Stellar Astrophysical Fluid Dynamics
Herausgeber: Christensen-Dalsgaard, Jorgen; Thompson, Michael J.; Christensen-Dalsgaard, Jrgen
Stellar Astrophysical Fluid Dynamics
Herausgeber: Christensen-Dalsgaard, Jorgen; Thompson, Michael J.; Christensen-Dalsgaard, Jrgen
- Broschiertes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
A comprehensive overview of the current state of knowledge in stellar astrophysical fluid dynamics.
Andere Kunden interessierten sich auch für
- Michael J. Thompson / Jørgen Christensen-Dalsgaard (eds.)Stellar Astrophysical Fluid Dynamics163,99 €
- Eduardo BattanerAstrophysical Fluid Dynamics100,99 €
- E. BattanerAstrophysical Fluid Dynamics207,99 €
- J. A. Sellwood (ed.)Dynamics of Astrophysical Discs48,99 €
- International Astronomical UnionAstrophysical Dynamics (Iau S271)123,99 €
- The Local Group as an Astrophysical Laboratory48,99 €
- Eric H. Silver / Steven M. Kahn (eds.)UV and X-Ray Spectroscopy of Laboratory and Astrophysical Plasmas78,99 €
-
-
-
A comprehensive overview of the current state of knowledge in stellar astrophysical fluid dynamics.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 432
- Erscheinungstermin: 30. Oktober 2007
- Englisch
- Abmessung: 244mm x 170mm x 23mm
- Gewicht: 741g
- ISBN-13: 9780521050203
- ISBN-10: 0521050200
- Artikelnr.: 23363839
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Verlag: Cambridge University Press
- Seitenzahl: 432
- Erscheinungstermin: 30. Oktober 2007
- Englisch
- Abmessung: 244mm x 170mm x 23mm
- Gewicht: 741g
- ISBN-13: 9780521050203
- ISBN-10: 0521050200
- Artikelnr.: 23363839
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
Preface; 1. A selective overview Jørgen Christensen-Dalsgaard and Michael
J. Thompson; Part I. Stellar Convection and Oscillations: 2. On the
diversity of stellar pulsations Wojciech A. Dziembowski; 3. Acoustic
radiation and mode excitation by turbulent convection Günter Houdek; 4.
Understanding roAp stars Margarida S. Cunha; 5. Waves in the magnetised
solar atmosphere Colin S. Rosenthal; Part II. Stellar Rotation and Magnetic
Fields: 6. Stellar rotation: a historical survey Leon Mestel; 7. The
oscillations of rapidly rotating stars Michel Rieutord; 8. Solar tachocline
dynamics: eddy viscosity, anti-friction, or something in between? Michael
E. McIntyre; 9. Dynamics of the solar tachocline Pascale Garaud; 10. Dynamo
processes: the interaction of turbulence and magnetic fields Michael
Proctor; 11. Dynamos in planets Chris Jones; Part III. Physics and
Structure of Stellar Interiors: 12. Solar constraints on the equation of
state Werner Däppen; 13. 3He transport and the solar neutrino problem Chris
Jordinson; 14. Mixing in stellar radiation zones Jean-Paul Zahn; 15.
Element settling and rotation-induced mixing in slowly rotating stars
Sylvie Vauclair; Part IV. Helio- and Asteroseismology: 16. Solar structure
and the neutrino problem Hiromoto Shibahashi; 17. Helioseismic data
analysis Jesper Schou; 18. Seismology of solar rotation Takashi Sekii; 19.
Telechronohelioseismology Alexander Kosovichev; Part V. Large-Scale
Numerical Experiments: 20. Bridges between helioseismology and models of
convection zone dynamics Juri Toomre; 21. Numerical simulations of the
solar convection zone Julian R. Elliott; 22. Modelling solar and stellar
magnetoconvection Nigel Weiss; 23. Nonlinear magnetoconvection in the
presence of a strong oblique field Keith Julien, Edgar Knobloch and Steven
M. Tobias; 24. Simulations of astrophysical fluids Marcus Brüggen; Part VI.
Dynamics: 25. A magic electromagnetic field Donald Lynden-Bell; 26.
Continuum equations for stellar dynamics Edward A. Spiegel and Jean-Luc
Thiffeault; 27. Formation of planetary systems Douglas N. C. Lin; 28. The
solar-cycle global warming as inferred from sky brightness variation
Wasaburo Unno and Hiromoto Shibahashi.
J. Thompson; Part I. Stellar Convection and Oscillations: 2. On the
diversity of stellar pulsations Wojciech A. Dziembowski; 3. Acoustic
radiation and mode excitation by turbulent convection Günter Houdek; 4.
Understanding roAp stars Margarida S. Cunha; 5. Waves in the magnetised
solar atmosphere Colin S. Rosenthal; Part II. Stellar Rotation and Magnetic
Fields: 6. Stellar rotation: a historical survey Leon Mestel; 7. The
oscillations of rapidly rotating stars Michel Rieutord; 8. Solar tachocline
dynamics: eddy viscosity, anti-friction, or something in between? Michael
E. McIntyre; 9. Dynamics of the solar tachocline Pascale Garaud; 10. Dynamo
processes: the interaction of turbulence and magnetic fields Michael
Proctor; 11. Dynamos in planets Chris Jones; Part III. Physics and
Structure of Stellar Interiors: 12. Solar constraints on the equation of
state Werner Däppen; 13. 3He transport and the solar neutrino problem Chris
Jordinson; 14. Mixing in stellar radiation zones Jean-Paul Zahn; 15.
Element settling and rotation-induced mixing in slowly rotating stars
Sylvie Vauclair; Part IV. Helio- and Asteroseismology: 16. Solar structure
and the neutrino problem Hiromoto Shibahashi; 17. Helioseismic data
analysis Jesper Schou; 18. Seismology of solar rotation Takashi Sekii; 19.
Telechronohelioseismology Alexander Kosovichev; Part V. Large-Scale
Numerical Experiments: 20. Bridges between helioseismology and models of
convection zone dynamics Juri Toomre; 21. Numerical simulations of the
solar convection zone Julian R. Elliott; 22. Modelling solar and stellar
magnetoconvection Nigel Weiss; 23. Nonlinear magnetoconvection in the
presence of a strong oblique field Keith Julien, Edgar Knobloch and Steven
M. Tobias; 24. Simulations of astrophysical fluids Marcus Brüggen; Part VI.
Dynamics: 25. A magic electromagnetic field Donald Lynden-Bell; 26.
Continuum equations for stellar dynamics Edward A. Spiegel and Jean-Luc
Thiffeault; 27. Formation of planetary systems Douglas N. C. Lin; 28. The
solar-cycle global warming as inferred from sky brightness variation
Wasaburo Unno and Hiromoto Shibahashi.
Preface; 1. A selective overview Jørgen Christensen-Dalsgaard and Michael
J. Thompson; Part I. Stellar Convection and Oscillations: 2. On the
diversity of stellar pulsations Wojciech A. Dziembowski; 3. Acoustic
radiation and mode excitation by turbulent convection Günter Houdek; 4.
Understanding roAp stars Margarida S. Cunha; 5. Waves in the magnetised
solar atmosphere Colin S. Rosenthal; Part II. Stellar Rotation and Magnetic
Fields: 6. Stellar rotation: a historical survey Leon Mestel; 7. The
oscillations of rapidly rotating stars Michel Rieutord; 8. Solar tachocline
dynamics: eddy viscosity, anti-friction, or something in between? Michael
E. McIntyre; 9. Dynamics of the solar tachocline Pascale Garaud; 10. Dynamo
processes: the interaction of turbulence and magnetic fields Michael
Proctor; 11. Dynamos in planets Chris Jones; Part III. Physics and
Structure of Stellar Interiors: 12. Solar constraints on the equation of
state Werner Däppen; 13. 3He transport and the solar neutrino problem Chris
Jordinson; 14. Mixing in stellar radiation zones Jean-Paul Zahn; 15.
Element settling and rotation-induced mixing in slowly rotating stars
Sylvie Vauclair; Part IV. Helio- and Asteroseismology: 16. Solar structure
and the neutrino problem Hiromoto Shibahashi; 17. Helioseismic data
analysis Jesper Schou; 18. Seismology of solar rotation Takashi Sekii; 19.
Telechronohelioseismology Alexander Kosovichev; Part V. Large-Scale
Numerical Experiments: 20. Bridges between helioseismology and models of
convection zone dynamics Juri Toomre; 21. Numerical simulations of the
solar convection zone Julian R. Elliott; 22. Modelling solar and stellar
magnetoconvection Nigel Weiss; 23. Nonlinear magnetoconvection in the
presence of a strong oblique field Keith Julien, Edgar Knobloch and Steven
M. Tobias; 24. Simulations of astrophysical fluids Marcus Brüggen; Part VI.
Dynamics: 25. A magic electromagnetic field Donald Lynden-Bell; 26.
Continuum equations for stellar dynamics Edward A. Spiegel and Jean-Luc
Thiffeault; 27. Formation of planetary systems Douglas N. C. Lin; 28. The
solar-cycle global warming as inferred from sky brightness variation
Wasaburo Unno and Hiromoto Shibahashi.
J. Thompson; Part I. Stellar Convection and Oscillations: 2. On the
diversity of stellar pulsations Wojciech A. Dziembowski; 3. Acoustic
radiation and mode excitation by turbulent convection Günter Houdek; 4.
Understanding roAp stars Margarida S. Cunha; 5. Waves in the magnetised
solar atmosphere Colin S. Rosenthal; Part II. Stellar Rotation and Magnetic
Fields: 6. Stellar rotation: a historical survey Leon Mestel; 7. The
oscillations of rapidly rotating stars Michel Rieutord; 8. Solar tachocline
dynamics: eddy viscosity, anti-friction, or something in between? Michael
E. McIntyre; 9. Dynamics of the solar tachocline Pascale Garaud; 10. Dynamo
processes: the interaction of turbulence and magnetic fields Michael
Proctor; 11. Dynamos in planets Chris Jones; Part III. Physics and
Structure of Stellar Interiors: 12. Solar constraints on the equation of
state Werner Däppen; 13. 3He transport and the solar neutrino problem Chris
Jordinson; 14. Mixing in stellar radiation zones Jean-Paul Zahn; 15.
Element settling and rotation-induced mixing in slowly rotating stars
Sylvie Vauclair; Part IV. Helio- and Asteroseismology: 16. Solar structure
and the neutrino problem Hiromoto Shibahashi; 17. Helioseismic data
analysis Jesper Schou; 18. Seismology of solar rotation Takashi Sekii; 19.
Telechronohelioseismology Alexander Kosovichev; Part V. Large-Scale
Numerical Experiments: 20. Bridges between helioseismology and models of
convection zone dynamics Juri Toomre; 21. Numerical simulations of the
solar convection zone Julian R. Elliott; 22. Modelling solar and stellar
magnetoconvection Nigel Weiss; 23. Nonlinear magnetoconvection in the
presence of a strong oblique field Keith Julien, Edgar Knobloch and Steven
M. Tobias; 24. Simulations of astrophysical fluids Marcus Brüggen; Part VI.
Dynamics: 25. A magic electromagnetic field Donald Lynden-Bell; 26.
Continuum equations for stellar dynamics Edward A. Spiegel and Jean-Luc
Thiffeault; 27. Formation of planetary systems Douglas N. C. Lin; 28. The
solar-cycle global warming as inferred from sky brightness variation
Wasaburo Unno and Hiromoto Shibahashi.