Difference between revisions of "User:Tohline/Apps/MaclaurinSpheroidSequence"

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==Detailed Force Balance Conditions==
==Detailed Force Balance Conditions==


[[File:EFE_Omega2vsEcc.png|right|400px|Maclaurin Spheroid Sequence]]
<table border="0" align="right" cellpadding="3">
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  <td align="center">'''Figure 1'''</td>
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<tr><td align="center">
[[File:EFE_Omega2vsEcc.png|center|350px|Maclaurin Spheroid Sequence]]
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  <td align="center">
Solid black curve also may be found as:
<div align="center">
Fig. 5 (p. 79) of [<b>[[User:Tohline/Appendix/References#EFE|<font color="red">EFE</font>]]</b>];<br />
Fig. 7.2 (p. 173) of [<b>[[User:Tohline/Appendix/References#ST83|<font color="red">ST83</font>]]</b>]
</div>
  </td>
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The essential structural elements of each Maclaurin spheroid model are uniquely determined once we specify the system's axis ratio, <math>~c/a</math>, or by the system's meridional-plane eccentricity, <math>~e</math>, where
The essential structural elements of each Maclaurin spheroid model are uniquely determined once we specify the system's axis ratio, <math>~c/a</math>, or by the system's meridional-plane eccentricity, <math>~e</math>, where


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The figure shown here, on the right, essentially replicates Fig. 5 (p. 79) of [<b>[[User:Tohline/Appendix/References#EFE|<font color="red">EFE</font>]]</b>].  It shows how the square of the angular velocity &#8212; in the unit <math>~\pi G\rho</math> &#8212; varies with eccentricity along the Maclaurin sequence.
The figure shown here, on the right, shows how the square of the angular velocity &#8212; in the unit <math>~\pi G\rho</math> &#8212; varies with eccentricity along the Maclaurin sequence. The small solid-green square marker identifies the


==Alternate Sequence Diagrams==
==Alternate Sequence Diagrams==
<!-- [[File:EFE_AngMomVsEcc.png|right|400px|Maclaurin Spheroid Sequence]] -->


[[File:EFE_AngMomVsEcc.png|right|400px|Maclaurin Spheroid Sequence]]
<table border="0" align="right" cellpadding="3">
<tr>
  <td align="center">'''Figure 2'''</td>
</tr>
<tr><td align="center">
[[File:EFE_AngMomVsEcc.png|center|350px|Maclaurin Spheroid Sequence]]
</td></tr>
<tr>
  <td align="center">
Solid black curve also may be found as:
<div align="center">
Fig. 6 (p. 79) of [<b>[[User:Tohline/Appendix/References#EFE|<font color="red">EFE</font>]]</b>];<br />
Fig. 7.3 (p. 174) of [<b>[[User:Tohline/Appendix/References#ST83|<font color="red">ST83</font>]]</b>]
</div>
  </td>
</tr>
</table>
The total angular momentum of each uniformly rotating Maclaurin spheroid is given by the expression,
The total angular momentum of each uniformly rotating Maclaurin spheroid is given by the expression,
<table border="0" cellpadding="5" align="center">
<table border="0" cellpadding="5" align="center">

Revision as of 16:05, 26 July 2020


Maclaurin Spheroid Sequence

Whitworth's (1981) Isothermal Free-Energy Surface
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Detailed Force Balance Conditions

Figure 1
Maclaurin Spheroid Sequence

Solid black curve also may be found as:

Fig. 5 (p. 79) of [EFE];
Fig. 7.2 (p. 173) of [ST83]

The essential structural elements of each Maclaurin spheroid model are uniquely determined once we specify the system's axis ratio, <math>~c/a</math>, or by the system's meridional-plane eccentricity, <math>~e</math>, where

<math>~e</math>

<math>~\equiv</math>

<math>~\biggl[1 - \biggl(\frac{c}{a}\biggr)^2\biggr]^{1 / 2} \, ,</math>

which varies from e = 0 (spherical structure) to e = 1 (infinitesimally thin disk). According to our accompanying derivation, for a given choice of <math>~e</math>, the square of the system's equilibrium angular velocity is,

<math> ~ \omega_0^2 </math>

<math> ~= </math>

<math> 2\pi G \rho \biggl[ A_1 - A_3 (1-e^2) \biggr] \, , </math>

where,

<math> ~A_1 </math>

<math> ~= </math>

<math> \frac{1}{e^2} \biggl[\frac{\sin^{-1}e}{e} - (1-e^2)^{1/2} \biggr](1-e^2)^{1/2} \, , </math>

<math> ~A_3 </math>

<math> ~= </math>

<math> \frac{2}{e^2} \biggl[(1-e^2)^{-1/2} -\frac{\sin^{-1}e}{e} \biggr](1-e^2)^{1/2} \, . </math>

The figure shown here, on the right, shows how the square of the angular velocity — in the unit <math>~\pi G\rho</math> — varies with eccentricity along the Maclaurin sequence. The small solid-green square marker identifies the

Alternate Sequence Diagrams

Figure 2
Maclaurin Spheroid Sequence

Solid black curve also may be found as:

Fig. 6 (p. 79) of [EFE];
Fig. 7.3 (p. 174) of [ST83]

The total angular momentum of each uniformly rotating Maclaurin spheroid is given by the expression,

<math>~L</math>

<math>~=</math>

<math>~I \omega_0 \, ,</math>

where, the moment of inertia <math>~(I)</math> and the total mass <math>~(M)</math> of a uniform-density spheroid are, respectively,

<math>~I</math>

<math>~=</math>

<math>~\biggl(\frac{2}{5}\biggr) M a^2 \, ,</math>

      and,      

<math>~M</math>

<math>~=</math>

<math>~\biggl( \frac{4\pi}{3} \biggr) \rho a^2c \, .</math>

Hence, we have,

<math>~L^2</math>

<math>~=</math>

<math>~ \frac{2^2 M^2 a^4}{5^2} \biggl[ A_1 - A_3 (1-e^2) \biggr] 2\pi G \biggl[ \frac{3}{2^2\pi} \cdot \frac{M}{a^2c} \biggr]</math>

 

<math>~=</math>

<math>~ \frac{6GM^3 {\bar{a}}}{5^2} \biggl[ A_1 - A_3 (1-e^2) \biggr]\biggl(\frac{a}{c}\biggr)^{4/3} </math>

<math>~\Rightarrow ~~~ \frac{L}{(GM^3\bar{a})^{1 / 2}}</math>

<math>~=</math>

<math>~ \frac{6^{1 / 2}}{5} \biggl[ A_1 - A_3 (1-e^2) \biggr]^{1 / 2}(1 - e^2)^{-1 / 3} \, ,</math>

where,

<math>~\bar{a}</math>

<math>~\equiv</math>

<math>~(a^2c)^{1 / 3} \, .</math>

See Also


Whitworth's (1981) Isothermal Free-Energy Surface

© 2014 - 2021 by Joel E. Tohline
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