Editing Appendix/Ramblings/RiemannMeetsOculus (section)

===Multiple Lagrangian Fluid Elements===

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<font color="darkgreen"><b>MultiLagrange18.dae</b></font>: 
<br />The basic elements of this model are identical to the one, above, named "Final17.dae", but we have modified it to complete the 5<sup>th</sup> ''remaining detail'' enumerated above.  Specifically, in this rotating frame model, we have made the purple ellipsoid somewhat transparent to reveal the internal trajectories of three Lagrange particles. &nbsp; <font color="red">This works in both visualization venues!</font>
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<font color="darkgreen"><b>MultiLagrange20.dae</b></font>: 
<br />In this model, we show the motion of six Lagrange particles. &nbsp; <font color="red">This works in both visualization venues!</font>
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<font color="darkgreen"><b>MultiLagrange21.dae</b></font>: 
<br />Make all six of the Lagrangian "red cube" markers smaller. 
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<font color="darkgreen"><b>MultiLagrange23.dae</b></font>: 
<br />This model shows the motion of nine (small, red cube) Lagrange particles whose motion is confined to the equatorial plane of the Riemann ellipsoid. This nicely illustrates that the volume occupied by a region of fluid remains unchanged as the fluid moves around the ellipsoid.  &nbsp; <font color="red">This works in both visualization venues!</font>
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<font color="darkgreen"><b>MultiLagrange24.dae</b></font>: 
<br />This model shows the motion of '''eight''' (small, red cube) Lagrange particles whose motion is confined to the equatorial plane of the Riemann ellipsoid. This actually does a ''worse'' job of illustrating volume conservation than does the 9-particle (MultiLagrange23) model.
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<font color="darkgreen"><b>MultiLagrange26.dae</b></font>:  
<br />Here, we set the "nudging" angle of the MidPlane to 1&deg;, and moved the "nudging" angle of the ellipsoid from 5&deg; to 0&deg;.  This appears to <font color="red">work in both visualization venues</font>.   
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