Astrophysical hydrodynamics: an introduction
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| Format: | Book |
| Language: | English |
| Published: |
Weinheim
Wiley-VCH-Verl.
2007
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| Edition: | 2., new rev. ed. |
| Series: | Physics textbook
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| Subjects: | |
| Online Access: | Inhaltstext Inhaltsverzeichnis |
| Item Description: | Literaturverz. S. 431 - 445 |
| Physical Description: | XX, 451 S. graph. Darst. |
| ISBN: | 9783527406692 3527406697 |
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MARC
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| 100 | 1 | |a Shore, Steven N. |d 1953- |e Verfasser |0 (DE-588)113534868 |4 aut | |
| 245 | 1 | 0 | |a Astrophysical hydrodynamics |b an introduction |c Steven N. Shore |
| 250 | |a 2., new rev. ed. | ||
| 264 | 1 | |a Weinheim |b Wiley-VCH-Verl. |c 2007 | |
| 300 | |a XX, 451 S. |b graph. Darst. | ||
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| 490 | 0 | |a Physics textbook | |
| 500 | |a Literaturverz. S. 431 - 445 | ||
| 650 | 4 | |a Astrophysik - Hydrodynamik - Lehrbuch | |
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CONTENTS 1 THE EQUATIONS OF FLUID MOTION 1.1 INTRODUCTORY REMARKS 1* 1.2
EQUATIONS OF MOTION 2* 1.2.1 DISTRIBUTION FUNCTIONS 2* 1.2.2 MOMENTS OF
THE DISTRIBUTION FUNCTION 4* 1.2.3 CONTINUITY AND MOMENTUM EQUATIONS 8*
1.3 THE VIRIAL THEOREM 11* 1.3.1 HIGHER-ORDER VIRIAL EQUATIONS 14* 1.4
ENERGY CONSERVATION 15* 1.5 SOME THERMODYNAMICS 17* 1.5.1 MORE VIRIAL
THEOREM RESULTS 19* 1.5.2 EQUATION OF STATE FOR A POLYTROPE 19* 1.5.3
THE SOUND SPEED 21* 1.5.4 THE EQUATION OF STATE FOR A PHOTON GAS 21*
1.5.5 VIRIAL THEOREM FOR SELF-GRAVITATING BODIES 22* 1.6 CONSERVATIVE
FORM OF THE FLUID EQUATIONS 22* 1.7 EULERIAN AND LAGRANGIAN FRAMES 23*
1.8 THE BERNOULLI EQUATION - THE FIRST LOOK 24* 1.8.1 THE DE LAVAL
NOZZLE: BERNOULLI FLOW WITH CONFINEMENT 26* 1.8.2 JETS: INTRODUCTION 27*
1.8.3 BASIC PHYSICS 28* 1.8.4 SUBSONIC JETS 29* 2 VISCOSITY AND
DIFFUSION 35* 2.1 INTRODUCTION 35* 2.2 THE NAVIER-STOKES EQUATION 36*
2.2.1 HISTORICALLNTRODUCTION 36* 2.2.2 STRAIN, SHEAR, AND STRESS 37*
2.2.3 VISCOUS STRESS 38* 2.2.4 THE REYNOLDS NUMBER 44* ASTROPHYSICAL
HYDRODYNAMICS. SECOND EDITION. STEVEN N. SHARE COPYRIGHT 2007
WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 978-3-527-40669-2 VIII
I CONTENTS 2.3 DISSIPATION AND VISCOUS COUPLING 45* 2.4 BOUNDARY LAYERS
47* 2.4.1 INTRODUCTION 47* 2.4.2 LAMINAR PLANE BOUNDARY LAYERS 48* 2.4.3
BOUNDARY LAYERS AND ASTRONOMICAL SEEING 49* 2.4.4 TURBULENT BOUNDARY
LAYERS 50* 2.5 DIFFUSION AND KINETIC THEORY 51* 2.5.1 INTRODUCTION 51*
2.5.2 BACKGROUND JUSTIFICATION 51* 2.5.3 DERIVATION OF THE FOKKER-PLANCK
EQUATION 52* 3 VORTICITY AND ROTATION 57* 3.1 INTRODUCTION 57* 3.1.1
COORDINATE TRANSFORMATIONS 58* 3.1.2 THE EQUATIONS OF MOTION 60* 3.1.3
WORKING IN THE ROTATING FRAME 63* 3.1.4 TAYLOR-PROUDMAN THEOREM 65*
3.1.5 THE BAROTROPIC CONDITION 67* 3.1.6 CIRCULATION AND KELVIN'S
THEOREM 67* 3.1.7 VORTEX DYNAMICS AND LINE STRETCHING 70* 3.1.8 MAGNUS
FORCE 71* 3.2 GEOSTROPHIC APPROXIMATION 72* 3.2.1 ROTATION IN AN
INCOMPRESSIBLE SHALLOW LAYER 73* 3.2.2 THE ROSSBY NUMBER 78* 3.2.3 THE
EKMAN LAYER 78* 3.3 RAYLEIGH ROTATIONAL STABILITY CRITERION 81* 3.3.1
GENERAL ARGUMENT 81* 3.3.2 EPICYCLIC FREQUENCY 83* 3.4 VISCOUS EFFECTS:
A SIMPLE EXAMPLE 85* 3.5 SELF-GRAVITATING BODIES 86* 3.5.1 BAROCLINICITY
86* 3.5.2 VON ZEIPEL'S THEOREM FOR ROTATING SELF-GRAVITATING BODIES 88*
3.5.3 CIRCULATION CURRENTS 89* 4 SHOCKS 93* 4.1 INTRODUCTION TO SHOCK
PHENOMENA 93* 4.2 GENERATION OF SHOCK WAVES 95* 4.2.1 STEEPENING OF
SOUND WAVES 95* 4.2.2 RIEMANN INVARIANTS 96* 4.3 THE RANKINE-HUGONIOT
CONDITIONS 99* 4.3.1 THE CONSERVED QUANTITIES 100* 4.3.2 PLANAR SHOCKS
100* CONTENTS* IIX* 4.3.3* ANOTHER FORM FOR THE RANKINE-HUGONIOT
CONDITIONS 104* 4.4* SOME ADDITIONAL COMPLICATIONS 107* 4.4.1* OBLIQUE
SHOCKS 107* 4.4.2* MAGNETIC SHOCKS 113* 4.4.3* SUPERSONIC JETS 118*
4.4.4* RADIATIVE PHENOMENA IN SHOCKS 119* 4.4.5* COLLISIONLESS SHOCKS
121* 4.5* A QUODLIBET OF APPLICATIONS OF SHOCKS TO ASTROPHYSICAL*
PROBLEMS 122* 4.5.1* DENSITY WAVE SHOCKS: TRAFFIC 122* 4.5.2* DENSITY
WAVE SHOCKS: SPIRAL ARM SHOCKS IN GALAXIES 123* 4.5.3* BLUNT BODY FLOWS:
COLLISIONS OF SHOCKS WITH CLOUDS 126* 4.5.4* EXPANDING IONIZATION
SHOCKS: H IL REGIONS 131* 4.5.5* BENDING OF JETS BY A SUPERSONIC
CROSS-FLOW 136* 4.5.6* COLLISIONS OF GALAXIES WITH AN INTRACLUSTER GAS
137* 5* SIMILARITY METHODS 141* 5.1* INTRODUCTION 141* 5.1.1* BLAST
WAVES: THE SEDOV PROBLEM 141* 5.1.2* THE DIMENSIONLESS DYNAMICAI
EQUATIONS 143* 5.1.3* STAGNATION PRESSURE 147* 5.1.4* SNOWPLOW PHASE
148* 5.1.5* STELLAR WIND BUBBLE 150* 5.1.6* PIANETARY NEBULAE AS A
SPECIAL CASE 151* 5.2* EXPANDING IONIZATION FRONTS 152* 5.3* SIMILARITY
METHODS FOR STATIC CONFIGURATIONS: POLYTROPES 153* 5.3.1* THE LANE-EMDEN
EQUATION 154* 5.3.2* FROM GENERAL POLYTROPES TO THE ISOTHERMAL SPHERE
156* 5.3.3* A VERY FEW APPLICATIONS 158* 5.4* CLASSICAL GRAVITATIONAL
COLLAPSE 161* 5.4.1* PRESSURELESS COLLAPSE 161* 5.4.2* ISOTHERMAL
COLLAPSE: EFFECTS OF PRESSURE 162* APPENDIX: DIFFUSION EQUATIONS 163* 6*
MAGNETIC FIELDS IN ASTROPHYSICS 165* 6.1* HISTORICALINTRODUCTION 165*
6.2* THE BASIC EQUATIONS 168* 6.2.1* DIFFUSION 171* 6.2.2* FLUX FREEZING
172* 6.2.3* AMBIPOLAR DIFFUSION 173* 6.3* ALFVEN WAVES 174* 6.4*
MAGNETIC EQUILIBRIUM: PINCH EQUILIBRIUM AS AN EXAMPLE 178* X I CONTENTS
6.4.1* FLUX CONSERVATION AND STELLAR MAGNETISM 180* 6.5* FORCE-FREE
FIELDS 181* 6.6* MAGNETIC HELICITY AND ITS VORTICITY ANALOGY 184* 6.7*
MAGNETIC DYNAMOS 187* 6.7.1* COWLING'S "ANTIDYNAMO" THEOREM 188* 6.7.2*
A FIRST-PASS PHENOMENOLOGICAL DYNAMO MODEL 190* 6.7.3* BUILDING DYNAMOS:
DIFFERENTIAL ROTATION AND TURBULENCE 191* 6.7.4* THE DYNAMO NUMBER AND
SCALING RELATIONS 192* 6.7.5* THE BASIC IT-W DYNAMO 194* 6.7.6* SOME
EXAMPLES OF DYNAMO FIELDS 199* 6.8* MAGNETIC RECONNECTION 201* APPENDIX:
RIKITAKE'S TOY PHENOMENOLOGICAL MODEL 203* 7* TURBULENCE 207* 7.1*
INTRODUCTION 207* 7.2* LNCOMPRESSIBLE TURBULENCE 209* 7.2.1* TO SET THE
SCENE 209* 7.2.2* THE CORRELATION TENSORS AND REPRESENTATION OF THE
FLOWS 210* 7.2.3* CORRELATION FUNCTIONS AND WHAT THEY MEASURE 213* 7.3*
KOLMOGOROV THEORY: THE ROLE OF DISSIPATION 217* 7.4* TIME DEPENDENCE OF
THE TURBULENCE SPECTRUM 220* 7.4.1* SOME ASTROPHYSICAL APPLICATIONS 225*
7.5* THE TRANSITION TO TURBULENCE 227* 7.6* COMPRESSIBLE TURBULENCE: THE
LIGHTHILL PROCESS 230* 7.6.1* THE ROLE OF VORTICITY 233* 7.7* MORE
PHYSICAL COMPLICATIONS 234* 7.7.1* MAGNETIC FIELDS AND SUPERSONIC
TURBULENCE 234* 7.7.2* SELF-GRAVITATING TURBULENCE 237* 7.7.3*
PERSISTENT LARGE-SCALE STRUCTURES 238* 7.7.4* TURBULENT ENTRAINMENT 239*
7.8* SOME OBSERVATIONAL SIGNATURES OF ASTROPHYSICAL TURBULENCE 242*
APPENDIX A: STOCHASTIC FUNCTIONS AND THEIR APPLICATION TO* APPENDIX E: A
NOTE ON RENORMALIZATION AND DIAGRAMMATIC* TURBULENCE 245* APPENDIX B:
STOCHASTIC DIFFERENTIAL EGUATIONS 247* APPENDIX C: FRACTALS 248*
APPENDIX D: NONLINEAR MAPS AND THE TRANSITION TO CHAOS 252* METHODS 253*
8* OUTFLOWS AND ACCRETION 257* 8.1* INTRODUCTION 257* 8.2* HISTORICAL
OVERVIEW OF WINDS, ESPECIALLY FROM STARS 257* CONTENTS* IXI* 8.3* THE
ISOTHERMAL WIND PROBLEM 261* 8.3.1* ESCAPE OF AN ATMOSPHERE: EVAPORATION
261* 8.3.2* WINDS: DYNAMICAL MASS LOSS 262* 8.3.3* WIND TUNNELS AND
STELLAR WINDS - THE DE LAVAL NOZZLE* ANALOGY 265* 8.3.4* EFFECT OF A
TEMPERATURE GRADIENT 266* 8.4* DRIVING STELLAR MASS LOSS 268* 8.4.1*
RADIATION PRESSURE AS A DRIVING FORCE 269* 8.5* MAGNETIC WINDS 274*
8.5.1* ROTATION AND MAGNETIC FIELDS 274* 8.5.2* BASIC PHYSICS 275*
8.5.3* THE STRUCTURE OF MAGNETIC OUTFLOWS 276* 8.5.4* ANGULAR MOMENTUM
LOSS - THE SPINDOWN PROBLEM 280* 8.6* WINDS WITHIN WINDS 282* 8.6.1*
SPHERICALLY SYMMETRIE WIND COLLISIONS IN ASTROPHYSICS 282* 8.6.2*
SIMILARITY SOLUTION: STALLED SHOCK PROPAGATION 283* 8.6.3* SIMILARITY
SOLUTION: CONSTANT MECHANICAL LUMINOSITY 284* 8.6.4* INSTABILITIES AT
THE COLLIDING WIND INTERFACE 287* 8.7* ACCRETION DISKS IN ASTROPHYSICS
288* 8.7.1* SOME OBSERVATIONAL MOTIVATIONS 288* 8.7.2* FLOW THROUGH THE
INNER LAGRANGIAN POINT 289* 8.7.3* SOME CONSEGUENCES OF MASS TRANSFER
292* 8.7.4* HEATING THE DISKS: DISSIPATION AND VISCOUS TORQUES 294*
8.7.5* STIRRING THE DISKS: PARAMETERIZING THE TURBULENCE 298* 8.7.6*
TIME-DEPENDENT ACCRETION DISKS: BASIC EQUATIONS 299* 8.7.7* BOUNDARY
LAYERS IN ACCRETION DISKS 303* 8.8* SPHERICAL ACCRETION 305* 8.8.1* MASS
INFALL AND THE INVERSE WIND SOLUTION 305* 8.8.2* SPHERICAL ACCRETION:
SOLUTION FOR POLYTROPIC FLOWS 307* 8.8.3* ACCRETION WITHIN A WIND:
BONDI-HOYLE FLOW 309* 8.8.4* TIME-DEPENDENT RADIALLNFLOWS 311* 8.8.5*
COOLING FLOWS IN CLUSTERS OF GALAXIES 312* 9* INSTABILITIES 317* 9.1*
INTRODUCTION 317* 9.2* WAVES 317* 9.2.1* SOUND WAVES AS A PROTOTYPICAL
INSTABILITY 317* 9.2.2* THE JEANS INSTABILITY AND SELF-GRAVITATION:
DENSITY WAVES ON THE* CHEAP 318* 9.2.3* THE ROTATING SELF-GRAVITATING
SLAB 321* 9.2.4* THE JEANS INSTABILITY AND THE VIRIAL THEOREM 321*
9.2.5* BIFURCATION FOR THE FIRST TIME 322* XIII CONTENTS 9.2.6 9.3 9.3.1
9.3.2 9.3.2.1 9.3.3 9.4 9.4.1 9.4.2 9.5 9.6 9.6.1 9.6.2 9.6.3 9.6.4
9.6.5 9.7 10* 10.1 10.2 10.2.1 10.2.2 10.2.3 10.2.4 10.2.5 10.2.6 10.2.7
10.3 10.3.1 10.3.2 10.3.3 10.3.4 10.3.5 10.3.6 10.3.7 DENSITY
STRATIFICATION: THE BRUNT-VAEISAELAE FREQUENCY AND THE* RICHARDSON
CRITERION 323* CONVECTION 324* INCOMPRESSIBLE CONVECTION: THE
RAYLEIGH-BENARD PROBLEM 324* COMPRESSIBLE CONVECTION: MIXING LENGTH
THEORY 333* ABRIEF COMMENT ON OBSERVATIONAL CONSEQUENCES 339*
RAYLEIGH-TAYLOR INSTABILITY: BUOYANCY AND DENSITY* KELVIN-HELMHOLTZ
INSTABILITY: SHEAR AND VELOCITY* SHEAR LNSTABILITY: RAYLEIGH CRITERION
FOR VELOCITY GRADIENTS AND,* THE MAGNETO-ROTATIONALLNSTABILITY AND
VISCOSITY IN ACCRETION* SOME EFFECTS OF A MAGNETIC FIELD 340* PULSATION
AS AN INSTABILITY 344* THE HURWITZ-ROUTH CRITERION 350* ANOTHER
APPROACH: LAGRANGIAN VARIATIONAL METHOD 351* THERMAL INSTABILITY 353*
ASELECTION OF IMPORTANT INSTABILITIES 357* DISCONTINUITIES 357*
DISCONTINUITIES 362* AGAIN, BOUNDARY LAYERS 364* TAYLOR INSTABILITY:
ROTATION AND VORTICITY 370* DISKS 371* EXEUNT 374* DIAGNOSIS OF
ASTROPHYSICAJ FLOWS 377* INTRODUCTION 377* RADIATIVE TRANSFER ON THE
CHEAP 378* P CYGNI-TYPE PROFILES: OBSERVATIONS 383* ESCAPE PROBABILITIES
386* KINEMATIC APPROACH 387* THE RAY APPROXIMATION FOR LINE FORMATION
392* CA1CULATING THE SOURCE FUNCTION 394* DECELERATING FLOWS 395*
CONTINUUM OBSERVATIONS OF OUTFLOWS 397* A SAMPLING OF COSMIC FLOWS 399*
NARROW ABSORPTION FEATURES IN HOT STELLAR WINDS 399* JETS FROM YOUNG
STARS AND HERBIG-HARO OBJECTS 401* ANALYSIS OF EXPLOSIONS 404* NOVAE AND
SUPERNOVAE: VELOCITY GRADIENT FOR EXPLOSIONS 406* ACCRETION DISKS 408*
ABSORPTION LINE PROBES: THE DIFFUSE INTERSTELLAR MEDIUM 409* ECLIPSING
BINARIES: ASTROPHYSICAL SCHLIEREN 412* CONTENTS* IXIII* 10.3.8* BISECTOR
METHODS FOR ABSORPTION LINES: ASTROPHYSICAL* TOMOGRAPHY 415* 10.3.9*
EXTRAGALACTIC RADIO JETS 416* 10.3.10* COOLING FLOWS: DIAGNOSIS OF A
THERMALLNSTABILITY 416* PROBLEMS AND QUESTIONS FOR FURTHER EXPLORATION
419* APPENDIX: SOME REAL NUMBERS 425* AL* PHYSICAL AND ASTROPHYSICAL
CONSTANTS 425* A.2* ASTROPHYSICALLY USEFUL ORDERS OF MAGNITUDE 426*
A.2.1 ATOMIC AND MOLECULAR 426* A2.2 PLANETARY 427* A2.3 STELLAR 427*
A.2.4* INTERSTELLAR 428* A.2.5 GALACTIC 428* A2.6 COSMOLOGICAL 429* A3
SOME IMPORTANT DIMENSIONLESS NUMBERS 429* GENERAL BIBLIOGRAPHY 431* 4*
MONOGRAPHS 431* 4.1* CLASSICAL FLUID MECHANICS 431* 4.2* ASTROPHYSICAL
FLUID AND PLASMA PROCESSES 436* 4.3* ASTROPHYSICAL APPLICATIONS:
COLLECTIONS 438* 4.4 ASTROPHYSICAL JETS 439* 5 JOURNALS 441* 5.1*
GENERAL 441* 5.2* ASTROPHYSICS 442* 5.3 WHEN ALL ELSE FAILS, SOME OTHER
PLACES TO CHECK 442* 6 ASTRONOMICAL DATA CENTERS 442* INDEX 447* |
| adam_txt |
CONTENTS 1 THE EQUATIONS OF FLUID MOTION 1.1 INTRODUCTORY REMARKS 1* 1.2
EQUATIONS OF MOTION 2* 1.2.1 DISTRIBUTION FUNCTIONS 2* 1.2.2 MOMENTS OF
THE DISTRIBUTION FUNCTION 4* 1.2.3 CONTINUITY AND MOMENTUM EQUATIONS 8*
1.3 THE VIRIAL THEOREM 11* 1.3.1 HIGHER-ORDER VIRIAL EQUATIONS 14* 1.4
ENERGY CONSERVATION 15* 1.5 SOME THERMODYNAMICS 17* 1.5.1 MORE VIRIAL
THEOREM RESULTS 19* 1.5.2 EQUATION OF STATE FOR A POLYTROPE 19* 1.5.3
THE SOUND SPEED 21* 1.5.4 THE EQUATION OF STATE FOR A PHOTON GAS 21*
1.5.5 VIRIAL THEOREM FOR SELF-GRAVITATING BODIES 22* 1.6 CONSERVATIVE
FORM OF THE FLUID EQUATIONS 22* 1.7 EULERIAN AND LAGRANGIAN FRAMES 23*
1.8 THE BERNOULLI EQUATION - THE FIRST LOOK 24* 1.8.1 THE DE LAVAL
NOZZLE: BERNOULLI FLOW WITH CONFINEMENT 26* 1.8.2 JETS: INTRODUCTION 27*
1.8.3 BASIC PHYSICS 28* 1.8.4 SUBSONIC JETS 29* 2 VISCOSITY AND
DIFFUSION 35* 2.1 INTRODUCTION 35* 2.2 THE NAVIER-STOKES EQUATION 36*
2.2.1 HISTORICALLNTRODUCTION 36* 2.2.2 STRAIN, SHEAR, AND STRESS 37*
2.2.3 VISCOUS STRESS 38* 2.2.4 THE REYNOLDS NUMBER 44* ASTROPHYSICAL
HYDRODYNAMICS. SECOND EDITION. STEVEN N. SHARE COPYRIGHT 2007
WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 978-3-527-40669-2 VIII
I CONTENTS 2.3 DISSIPATION AND VISCOUS COUPLING 45* 2.4 BOUNDARY LAYERS
47* 2.4.1 INTRODUCTION 47* 2.4.2 LAMINAR PLANE BOUNDARY LAYERS 48* 2.4.3
BOUNDARY LAYERS AND ASTRONOMICAL SEEING 49* 2.4.4 TURBULENT BOUNDARY
LAYERS 50* 2.5 DIFFUSION AND KINETIC THEORY 51* 2.5.1 INTRODUCTION 51*
2.5.2 BACKGROUND JUSTIFICATION 51* 2.5.3 DERIVATION OF THE FOKKER-PLANCK
EQUATION 52* 3 VORTICITY AND ROTATION 57* 3.1 INTRODUCTION 57* 3.1.1
COORDINATE TRANSFORMATIONS 58* 3.1.2 THE EQUATIONS OF MOTION 60* 3.1.3
WORKING IN THE ROTATING FRAME 63* 3.1.4 TAYLOR-PROUDMAN THEOREM 65*
3.1.5 THE BAROTROPIC CONDITION 67* 3.1.6 CIRCULATION AND KELVIN'S
THEOREM 67* 3.1.7 VORTEX DYNAMICS AND LINE STRETCHING 70* 3.1.8 MAGNUS
FORCE 71* 3.2 GEOSTROPHIC APPROXIMATION 72* 3.2.1 ROTATION IN AN
INCOMPRESSIBLE SHALLOW LAYER 73* 3.2.2 THE ROSSBY NUMBER 78* 3.2.3 THE
EKMAN LAYER 78* 3.3 RAYLEIGH ROTATIONAL STABILITY CRITERION 81* 3.3.1
GENERAL ARGUMENT 81* 3.3.2 EPICYCLIC FREQUENCY 83* 3.4 VISCOUS EFFECTS:
A SIMPLE EXAMPLE 85* 3.5 SELF-GRAVITATING BODIES 86* 3.5.1 BAROCLINICITY
86* 3.5.2 VON ZEIPEL'S THEOREM FOR ROTATING SELF-GRAVITATING BODIES 88*
3.5.3 CIRCULATION CURRENTS 89* 4 SHOCKS 93* 4.1 INTRODUCTION TO SHOCK
PHENOMENA 93* 4.2 GENERATION OF SHOCK WAVES 95* 4.2.1 STEEPENING OF
SOUND WAVES 95* 4.2.2 RIEMANN INVARIANTS 96* 4.3 THE RANKINE-HUGONIOT
CONDITIONS 99* 4.3.1 THE CONSERVED QUANTITIES 100* 4.3.2 PLANAR SHOCKS
100* CONTENTS* IIX* 4.3.3* ANOTHER FORM FOR THE RANKINE-HUGONIOT
CONDITIONS 104* 4.4* SOME ADDITIONAL COMPLICATIONS 107* 4.4.1* OBLIQUE
SHOCKS 107* 4.4.2* MAGNETIC SHOCKS 113* 4.4.3* SUPERSONIC JETS 118*
4.4.4* RADIATIVE PHENOMENA IN SHOCKS 119* 4.4.5* COLLISIONLESS SHOCKS
121* 4.5* A QUODLIBET OF APPLICATIONS OF SHOCKS TO ASTROPHYSICAL*
PROBLEMS 122* 4.5.1* DENSITY WAVE SHOCKS: TRAFFIC 122* 4.5.2* DENSITY
WAVE SHOCKS: SPIRAL ARM SHOCKS IN GALAXIES 123* 4.5.3* BLUNT BODY FLOWS:
COLLISIONS OF SHOCKS WITH CLOUDS 126* 4.5.4* EXPANDING IONIZATION
SHOCKS: H IL REGIONS 131* 4.5.5* BENDING OF JETS BY A SUPERSONIC
CROSS-FLOW 136* 4.5.6* COLLISIONS OF GALAXIES WITH AN INTRACLUSTER GAS
137* 5* SIMILARITY METHODS 141* 5.1* INTRODUCTION 141* 5.1.1* BLAST
WAVES: THE SEDOV PROBLEM 141* 5.1.2* THE DIMENSIONLESS DYNAMICAI
EQUATIONS 143* 5.1.3* STAGNATION PRESSURE 147* 5.1.4* SNOWPLOW PHASE
148* 5.1.5* STELLAR WIND BUBBLE 150* 5.1.6* PIANETARY NEBULAE AS A
SPECIAL CASE 151* 5.2* EXPANDING IONIZATION FRONTS 152* 5.3* SIMILARITY
METHODS FOR STATIC CONFIGURATIONS: POLYTROPES 153* 5.3.1* THE LANE-EMDEN
EQUATION 154* 5.3.2* FROM GENERAL POLYTROPES TO THE ISOTHERMAL SPHERE
156* 5.3.3* A VERY FEW APPLICATIONS 158* 5.4* CLASSICAL GRAVITATIONAL
COLLAPSE 161* 5.4.1* PRESSURELESS COLLAPSE 161* 5.4.2* ISOTHERMAL
COLLAPSE: EFFECTS OF PRESSURE 162* APPENDIX: DIFFUSION EQUATIONS 163* 6*
MAGNETIC FIELDS IN ASTROPHYSICS 165* 6.1* HISTORICALINTRODUCTION 165*
6.2* THE BASIC EQUATIONS 168* 6.2.1* DIFFUSION 171* 6.2.2* FLUX FREEZING
172* 6.2.3* AMBIPOLAR DIFFUSION 173* 6.3* ALFVEN WAVES 174* 6.4*
MAGNETIC EQUILIBRIUM: PINCH EQUILIBRIUM AS AN EXAMPLE 178* X I CONTENTS
6.4.1* FLUX CONSERVATION AND STELLAR MAGNETISM 180* 6.5* FORCE-FREE
FIELDS 181* 6.6* MAGNETIC HELICITY AND ITS VORTICITY ANALOGY 184* 6.7*
MAGNETIC DYNAMOS 187* 6.7.1* COWLING'S "ANTIDYNAMO" THEOREM 188* 6.7.2*
A FIRST-PASS PHENOMENOLOGICAL DYNAMO MODEL 190* 6.7.3* BUILDING DYNAMOS:
DIFFERENTIAL ROTATION AND TURBULENCE 191* 6.7.4* THE DYNAMO NUMBER AND
SCALING RELATIONS 192* 6.7.5* THE BASIC IT-W DYNAMO 194* 6.7.6* SOME
EXAMPLES OF DYNAMO FIELDS 199* 6.8* MAGNETIC RECONNECTION 201* APPENDIX:
RIKITAKE'S TOY PHENOMENOLOGICAL MODEL 203* 7* TURBULENCE 207* 7.1*
INTRODUCTION 207* 7.2* LNCOMPRESSIBLE TURBULENCE 209* 7.2.1* TO SET THE
SCENE 209* 7.2.2* THE CORRELATION TENSORS AND REPRESENTATION OF THE
FLOWS 210* 7.2.3* CORRELATION FUNCTIONS AND WHAT THEY MEASURE 213* 7.3*
KOLMOGOROV THEORY: THE ROLE OF DISSIPATION 217* 7.4* TIME DEPENDENCE OF
THE TURBULENCE SPECTRUM 220* 7.4.1* SOME ASTROPHYSICAL APPLICATIONS 225*
7.5* THE TRANSITION TO TURBULENCE 227* 7.6* COMPRESSIBLE TURBULENCE: THE
LIGHTHILL PROCESS 230* 7.6.1* THE ROLE OF VORTICITY 233* 7.7* MORE
PHYSICAL COMPLICATIONS 234* 7.7.1* MAGNETIC FIELDS AND SUPERSONIC
TURBULENCE 234* 7.7.2* SELF-GRAVITATING TURBULENCE 237* 7.7.3*
PERSISTENT LARGE-SCALE STRUCTURES 238* 7.7.4* TURBULENT ENTRAINMENT 239*
7.8* SOME OBSERVATIONAL SIGNATURES OF ASTROPHYSICAL TURBULENCE 242*
APPENDIX A: STOCHASTIC FUNCTIONS AND THEIR APPLICATION TO* APPENDIX E: A
NOTE ON RENORMALIZATION AND DIAGRAMMATIC* TURBULENCE 245* APPENDIX B:
STOCHASTIC DIFFERENTIAL EGUATIONS 247* APPENDIX C: FRACTALS 248*
APPENDIX D: NONLINEAR MAPS AND THE TRANSITION TO CHAOS 252* METHODS 253*
8* OUTFLOWS AND ACCRETION 257* 8.1* INTRODUCTION 257* 8.2* HISTORICAL
OVERVIEW OF WINDS, ESPECIALLY FROM STARS 257* CONTENTS* IXI* 8.3* THE
ISOTHERMAL WIND PROBLEM 261* 8.3.1* ESCAPE OF AN ATMOSPHERE: EVAPORATION
261* 8.3.2* WINDS: DYNAMICAL MASS LOSS 262* 8.3.3* WIND TUNNELS AND
STELLAR WINDS - THE DE LAVAL NOZZLE* ANALOGY 265* 8.3.4* EFFECT OF A
TEMPERATURE GRADIENT 266* 8.4* DRIVING STELLAR MASS LOSS 268* 8.4.1*
RADIATION PRESSURE AS A DRIVING FORCE 269* 8.5* MAGNETIC WINDS 274*
8.5.1* ROTATION AND MAGNETIC FIELDS 274* 8.5.2* BASIC PHYSICS 275*
8.5.3* THE STRUCTURE OF MAGNETIC OUTFLOWS 276* 8.5.4* ANGULAR MOMENTUM
LOSS - THE SPINDOWN PROBLEM 280* 8.6* WINDS WITHIN WINDS 282* 8.6.1*
SPHERICALLY SYMMETRIE WIND COLLISIONS IN ASTROPHYSICS 282* 8.6.2*
SIMILARITY SOLUTION: STALLED SHOCK PROPAGATION 283* 8.6.3* SIMILARITY
SOLUTION: CONSTANT MECHANICAL LUMINOSITY 284* 8.6.4* INSTABILITIES AT
THE COLLIDING WIND INTERFACE 287* 8.7* ACCRETION DISKS IN ASTROPHYSICS
288* 8.7.1* SOME OBSERVATIONAL MOTIVATIONS 288* 8.7.2* FLOW THROUGH THE
INNER LAGRANGIAN POINT 289* 8.7.3* SOME CONSEGUENCES OF MASS TRANSFER
292* 8.7.4* HEATING THE DISKS: DISSIPATION AND VISCOUS TORQUES 294*
8.7.5* STIRRING THE DISKS: PARAMETERIZING THE TURBULENCE 298* 8.7.6*
TIME-DEPENDENT ACCRETION DISKS: BASIC EQUATIONS 299* 8.7.7* BOUNDARY
LAYERS IN ACCRETION DISKS 303* 8.8* SPHERICAL ACCRETION 305* 8.8.1* MASS
INFALL AND THE INVERSE WIND SOLUTION 305* 8.8.2* SPHERICAL ACCRETION:
SOLUTION FOR POLYTROPIC FLOWS 307* 8.8.3* ACCRETION WITHIN A WIND:
BONDI-HOYLE FLOW 309* 8.8.4* TIME-DEPENDENT RADIALLNFLOWS 311* 8.8.5*
COOLING FLOWS IN CLUSTERS OF GALAXIES 312* 9* INSTABILITIES 317* 9.1*
INTRODUCTION 317* 9.2* WAVES 317* 9.2.1* SOUND WAVES AS A PROTOTYPICAL
INSTABILITY 317* 9.2.2* THE JEANS INSTABILITY AND SELF-GRAVITATION:
DENSITY WAVES ON THE* CHEAP 318* 9.2.3* THE ROTATING SELF-GRAVITATING
SLAB 321* 9.2.4* THE JEANS INSTABILITY AND THE VIRIAL THEOREM 321*
9.2.5* BIFURCATION FOR THE FIRST TIME 322* XIII CONTENTS 9.2.6 9.3 9.3.1
9.3.2 9.3.2.1 9.3.3 9.4 9.4.1 9.4.2 9.5 9.6 9.6.1 9.6.2 9.6.3 9.6.4
9.6.5 9.7 10* 10.1 10.2 10.2.1 10.2.2 10.2.3 10.2.4 10.2.5 10.2.6 10.2.7
10.3 10.3.1 10.3.2 10.3.3 10.3.4 10.3.5 10.3.6 10.3.7 DENSITY
STRATIFICATION: THE BRUNT-VAEISAELAE FREQUENCY AND THE* RICHARDSON
CRITERION 323* CONVECTION 324* INCOMPRESSIBLE CONVECTION: THE
RAYLEIGH-BENARD PROBLEM 324* COMPRESSIBLE CONVECTION: MIXING LENGTH
THEORY 333* ABRIEF COMMENT ON OBSERVATIONAL CONSEQUENCES 339*
RAYLEIGH-TAYLOR INSTABILITY: BUOYANCY AND DENSITY* KELVIN-HELMHOLTZ
INSTABILITY: SHEAR AND VELOCITY* SHEAR LNSTABILITY: RAYLEIGH CRITERION
FOR VELOCITY GRADIENTS AND,* THE MAGNETO-ROTATIONALLNSTABILITY AND
VISCOSITY IN ACCRETION* SOME EFFECTS OF A MAGNETIC FIELD 340* PULSATION
AS AN INSTABILITY 344* THE HURWITZ-ROUTH CRITERION 350* ANOTHER
APPROACH: LAGRANGIAN VARIATIONAL METHOD 351* THERMAL INSTABILITY 353*
ASELECTION OF IMPORTANT INSTABILITIES 357* DISCONTINUITIES 357*
DISCONTINUITIES 362* AGAIN, BOUNDARY LAYERS 364* TAYLOR INSTABILITY:
ROTATION AND VORTICITY 370* DISKS 371* EXEUNT 374* DIAGNOSIS OF
ASTROPHYSICAJ FLOWS 377* INTRODUCTION 377* RADIATIVE TRANSFER ON THE
CHEAP 378* P CYGNI-TYPE PROFILES: OBSERVATIONS 383* ESCAPE PROBABILITIES
386* KINEMATIC APPROACH 387* THE RAY APPROXIMATION FOR LINE FORMATION
392* CA1CULATING THE SOURCE FUNCTION 394* DECELERATING FLOWS 395*
CONTINUUM OBSERVATIONS OF OUTFLOWS 397* A SAMPLING OF COSMIC FLOWS 399*
NARROW ABSORPTION FEATURES IN HOT STELLAR WINDS 399* JETS FROM YOUNG
STARS AND HERBIG-HARO OBJECTS 401* ANALYSIS OF EXPLOSIONS 404* NOVAE AND
SUPERNOVAE: VELOCITY GRADIENT FOR EXPLOSIONS 406* ACCRETION DISKS 408*
ABSORPTION LINE PROBES: THE DIFFUSE INTERSTELLAR MEDIUM 409* ECLIPSING
BINARIES: ASTROPHYSICAL SCHLIEREN 412* CONTENTS* IXIII* 10.3.8* BISECTOR
METHODS FOR ABSORPTION LINES: ASTROPHYSICAL* TOMOGRAPHY 415* 10.3.9*
EXTRAGALACTIC RADIO JETS 416* 10.3.10* COOLING FLOWS: DIAGNOSIS OF A
THERMALLNSTABILITY 416* PROBLEMS AND QUESTIONS FOR FURTHER EXPLORATION
419* APPENDIX: SOME REAL NUMBERS 425* AL* PHYSICAL AND ASTROPHYSICAL
CONSTANTS 425* A.2* ASTROPHYSICALLY USEFUL ORDERS OF MAGNITUDE 426*
A.2.1 ATOMIC AND MOLECULAR 426* A2.2 PLANETARY 427* A2.3 STELLAR 427*
A.2.4* INTERSTELLAR 428* A.2.5 GALACTIC 428* A2.6 COSMOLOGICAL 429* A3
SOME IMPORTANT DIMENSIONLESS NUMBERS 429* GENERAL BIBLIOGRAPHY 431* 4*
MONOGRAPHS 431* 4.1* CLASSICAL FLUID MECHANICS 431* 4.2* ASTROPHYSICAL
FLUID AND PLASMA PROCESSES 436* 4.3* ASTROPHYSICAL APPLICATIONS:
COLLECTIONS 438* 4.4 ASTROPHYSICAL JETS 439* 5 JOURNALS 441* 5.1*
GENERAL 441* 5.2* ASTROPHYSICS 442* 5.3 WHEN ALL ELSE FAILS, SOME OTHER
PLACES TO CHECK 442* 6 ASTRONOMICAL DATA CENTERS 442* INDEX 447* |
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| author | Shore, Steven N. 1953- |
| author_GND | (DE-588)113534868 |
| author_facet | Shore, Steven N. 1953- |
| author_role | aut |
| author_sort | Shore, Steven N. 1953- |
| author_variant | s n s sn sns |
| building | Verbundindex |
| bvnumber | BV022889595 |
| classification_rvk | US 2200 US 3500 |
| ctrlnum | (OCoLC)255436603 (DE-599)DNB982043783 |
| dewey-full | 523.01 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 523 - Specific celestial bodies and phenomena |
| dewey-raw | 523.01 |
| dewey-search | 523.01 |
| dewey-sort | 3523.01 |
| dewey-tens | 520 - Astronomy and allied sciences |
| discipline | Physik Geographie |
| discipline_str_mv | Physik Geographie |
| edition | 2., new rev. ed. |
| format | Book |
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| illustrated | Illustrated |
| index_date | 2024-07-02T18:53:05Z |
| indexdate | 2024-07-20T09:25:22Z |
| institution | BVB |
| isbn | 9783527406692 3527406697 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016094457 |
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| physical | XX, 451 S. graph. Darst. |
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| spelling | Shore, Steven N. 1953- Verfasser (DE-588)113534868 aut Astrophysical hydrodynamics an introduction Steven N. Shore 2., new rev. ed. Weinheim Wiley-VCH-Verl. 2007 XX, 451 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Physics textbook Literaturverz. S. 431 - 445 Astrophysik - Hydrodynamik - Lehrbuch Astrophysik (DE-588)4003326-0 gnd rswk-swf Hydrodynamik (DE-588)4026302-2 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Astrophysik (DE-588)4003326-0 s Hydrodynamik (DE-588)4026302-2 s DE-604 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2878072&prov=M&dok_var=1&dok_ext=htm Inhaltstext OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016094457&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Shore, Steven N. 1953- Astrophysical hydrodynamics an introduction Astrophysik - Hydrodynamik - Lehrbuch Astrophysik (DE-588)4003326-0 gnd Hydrodynamik (DE-588)4026302-2 gnd |
| subject_GND | (DE-588)4003326-0 (DE-588)4026302-2 (DE-588)4123623-3 |
| title | Astrophysical hydrodynamics an introduction |
| title_auth | Astrophysical hydrodynamics an introduction |
| title_exact_search | Astrophysical hydrodynamics an introduction |
| title_exact_search_txtP | Astrophysical hydrodynamics an introduction |
| title_full | Astrophysical hydrodynamics an introduction Steven N. Shore |
| title_fullStr | Astrophysical hydrodynamics an introduction Steven N. Shore |
| title_full_unstemmed | Astrophysical hydrodynamics an introduction Steven N. Shore |
| title_short | Astrophysical hydrodynamics |
| title_sort | astrophysical hydrodynamics an introduction |
| title_sub | an introduction |
| topic | Astrophysik - Hydrodynamik - Lehrbuch Astrophysik (DE-588)4003326-0 gnd Hydrodynamik (DE-588)4026302-2 gnd |
| topic_facet | Astrophysik - Hydrodynamik - Lehrbuch Astrophysik Hydrodynamik Lehrbuch |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=2878072&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016094457&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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