Latest revision as of 13:47, 3 September 2024

Parabolic Density Distribution[edit]

Part III: Axisymmetric Equilibrium Structures

Part IV: Triaxial Equilibrium Structures (Exploration)

Spherically Symmetric Equilibrium Structure[edit]

In an article titled, "Radial Oscillations of a Stellar Model," 📚 C. Prasad (1949, MNRAS, Vol 109, pp. 103 - 107) investigated the properties of an equilibrium configuration with a prescribed density distribution given by the expression,

$ρ (r) = ρ_{c} [1 - (\frac{r}{R})^{2}],$

where, $ρ_{c}$ is the central density and $R$ is the radius of the star.

Radial Profiles[edit]

In a related discussion we have derived the following expressions that describe analytically various structural properties of this equilibrium configuration.

$M_{r} (r)$	$=$	$\frac{4 π ρ_{c} r^{3}}{3} [1 - \frac{3}{5} (\frac{r}{R})^{2}];$
$g_{0} (r) \equiv \frac{G M_{r} (r)}{r^{2}}$	$=$	$\frac{4 π G ρ_{c} r}{3} [1 - \frac{3}{5} (\frac{r}{R})^{2}];$
$Φ_{g r a v}$	$=$	$\frac{G M_{t o t}}{8 R} {- 15 + 10 (\frac{r}{R})^{2} - 3 (\frac{r}{R})^{4}};$
$P (r)$	$=$	$\frac{4 π G ρ_{c}^{2} R^{2}}{15} [1 - (\frac{r}{R})^{2}]^{2} [1 - \frac{1}{2} (\frac{r}{R})^{2}];$
$H (r)$	$=$	$\frac{G M_{t o t}}{8 R} [7 - 10 (\frac{r}{R})^{2} + 3 (\frac{r}{R})^{4}] .$

Note that the total mass is obtained by setting $r = R$ in the expression for $M_{r} (r)$ , namely,

$M_{t o t}$

$=$

$\frac{4 π ρ_{c} R^{3}}{3} [\frac{2}{5}] = \frac{8 π ρ_{c} R^{3}}{15}$ $\Rightarrow$ $2 π ρ_{c} = \frac{15 M_{t o t}}{4 R^{3}} .$

Effective Barotropic Relations[edit]

By replacing $r / R$ with $ρ / ρ_{c}$ , we obtain analytic expression for, respectively, the pressure-density and enthalpy-density (effective barotropic) relations that are relevant in this parabolic configuration. Specifically,

$\frac{ρ}{ρ_{c}}$	$=$	$[1 - (\frac{r}{R})^{2}]$
$\Rightarrow (\frac{r}{R})^{2}$	$=$	$[1 - (\frac{ρ}{ρ_{c}})]$
$\Rightarrow \frac{P (ρ)}{P_{c}}$	$=$	${1 - [1 - (\frac{ρ}{ρ_{c}})]}^{2} {1 - \frac{1}{2} [1 - (\frac{ρ}{ρ_{c}})]}$
	$=$	$\frac{1}{2} (\frac{ρ}{ρ_{c}})^{2} [1 + (\frac{ρ}{ρ_{c}})],$

where,

$P_{c}$

$\equiv$

$\frac{4 π G ρ_{c}^{2} R^{2}}{15} .$

And,

$\frac{H (ρ)}{H_{n o r m}}$	$=$	$7 - 10 [1 - (\frac{ρ}{ρ_{c}})] + 3 [1 - (\frac{ρ}{ρ_{c}})]^{2}$
	$=$	$4 (\frac{ρ}{ρ_{c}}) + 3 (\frac{ρ}{ρ_{c}})^{2},$

where,

$H_{n o r m}$

$\equiv$

$\frac{G M_{t o t}}{8 R} .$

@@ Line 122: / Line 122: @@
 </table>
-===Barotropic Profiles===
+===Effective Barotropic Relations===
 By replacing <math>r/R</math> with <math>\rho/\rho_c</math>, we obtain analytic expression for, respectively, the pressure-density and enthalpy-density (effective [[SR#Barotropic_Structure|barotropic]]) relations that are relevant in this ''parabolic'' configuration.  Specifically,
@@ Line 198: / Line 198: @@
    </td>
 </tr>
+</table>
+And,
+<table border="0" cellpadding="5" align="center">
+<tr>
+  <td align="right"><math>\frac{H(\rho)}{H_\mathrm{norm}}</math></td>
+  <td align="center"><math>=</math></td>
+  <td align="left">
+<math>
+- 10\biggl[ 1 - \biggl(\frac{\rho}{\rho_c} \biggr) \biggr] + 3\biggl[ 1 - \biggl(\frac{\rho}{\rho_c} \biggr) \biggr]^2
+</math>
+  </td>
+</tr>
+<tr>
+  <td align="right">&nbsp;</td>
+  <td align="center"><math>=</math></td>
+  <td align="left">
+<math>
+\biggl(\frac{\rho}{\rho_c} \biggr) + 3\biggl(\frac{\rho}{\rho_c} \biggr)^2
+\, ,
+</math>
+  </td>
+</tr>
+</table>
+where,
+<table border="0" cellpadding="5" align="center">
+<tr>
+  <td align="right">
+<math>H_\mathrm{norm}</math>
+  </td>
+  <td align="center">
+<math>\equiv</math>
+  </td>
+  <td align="left">
+<math>\frac{GM_\mathrm{tot}}{8 R}  \, .</math>
+  </td>
+</tr>
 </table>

ParabolicDensity/Spheres/Structure: Difference between revisions

Latest revision as of 13:47, 3 September 2024

Contents

Parabolic Density Distribution[edit]

Spherically Symmetric Equilibrium Structure[edit]

Radial Profiles[edit]

Effective Barotropic Relations[edit]

See Also[edit]

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ParabolicDensity/Spheres/Structure: Difference between revisions

Latest revision as of 13:47, 3 September 2024

Parabolic Density Distribution[edit]

Spherically Symmetric Equilibrium Structure[edit]

Radial Profiles[edit]

Effective Barotropic Relations[edit]

See Also[edit]

Navigation menu

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