Astrophysical Flows

Almost all conventional matter in the Universe is fluid, and fluid dynamics plays a crucial role in astrophysics. This graduate textbook, first published in 2007, provides a basic understanding of the fluid dynamical processes relevant to astrophysics. The mathematics used to describe these processes is simplified to bring out the underlying physics. The authors cover many topics, including wave propagation, shocks, spherical flows, stellar oscillations, the instabilities caused by effects such as magnetic fields, thermal driving, gravity, shear flows, and the basic concepts of compressible fluid dynamics and magnetohydrodynamics. The authors are Directors of the UK Astrophysical Fluids Facility (UKAFF) at the University of Leicester, and editors of the Cambridge Astrophysics Series. This book has been developed from a course in astrophysical fluid dynamics taught at the University of Cambridge. It is suitable for graduate students in astrophysics, physics and applied mathematics, and requires only a basic familiarity with fluid dynamics.

Provides coverage of the fundamental fluid dynamical processes an astrophysical theorist needs to know
Introduces new mathematical theory and techniques in a straightforward manner
Includes end-of-chapter problems to illustrate the course and introduce additional ideas

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"While this is a small book, when compared with most texts, it covers the area quite adequately for a basic understanding."
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"...this is a very useful book for new graduate students and it also gives new insights to those of us with more experience; I wish it had been available when I was learning the subject." --Robert Connon Smith

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Product details

Published: June 2007
Format: Adobe eBook Reader
ISBN: 9780511282935
Length: 0 pages
Weight: 0kg
Availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.

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Contents

1. The basic fluid equations
2. Compressible media
3. Spherically symmetric flows
4. Stellar models and stellar oscillations
5. Stellar oscillations - waves in stratified media
6. Damping and excitation of stellar oscillations
7. Magnetic instability in a static atmosphere
8. Thermal instabilities
9. Gravitational instability
10. Linear shear flows
11. Rotating flows
12. Circular shear flow with self-gravity
13. Modes in rotating stars
14. Cylindrical shear flow - non-axisymmetric instability
References
Index.

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About the authors

Authors

James E. Pringle , University of Cambridge
Jim Pringle is Professor of Theoretical Astronomy and a Fellow of Emmanuel College at the University of Cambridge, and Senior Visitor at the Space Telescope Science Institute, Baltimore.
Andrew King , University of Leicester
Andrew King is Professor of Astrophysics at the University of Leicester and a Royal Society Wolfson Research Merit Award holder. He is co-author of Accretion Power in Astrophysics, 3rd edition (Cambridge University Press, 2002).

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