Appendix/Ramblings/51BiPolytropeStability/BetterInterface: Difference between revisions

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==Solid Foundation==
==Solid Foundation==
Here we pull primarily from the chapters labeled II and III, above.
Beginning with the familiar,
<div align="center" id="2ndOrderODE">
<font color="#770000">'''Adiabatic Wave''' (or ''Radial Pulsation'') '''Equation'''</font><br />
{{Math/EQ_RadialPulsation01}}
</div>
if we adopt the variable normalizations,
<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>
the LAWE takes the form,


=See Also=
=See Also=

Revision as of 18:23, 7 August 2023

Better Interface for 51BiPolytrope Stability Study

Content Pointing to Previous Work

Tilded Menu Pointers

  1. Murphy & Fiedler (1985b): SSC/Stability/MurphyFiedler85
    1. Interface Conditions as promoted by Ledoux & Walraven (1958)
    2. Numerical Integration
      1. General Approach
      2. Special Handling at the Center
      3. Special Handling at the Interface
    3. Reconcile Approaches
  2. Excellent Foundation (no pointer from Tiled Menu): SSC/Stability/Biipolytropes
  3. Our Broader Analysis: SSC/Stability/BiPolytropes/HeadScratching
  4. Succinct Discussion: SSC/Stability/BiPolytropes/SuccinctDiscussion

Ramblings: Analyzing Five-One Bipolytropes

  1. Assessing the Stability of Spherical, BiPolytropic Configurations
  2. Searching for Analytic EigenVector for (5,1) Bipolytropes
  3. See (below) Discussing Patrick Motl's 2019 BiPolytrope Simulations
  4. Continue Search
  5. Renormalize Structure
  6. Renormalize Structure (Part 2)
  7. More Carefully Exam Step Function Behavior
  8. More Focused Search for Analytic EigenVector if (5,1) Bipolytropes
  9. Do Not Confine Search to Analytic Eigenvector
  10. Clean, Methodical Examination
  11. Rethink Handling of n = 1 Envelope
  12. Improved Treatment of Core-Envelope Interface

Solid Foundation

Here we pull primarily from the chapters labeled II and III, above.

Beginning with the familiar,

Adiabatic Wave (or Radial Pulsation) Equation

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

if we adopt the variable normalizations,

ρ*

ρ0ρc

;    

r*

r0[Kc1/2/(G1/2ρc2/5)]

P*

P0Kcρc6/5

;    

Mr*

Mr[Kc3/2/(G3/2ρc1/5)]

the LAWE takes the form,

See Also

Tiled Menu

Appendices: | VisTrailsEquations | VisTrailsVariables | References | Ramblings | VisTrailsImages | myphys.lsu | ADS |

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