggr] \frac{1}{r_0}\cdot \frac{dx}{dr_0}
+ \biggl(\frac{\rho_0}{\gamma_\mathrm{g} P_0} \biggr)\biggl[\omega^2 + (4 - 3\gamma_\mathrm{g})\frac{g_0}{r_0} \biggr]  x
</math>
  </td>
</tr>
</tr>
</table>
</table>

Revision as of 22:11, 25 December 2025

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


Part I:  Background & Objective

 


Part II: 

 


Part III: 

 


Part IV: 

 

Foundation

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

Adiabatic Wave (or Radial Pulsation) Equation

d2xdr02+[4r0(g0ρ0P0)]dxdr0+(ρ0γgP0)[ω2+(43γg)g0r0]x=0

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

ρ*

ρ0ρc

;    

r*

r0[Kc1/2/(G1/2ρc2/5)]

P*

P0Kcρc6/5

;    

Mr*

Mr[Kc3/2/(G3/2ρc1/5)]

We note as well that,

g0

=

GM(r0)r02=GMr*(r*)2[ρc3/5(KcG)1/2]

Hence,

0

=

d2xdr02+[4r0(g0ρ0P0)]dxdr0+(ρ0γgP0)[ω2+(43γg)g0r0]x

 

=

d2xdr02+[4(g0ρ0r0P0)]1r0dxdr0+(ρ0γgP0)[ω2+(43γg)g0r0]x

Multiplying this LAWE through by (Kc/G)ρc4/5 and recognizing that,

g0

=

GM(r0)r02=GMr*(r*)2[ρc3/5(KcG)1/2]

we have,

0

=

d2xdr*2+{4r*(ρ*P*)Mr*(r*)2}dxdr*+(ρ*P*){ω2γgGρc+(4γg3)Mr*(r*)3}x

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

0

=

x+r*x+𝒦x,

where,

x

=

dxdr*

      and      

x

=

d2xd(r*)2;

and,

𝒦(σc2γg)𝒦1αg𝒦2;

and,

{4(ρ*P*)Mr*(r*)}

      ,      

𝒦1

2π3(ρ*P*)

      and      

𝒦2

(ρ*P*)Mr*(r*)3.

Drawing from our "Table 2" profiles,

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