Difference between revisions of "User:Tohline/H Book"
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Example Solutions: | |||
* [[User:Tohline/SSC/Structure/UniformDensity#Uniform-Density_Sphere|Uniform-density sphere]] | |||
* [[User:Tohline/SSC/Structure/PowerLawDensity#Power-Law_Density_Distributions|Power-law density distribution]] | |||
* Polytropes | |||
**[[User:Tohline/SSC/Structure/Polytropes#Polytropic_Spheres|Isolated]] | |||
**[[User:Tohline/SSC/Structure/PolytropesEmbedded#Embedded_Polytropic_Spheres|Embedded in External Medium]] | |||
* Isothermal sphere | |||
**[[User:Tohline/SSC/Structure/IsothermalSphere#Isothermal_Sphere|Isolated]] | |||
**[[User:Tohline/SSC/Structure/BonnorEbert#Pressure-Bounded_Isothermal_Sphere|Bonnor-Ebert Sphere]] | |||
* [[User:Tohline/SSC/Structure/WhiteDwarfs#White_Dwarfs|Zero-temperature White Dwarf]] | |||
* [[User:Tohline/SSC/Structure/BiPolytropes#BiPolytropes|BiPolytropes]] | |||
** [[User:Tohline/SSC/Structure/BiPolytropes/Analytic0_0#BiPolytrope_with_nc_.3D_0_and_ne_.3D_0|Analytic solution]] for <math>n_c = 0, ~n_e = 0</math>. | |||
** [[User:Tohline/SSC/Structure/BiPolytropes/Analytic5_1#BiPolytrope_with_nc_.3D_5_and_ne_.3D_1|Analytic solution]] for <math>n_c = 5, ~n_e = 1</math>. | |||
* [[User:Tohline/SSC/Structure/LimitingMasses#Mass_Upper_Limits|Limiting Masses]] </td> | |||
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<table border="1" width="100%" cellspacing="2" cellpadding="8"> | |||
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<th align="left" width="50%"> | |||
Solution Strategies | |||
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<font color="darkblue">[[User:Tohline/SphericallySymmetricConfigurations/SolutionStrategies#Spherically_Symmetric_Configurations_.28Part_II.29|Detailed Force-Balance]]</font><br>(DFB) | |||
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<th align="center"> | |||
<font color="darkblue">[[User:Tohline/SphericallySymmetricConfigurations/Virial#Virial_Equilibrium|Virial Equilibrium]]</font><br>(VE) | |||
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<td align="left" colspan="3"> | |||
Example Solutions: | Example Solutions: | ||
* [[User:Tohline/SSC/Structure/UniformDensity#Uniform-Density_Sphere|Uniform-density sphere]] | * [[User:Tohline/SSC/Structure/UniformDensity#Uniform-Density_Sphere|Uniform-density sphere]] | ||
Revision as of 17:05, 30 April 2014
Preface from the original version of this HyperText Book (H_Book):
November 18, 1994
Much of our present, basic understanding of the structure, stability, and dynamical evolution of individual stars, short-period binary star systems, and the gaseous disks that are associated with numerous types of stellar systems (including galaxies) is derived from an examination of the behavior of a specific set of coupled, partial differential equations. These equations — most of which also are heavily utilized in studies of continuum flows in terrestrial environments — are thought to govern the underlying physics of all macroscopic "fluid" systems in astronomy. Although relatively simple in form, they prove to be very rich in nature... <more>
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Pictorial Table of Contents
Context
- Principal Governing Equations
- Continuity Equation
- Euler Equation
- <math>1^\mathrm{st}</math> Law of Thermodynamics
- Poisson Equation
Applications
Spherically Symmetric Configurations
Introduction (Alternate Introduction)
Structure:
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Example Solutions:
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Solution Strategies |
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Example Solutions:
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Stability:
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Example Solutions: |
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Dynamics:
Two-Dimensional Configurations
- Introduction
Structure:
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Solution Strategies |
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Example Solutions:
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Stability:
Dynamics:
Three-Dimensional Configurations
Structure:
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Solution Strategies |
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Example Solutions:
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Stability:
Dynamics:
Appendices
See Also
- NIST Digital Library of Mathematical Functions; see also the related CUP Publication
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© 2014 - 2021 by Joel E. Tohline |