Revision as of 14:58, 16 February 2022

Description of Riemann Type I Ellipsoids

Type I Riemann Ellipsoids

This particular set of seven key parameters has been drawn from [EFE] Chapter 7, Table XIII (p. 170). The tabular layout presented here, also appears in a related discussion labeled, Challenges Pt. 2.

a = a_{1} = 1

b = a_{2} = 1.25

c = a_{3} = 0.4703

Ω_{2} = 0.3639

Ω_{3} = 0.6633

ζ_{2} = - 2.2794

ζ_{3} = - 1.9637

As a consequence — see an accompanying discussion (alternatively, ChallengesPt6) for details — the values of other parameters are …

			Example Values
$\tan θ$	$=$	$- \frac{ζ_{2}}{ζ_{3}} [\frac{a^{2} + b^{2}}{a^{2} + c^{2}}] \frac{c^{2}}{b^{2}} = - 0.344793$	$θ =$	$- 19.023 8^{\circ}$
$Λ$	$\equiv$	$[\frac{a^{2}}{a^{2} + b^{2}}] ζ_{3} \cos θ - [\frac{a^{2}}{a^{2} + c^{2}}] ζ_{2} \sin θ$	$Λ =$	$- 1.332892$
$\frac{y_{0}}{z_{0}}$	$=$	$[\frac{a^{2}}{a^{2} + c^{2}}] \frac{ζ_{2}}{Λ} = - \frac{b^{2} \sin θ}{(c^{2} \cos^{2} θ + b^{2} \sin^{2} θ)}$	$\frac{y_{0}}{z_{0}} =$	$+ 1.400377$
$\frac{x_{m a x}}{y_{m a x}}$	$=$	${Λ [\frac{a^{2} + b^{2}}{b^{2}}] \frac{\cos θ}{ζ_{3}}}^{1 / 2}$	$\frac{x_{m a x}}{y_{m a x}} =$	$+ 1.025854$
$\dot{φ}$	$=$	${Λ [\frac{b^{2}}{a^{2} + b^{2}}] \frac{ζ_{3}}{\cos θ}}^{1 / 2}$	$\dot{φ} =$	$+ 1.299300$

@@ Line 21: / Line 21: @@
 </table>
-As a consequence &#8212; see [[ThreeDimensionalConfigurations/RiemannTypeI#Try_Again|an accompanying discussion]] for details &#8212; the values of other parameters are &hellip;
+As a consequence &#8212; see [[ThreeDimensionalConfigurations/RiemannTypeI#Try_Again|an accompanying discussion]] (alternatively, [[ThreeDimensionalConfigurations/ChallengesPt6#Are_Orbits_Exact_Circles|ChallengesPt6]]) for details &#8212; the values of other parameters are &hellip;
 <table border="0" cellpadding="5" align="center">
@@ Line 86: / Line 86: @@
 <math>
 \biggl[ \frac{a^2}{a^2 + c^2} \biggr] \frac{\zeta_2}{\Lambda}
+=
+- \frac{b^2 \sin\theta}{(c^2\cos^2\theta + b^2\sin^2\theta)}
 </math>
    </td>