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   <li>[[PGE/Euler|Euler]]
   <li>[[PGE/Euler|Euler]]
   <ol type="A">
   <ol type="A">
     <li>[[AxisymmetricConfigurations/SolutionStrategies|Axisymmetric Configurations (Solution Strategies)]]; Double check vector identities</li>
     <li>[[AxisymmetricConfigurations/SolutionStrategies|Axisymmetric Configurations (Solution Strategies)]]; Double check vector identities <font color="red">&clubs;</font></li>
   <li>[[PGE/RotatingFrame|Rotating Reference Frame]]; Euler equation viewed from a rotating frame of reference</li>
   <li>
[[PGE/RotatingFrame|Rotating Reference Frame]]; Euler equation viewed from a rotating frame of reference
  <ol type="1">
    <li>[[Apps/RiemannEllipsoidsCompressible|Compressible Analogs of Riemann S-Type Ellipsoids]]; Nonlinear velocity cross-product <font color="red">&clubs;</font></li>
    <li>[[Apps/Korycansky_Papaloizou_1996|Korycansky and Papaloizou (1996)]]; Nonlinear velocity cross-product</li>
  </ol>
  </li>
   <li>[[PGE/ConservingMomentum|Euler Equation (Conserving Momentum)]]; Earlier draft of "Euler" presentation</li>
   <li>[[PGE/ConservingMomentum|Euler Equation (Conserving Momentum)]]; Earlier draft of "Euler" presentation</li>
   </ol>
   </ol>

Revision as of 19:54, 14 December 2023

Primary (Tiled Menu) Chapters

Context

  1. Principal Governing Equations (PGEs)
    1. Equations Cast in Cylindrical Coordinates
  2. Continuity
  3. Euler
    1. Axisymmetric Configurations (Solution Strategies); Double check vector identities
    2. Rotating Reference Frame; Euler equation viewed from a rotating frame of reference
      1. Compressible Analogs of Riemann S-Type Ellipsoids; Nonlinear velocity cross-product
      2. Korycansky and Papaloizou (1996); Nonlinear velocity cross-product
    3. Euler Equation (Conserving Momentum); Earlier draft of "Euler" presentation
  4. 1st Law of Thermodynamics
    1. Radiation-Hydrodynamcis; Nonadiabatic (optically thick) environments
  5. Poisson
  6. Global Energy Considerations
  7. Equation of State (EOS)
    1. Axisymmetric Instabilities to Avoid; Poincaré-Wavre theorem
  8. Ideal Gas
  9. Total Pressure
  10. Bond, Arnett, & Carr (1984)

See Also

  • means templates and recursive chapter references not yet checked
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