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Numerical Methods in Astrophysics

Peter Bodenheimer | Gregory P. Laughlin | Michal Rozyczka | Tomasz Plewa | Harold. W Yorke | Harold W. Yorke
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A01=Gregory P. Laughlin
A01=Harold. W Yorke
A01=Michal Rozyczka
A01=Peter Bodenheimer
A01=Tomasz Plewa
Alternating Direction Implicit Technique
Artificial Viscosity
astrophysical code development
ATHENA
Author_Gregory P. Laughlin
Author_Harold. W Yorke
Author_Michal Rozyczka
Author_Peter Bodenheimer
Author_Tomasz Plewa
Category=PHVB
CFL Condition
Computational methods
Contact Discontinuity
Convection Zones
D1 E1
Electromotive Force
Energy Density
Energy Equation
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eq_isMigrated=1
eq_isMigrated=2
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grid-based fluid mechanics
hydrodynamic instability
hydrodynamics
Jacobi Coordinates
MOCASSIN
N-body simulations
Numerical computational methods
numerical simulation techniques in astrophysics
Optical Depth
Orbital Elements
Ordinary Differential Equations
Pseudo-time Step
Radiation Transfer
radiation transfer modeling
radiative transfer
Riemann Problem
Semimajor Axis
Shock Front
Smoothed Particle Hydrodynamics
Smoothing Length
SPH Equation
SPH Method
stellar evolution analysis
Test Problem
Time Step
White Dwarf

Product details

  • ISBN 9780750308830
  • Weight: 660g
  • Dimensions: 156 x 234mm
  • Publication Date: 13 Dec 2006
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Hardback
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Description

Numerical Methods in Astrophysics: An Introduction outlines various fundamental numerical methods that can solve gravitational dynamics, hydrodynamics, and radiation transport equations. This resource indicates which methods are most suitable for particular problems, demonstrates what the accuracy requirements are in numerical simulations, and suggests ways to test for and reduce the inevitable negative effects.

After an introduction to the basic equations and derivations, the book focuses on practical applications of the numerical methods. It explores hydrodynamic problems in one dimension, N-body particle dynamics, smoothed particle hydrodynamics, and stellar structure and evolution. The authors also examine advanced techniques in grid-based hydrodynamics, evaluate the methods for calculating the gravitational forces in an astrophysical system, and discuss specific problems in grid-based methods for radiation transfer. The book incorporates brief user instructions and a CD-ROM of the numerical codes, allowing readers to experiment with the codes to suit their own needs.

With numerous examples and sample problems that cover a wide range of current research topics, this highly practical guide illustrates how to solve key astrophysics problems, providing a clear introduction for graduate and undergraduate students as well as researchers and professionals.
About Gregory P. Laughlin | Harold. W Yorke | Michal Rozyczka | Peter Bodenheimer | Tomasz Plewa
Peter Bodenheimer, Gregory P. Laughlin, Michal Rozyczka, Tomasz Plewa, Harold W. Yorke

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