https://selfgravitatingfluids.education/JETohline/index.php?action=history&feed=atom&title=Appendix%2FRamblings%2FForPJinApril2021Appendix/Ramblings/ForPJinApril2021 - Revision history2026-04-22T12:51:09ZRevision history for this page on the wikiMediaWiki 1.43.1https://selfgravitatingfluids.education/JETohline/index.php?title=Appendix/Ramblings/ForPJinApril2021&diff=1979&oldid=prevJoel2: Created page with "__FORCETOC__ <!-- will force the creation of a Table of Contents --> <!-- __NOTOC__ will force TOC off --> =For Pranav Jadhav in April 2021= ==Potentially Relevant Initial Links== * Tiled Menu * Fission Hypothesis of Binary Star Formation * ThreeDimensionalConfigurations/ChallengesPt2#COLLADA-Based_Representation|COLLADA-based Representation of..."2024-07-08T17:28:19Z<p>Created page with "__FORCETOC__ <!-- will force the creation of a Table of Contents --> <!-- __NOTOC__ will force TOC off --> =For Pranav Jadhav in April 2021= ==Potentially Relevant Initial Links== * <a href="/JETohline/index.php/H_BookTiledMenu#Tiled_Menu" title="H BookTiledMenu">Tiled Menu</a> * <a href="/JETohline/index.php/ThreeDimensionalConfigurations/BinaryFission#Fission_Hypothesis_of_Binary_Star_Formation" title="ThreeDimensionalConfigurations/BinaryFission">Fission Hypothesis of Binary Star Formation</a> * ThreeDimensionalConfigurations/ChallengesPt2#COLLADA-Based_Representation|COLLADA-based Representation of..."</p>
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=For Pranav Jadhav in April 2021=<br />
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==Potentially Relevant Initial Links==<br />
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* [[H_BookTiledMenu#Tiled_Menu|Tiled Menu]]<br />
* [[ThreeDimensionalConfigurations/BinaryFission#Fission_Hypothesis_of_Binary_Star_Formation|Fission Hypothesis of Binary Star Formation]]<br />
* [[ThreeDimensionalConfigurations/ChallengesPt2#COLLADA-Based_Representation|COLLADA-based Representation of Riemann Type 1 Ellipsoid]]<br />
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==Challenges to Young, Applied Mathematicians==<br />
<font color="red">'''Note from J. E. Tohline to Students with Good Mathematical Skills'''</font>: The astronomy community's understanding of the ''Structure, Stability, and Dynamics'' of stars and galaxies would be strengthened if we had, in hand, closed-form analytic solutions to the following well-defined mathematical problems. (Solutions can be obtained ''numerically'' with relative ease, but here the challenge is to find a closed-form analytic solution.) As is true with most meaningful scientific research projects, it is not at all clear whether each of these problems ''has'' a solution. In my judgment, however, it seems plausible that a closed-form solution can be discovered in each case and such a solution would be of sufficient interest to the astronomical community that it would likely be publishable in a professional astronomy or physics journal. At the very least, each of these projects represents an opportunity for a graduate student, an undergraduate, or even a talented high-school student (perhaps in connection with a mathematics science fair project?) to hone her/his research skills in applied mathematics. Also, I would be thrilled to include a solution to any one of these problems &#8212; along with full credit to the solution's author &#8212; as a chapter in this online H_Book. Having retired from LSU, I am not in a position to financially support or formally advise students who are in pursuit of a higher-education degree. I would nevertheless be interested in sharing my expertise &#8212; and, perhaps, developing a collaborative relationship &#8212; with individuals who are interested in pursuing answers to the questions posed by this identified set of problems. <br />
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* [[MathProjects/EigenvalueProblemN1|Find Analytic Solutions to an Eigenvalue Problem]]<br />
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=See Also=<br />
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