Astrophysical concepts:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
Springer
2006
|
| Ausgabe: | 4. ed. |
| Schriftenreihe: | Astronomy and astrophysics library
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVI, 714 S. graph. Darst. |
| ISBN: | 0387329439 9780387329437 0387332286 |
Internformat
MARC
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| 100 | 1 | |a Harwit, Martin |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Astrophysical concepts |c Martin Harwit |
| 250 | |a 4. ed. | ||
| 264 | 1 | |a New York [u.a.] |b Springer |c 2006 | |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-016140313 | ||
Datensatz im Suchindex
| _version_ | 1804137169525145600 |
|---|---|
| adam_text | MARTIN HARWIT ASTROPHYSICAL CONCEPTS FOURTH EDITION SPRINGER CONTENTS
PREFACE TO THE FOURTH EDITION V 1 AN APPROACH TO ASTROPHYSICS 1 1:1
CHANNELS FOR ASTRONOMICAL INFORMATION 3 1:2 X-RAY ASTRONOMY: DEVELOPMENT
OF A NEW FIELD 5 1:3 THE APPROPRIATE SET OF PHYSICAL LAWS 9 1:4 THE
FORMATION OF STARS 10 1:5 THE HERTZSPRUNG-RUSSELL AND COLOR-MAGNITUDE
DIAGRAMS 12 1:6 THE BIRTH OF LOW-MASS STARS 15 1:7 MASSIVE STARS 18 1:8
THE LATE STAGES OF STELLAR EVOLUTION 18 1:9 ABUNDANCE OF THE CHEMICAL
ELEMENTS IN STARS AND THE SOLAR SYSTEM 24 1:10 ORIGIN OF THE SOLAR
SYSTEM 29 1:11 THE GALAXY AND THE LOCAL GROUP 36 1:12 THE FORMATION OF
LARGE-SCALE STRUCTURES 38 1:13 BLACK HOLES 42 1:14 MAGNETOHYDRODYNAMICS
AND TURBULENCE 43 1:15 PROBLEMS OF LIFE 44 1:16 UNOBSERVED ASTRONOMICAL
OBJECTS 45 2 THE COSMIC DISTANCE SCALE 53 2:1 SIZE OF THE SOLAR SYSTEM
53 2:2 TRIGONOMETRIC PARALLAX 54 2:3 SPECTROSCOPIC PARALLAX 54 2:4
SUPERPOSITION OF MAIN SEQUENCES 54 2:5 RR LYRAE VARIABLES 56 2:6 CEPHEID
VARIABLES 56 2:7 NOVAE AND HN REGIONS 57 2:8 SUPERNOVAE 57 2:9 THE
TULLY-FISHER AND FABER-JACKSON RELATIONS 57 2:10 DISTANCE-RED-SHIFT
RELATION 58 2:11 DISTANCES AND VELOCITIES 60 2:12 SEELIGER S THEOREM AND
NUMBER COUNTS IN COSMOLOGY 60 PROBLEMS DEALING WITH THE SIZE OF
ASTRONOMICAL OBJECTS 63 ANSWERS TO SELECTED PROBLEMS 64 CONTENTS
DYNAMICS AND MASSES OF ASTRONOMICAL BODIES 67 3:1 UNIVERSAL
GRAVITATIONAL ATTRACTION 67 3:2 ELLIPSES AND CONIC SECTIONS 70 3:3
CENTRAL FORCE 71 3:4 TWO-BODY PROBLEM WITH ATTRACTIVE FORCE 72 3:5
KEPLER S LAWS 73 3:6 DETERMINATION OF THE GRAVITATIONAL CONSTANT 77 3:7
THE CONCEPT OF MASS 80 3:8 INERTIAL FRAMES OF REFERENCE * THE
EQUIVALENCE PRINCIPLE 82 3:9 GRAVITATIONAL RED SHIFT AND TIME DILATION
83 3:10 MEASURES OF TIME 84 3:11 USES OF PULSAR TIME 86 3:12 GALACTIC
ROTATION 86 3:13 SCATTERING IN AN INVERSE SQUARE LAW FIELD 88 3:14
STELLAR DRAG 90 3:15 VIRIAL THEOREM 92 3:16 STABILITY AGAINST TIDAL
DISRUPTION 94 3:17 LAGRANGIAN EQUATIONS 96 ANSWERS TO SELECTED PROBLEMS
102 RANDOM PROCESSES 105 4:1 RANDOM EVENTS . . 105 4:2 RANDOM WALK 106
4:3 DISTRIBUTION FUNCTIONS, PROBABILITIES, AND MEAN VALUES ILL 4:4
PROJECTED LENGTH OF RANDOMLY ORIENTED RODS 112 4:5 THE MOTION OF
MOLECULES 115 4:6 IDEAL GAS LAW 118 4:7 RADIATION KINETICS 120 4:8
ISOTHERMAL DISTRIBUTIONS 121 4:9 ATMOSPHERIC DENSITY 122 4:10 PARTICLE
ENERGY DISTRIBUTION IN AN ATMOSPHERE 123 4:11 PHASE SPACE 126 4:12
ANGULAR DIAMETERS OF STARS 128 4:13 THE SPECTRUM OF LIGHT INSIDE AND
OUTSIDE A HOT BODY 129 4:14 BOLTZMANN EQUATION AND LIOUVILLE S THEOREM
136 4:15 FERMI-DIRAC STATISTICS 138 4:16 THE SAHA EQUATION 141 4:17 MEAN
VALUES 142 4:18 FLUCTUATIONS 143 4:19 THE FIRST LAW OF THERMODYNAMICS
144 4:20 ISOTHERMAL AND ADIABATIC PROCESSES 146 4:21 ENTROPY AND THE
SECOND LAW OF THERMODYNAMICS 147 4:22 FORMATION OF CONDENSATIONS AND THE
STABILITY OF THE INTERSTELLAR MEDIUM 148 4:23 IONIZED GASES AND CLUSTERS
OF STARS AND GALAXIES 150 CONTENTS XI ANSWERS TO SELECTED PROBLEMS 154
PHOTONS AND FAST PARTICLES 157 5:1 THE RELATIVITY PRINCIPLE 157 5:2
RELATIVISTIC TERMINOLOGY 158 5:3 RELATIVE MOTION 162 5:4 FOUR-VECTORS
167 5:5 ABERRATION OF LIGHT 169 5:6 MOMENTUM, MASS, AND ENERGY 170 5:7
THE DOPPLER EFFECT 173 5:8 POYNTING-ROBERTSON DRAG ON A GRAIN 174 5:9
MOTION THROUGH THE COSMIC MICROWAVE BACKGROUND RADIATION .. 175 5:10
PARTICLES AT HIGH ENERGIES 178 5:11 HIGH-ENERGY COLLISIONS 179 5:12
SUPERLUMINAL MOTIONS AND TACHYONS 181 5:13 STRONG GRAVITATIONAL FIELDS
183 5:14 GRAVITATIONAL TIME DELAY; DEFLECTION OF LIGHT 187 5:15
GRAVITATIONAL LENSES 189 5:16 AN INDEPENDENT MEASURE OF THE HUBBLE
CONSTANT 190 5:17 ORBITAL MOTION AROUND A BLACK HOLE 191 5:18 ADVANCE OF
THE PERIHELION OF MERCURY 195 5:19 ACCRETION DISKS AROUND X-RAY
BINARIES 196 5:20 THE SMALLEST CONCEIVABLE VOLUME 198 5:21 THE ZEROTH
LAW OF BLACK HOLE DYNAMICS 199 5:22 ENTROPY AND TEMPERATURE OF A BLACK
HOLE 199 5:23 THE THIRD LAW OF BLACK HOLE THERMODYNAMICS 200 5:24
RADIATING BLACK HOLES 201 ANSWERS TO SELECTED PROBLEMS 203
ELECTROMAGNETIC PROCESSES IN SPACE 205 6:1 COULOMB S LAW AND DIELECTRIC
DISPLACEMENT 205 6:2 COSMIC MAGNETIC FIELDS 207 6:3 OHM S LAW AND
DISSIPATION 209 6:4 MAGNETIC ACCELERATION OF PARTICLES 209 6:5 AMPERE S
LAW AND THE RELATION BETWEEN COSMIC CURRENTS AND MAGNETIC FIELDS 211 6:6
MAGNETIC MIRRORS, MAGNETIC BOTTLES, AND COSMIC-RAY PARTICLES . ..211 6:7
MAXWELL S EQUATIONS 214 6:8 THE WAVE EQUATION 215 6:9 PHASE AND GROUP
VELOCITY 217 6:10 ENERGY DENSITY, PRESSURE, AND THE POYNTING VECTOR 218
6:11 PROPAGATION OF WAVES THROUGH A TENUOUS IONIZED MEDIUM 220 6:12
FARADAY ROTATION 223 6:13 LIGHT EMISSION BY SLOWLY MOVING CHARGES 226
6:14 GRAVITATIONAL RADIATION 231 CONTENTS 6:15 LIGHT SCATTERING BY
UNBOUND CHARGES 232 6:16 SCATTERING BY BOUND CHARGES 234 6:17 EXTINCTION
BY INTERSTELLAR GRAINS 236 6:18 ABSORPTION AND EMISSION OF RADIATION BY
A PLASMA 237 6:19 RADIATION FROM THERMAL RADIO SOURCES 241 6:20
SYNCHROTRON RADIATION 244 6:21 THE SYNCHROTRON RADIATION SPECTRUM 246
6:22 THE COMPTON EFFECT AND INVERSE COMPTON EFFECT 250 6:23 THE
SUNYAEV-ZEL DOVICH EFFECT 254 6:24 THE CHERENKOV EFFECT 255 6:25 THE
ANGULAR DISTRIBUTION OF LIGHT FROM THE SKY 257 ANSWERS TO SELECTED
PROBLEMS 260 QUANTUM PROCESSES IN ASTROPHYSICS 265 7:1 ABSORPTION AND
EMISSION OF RADIATION BY ATOMIC SYSTEMS 265 7:2 QUANTIZATION OF ATOMIC
SYSTEMS 266 7:3 ATOMIC HYDROGEN AND HYDROGENLIKE SPECTRA 269 7:4 SPECTRA
OF IONIZED HYDROGEN 277 7:5 HYDROGEN MOLECULES 278 7:6 SELECTION RULES
281 7:7 THE INFORMATION CONTAINED IN SPECTRAL LINES 285 7:8 ABSORPTION
AND EMISSION LINE PROFILE 288 7:9 QUANTUM MECHANICAL TRANSITION
PROBABILITIES 290 7:10 BLACKBODY RADIATION 296 7:11 STIMULATED EMISSION
AND COSMIC MASERS 299 7:12 STELLAR OPACITY 301 7:13 CHEMICAL COMPOSITION
OF STELLAR ATMOSPHERES * THE RADIATIVE TRANSFER PROBLEM 304 7:14 A
GRAVITATIONAL QUANTUM EFFECT 308 ANSWERS TO SELECTED PROBLEMS 309 STARS
: 313 8:1 OBSERVATIONS 313 8:2 SOURCES OF STELLAR ENERGY 316 8:3
REQUIREMENTS IMPOSED ON STELLAR MODELS 318 8:4 MATHEMATICAL FORMULATION
OF THE THEORY 319 8:5 RELAXATION TIMES 321 8:6 EQUATION OF STATE 324 8:7
LUMINOSITY 327 8:8 OPACITY INSIDE A STAR 328 8:9 CONVECTIVE TRANSFER 333
8:10 NUCLEAR REACTION RATES 335 8:11 PARTICLES AND BASIC PARTICLE
INTERACTIONS 339 8:12 ENERGY-GENERATING PROCESSES IN STARS 341 8:13
COMPACT STARS 351 CONTENTS XIII 8:14 WHITE DWARF STARS 351 8:15 STELLAR
EVOLUTION AND THE HERTZSPRUNG-RUSSELL DIAGRAM 355 8:16 SUPERNOVAE,
NEUTRON STARS, AND BLACK HOLES 358 8:17 PULSARS, MAGNETARS, AND PLERIONS
364 8:18 HYPERNOVAE AND GAMMA-RAY BURSTS 365 8:19 MICROQUASARS 367 8:20
VIBRATION AND ROTATION OF STARS 367 8:21 SOLAR NEUTRINO OBSERVATIONS 369
ADDITIONAL PROBLEMS 371 ANSWERS TO SELECTED PROBLEMS 373 9 COSMIC GAS
AND DUST 379 9:1 OBSERVATIONS 379 9:2 STROMGREN SPHERES 390 9:3 PRESSURE
PROPAGATION AND THE SPEED OF SOUND 395 9:4 SHOCK FRONTS AND IONIZATION
FRONTS 397 9:5 GAMMA-RAY BURSTS, GRB 404 9:6 ORIGIN OF COSMIC MAGNETIC
FIELDS 405 9:7 DYNAMO AMPLIFICATION OF MAGNETIC FIELDS 409 9:8
COSMIC-RAY PARTICLES IN THE INTERSTELLAR MEDIUM 410 9:9 FORMATION OF
MOLECULES AND GRAINS 415 9:10 FORMATION OF MOLECULAR HYDROGEN, H 2 419
9:11 POLYCYCLIC AROMATIC HYDROCARBONS 420 9:12 INFRARED EMISSION FROM
GALACTIC SOURCES 421 9:13 ORIENTATION OF INTERSTELLAR GRAINS 425 9:14
ACOUSTIC DAMPING AND THE BARNETT EFFECT 429 9:15 STABILITY OF ISOTHERMAL
GAS SPHERES 430 9:16 POLYTROPES 433 9:17 THE NATURE OF DARK MATTER 435
ADDITIONAL PROBLEMS 438 ANSWERS TO SELECTED PROBLEMS 438 10 FORMATION OF
STARS AND PLANETARY SYSTEMS 441 10:1 STAR FORMATION 441 10:2
GRAVITATIONAL CONDENSATION OF MATTER 443 10:3 JEANS CRITERION 444 10:4
HYDROSTATICS OF GASEOUS CLOUDS 446 10:5 MAGNETIC RECONNECTION 446 10:6
AMBIPOLAR DIFFUSION 449 10:7 TRIGGERED COLLAPSE 450 10:8 ENERGY
DISSIPATION 451 10:9 COOLING OF DENSE CLOUDS BY GRAIN RADIATION 455
10:10 CONDENSATION IN THE EARLY SOLAR NEBULA 458 10:11 THE EVIDENCE
PROVIDED BY METEORITES 462 10:12 NASCENT PLANETARY DISKS 467 XIV
CONTENTS 10:13 FORMATION OF PRIMITIVE CONDENSATES IN THE EARLY SOLAR
NEBULA.... 469 10:14 FORMATION OF PLANETESIMALS 469 10:15 CONDENSATION
IN THE PRIMEVAL SOLAR NEBULA 471 ANSWERS TO SELECTED PROBLEMS 473 11 THE
UNIVERSE WE INHABIT 477 11:1 QUESTIONS ABOUT THE UNIVERSE 477 11:2
ISOTROPY AND HOMOGENEITY OF THE UNIVERSE 477 11:3 COSMOLOGICAL PRINCIPLE
480 11:4 HOMOGENEOUS ISOTROPIC MODELS OF THE UNIVERSE 481 11:5 OLBERS S
PARADOX 485 11:6 MEASURING THE GEOMETRIC PROPERTIES OF THE UNIVERSE 487
11:7 ANGULAR DIAMETERS AND NUMBER COUNTS 490 11:8 THE FLUX FROM DISTANT
SUPERNOVAE 492 11:9 MAGNITUDES AND ANGULAR DIAMETERS OF GALAXIES 495
11:10 DYNAMICS ON A COSMIC SCALE 496 11:11 EINSTEIN S FIELD EQUATIONS
497 11:12 THE DENSITY PARAMETER I? 497 11:13 SOME SIMPLE MODELS OF THE
UNIVERSE 500 11:14 SELF-REGENERATING UNIVERSES 505 11:15 HORIZON OF A
UNIVERSE 506 11:16 TOPOLOGY OF THE UNIVERSE 511 11:17 DO THE FUNDAMENTAL
CONSTANTS OF NATURE CHANGE WITH TIME? 513 11:18 THE FLOW OF TIME 515
11:19 BRANES AND COMPACT DIMENSIONS 517 ANSWERS TO SELECTED PROBLEMS 519
12 AN ASTROPHYSICAL HISTORY OF THE UNIVERSE 525 12:1 THE ISOTROPY
PROBLEM 525 12:2 THE FLATNESS PROBLEM 527 12:3 WHERE DID THE MICROWAVE
BACKGROUND RADIATION ORIGINATE 528 12:4 LOOKING BACK IN TIME 530 12:5
THE PLANCK ERA 531 12:6 INFLATIONARY COSMOLOGICAL MODELS 532 12:7 THE
POST-INFLATIONARY STAGE 536 12:8 THE RIEMANN CURVATURE CONSTANT 537 12:9
QUARK-GLUON PLASMA 539 12:10 THE ORIGIN OF BARYONIC MASS 541 12:11
LEPTONS AND ANTILEPTONS 543 12:12 THE MATTER-ANTIMATTER ASYMMETRY 543
12:13 EARLY ELEMENT FORMATION 544 12:14 THE ENTROPY OF THE UNIVERSE 546
12:15 A MORE PRECISE EXTRAPOLATION BACK IN TIME 548 12:16 THE FIRST
400,000 YEARS 549 12:17 LAST IMPACT AND DECOUPLING OF MATTER FROM
RADIATION 551 CONTENTS XV 12:18 OBSERVATIONAL EVIDENCE 551 ANSWERS TO
SELECTED PROBLEMS 552 13 THE FORMATION OF COSMIC STRUCTURES 555 13:1 THE
INHOMOGENEOUS UNIVERSE 555 13:2 PRIMORDIAL SEEDS 556 13:3 THE SEEDS OF
STRUCTURE 556 13:4 EVOLUTION OF INHOMOGENEITIES 558 13:5 THE COUPLING OF
RADIATION AND MATTER 561 13:6 COOLING OF GAS AFTER DECOUPLING 562 13:7
PHOTON DRAG 563 13:8 OSCILLATIONS AROUND THE DECOUPLING ERA 565 13:9 THE
JEANS CRITERION 569 13:10 CONDENSATION ON SUPERHORIZON SCALES 571 13:11
A SWISS-CHEESE MODEL 572 13:12 BIRKHOFF S THEOREM AND WHY GALAXIES
DON T EXPAND 577 13:13 CURVATURE FLUCTUATIONS 578 13:14 PRIMORDIAL
COLLAPSE AND THE DENSITY PARAMETER FIO 581 13:15 INHOMOGENEITIES IN THE
MICROWAVE BACKGROUND RADIATION 583 13:16 THE MICROWAVE BACKGROUND
TEMPERATURE FLUCTUATIONS 584 13:17 THE THREE-DIMENSIONAL POWER SPECTRUM
OF GALAXIES AND CLUSTERS 587 13:18 THE OBSERVED IMPRINT OF OSCILLATIONS
587 13:19 OSCILLATIONS AND FUNDAMENTAL COSMOLOGICAL PARAMETERS 589 13:20
THE REES-SCIAMA EFFECT 591 13:21 FORMATION OF THE LARGEST STRUCTURES 592
13:22 PRESS-SCHECHTER CONDENSATION 593 13:23 THE INTERNAL STRUCTURE OF
DARK MATTER HALOES 597 13:24 PROTOGALACTIC COOLING 597 13:25 FORMATION
OF THE FIRST STARS 598 13:26 POPULATION III STARS 600 13:27 REIONIZATION
602 13:28 THE GUNN-PETERSON EFFECT 604 13:29 QUASAR STROMGREN SPHERES
606 13:30 FORMATION OF SUPERMASSIVE BLACK HOLES 607 13:31 ACCRETION
DISKS AROUND SUPERMASSIVE BLACK HOLES 607 13:32 THE MASSES OF GALAXY
BULGES AND CENTRAL BLACK HOLES 608 13:33 GROWTH THROUGH MERGING 609
13:34 CHEMICAL EVOLUTION OF GALAXIES AND THE INTRACLUSTER MEDIUM 610
13:35 FORMATION OF OUR OWN GALAXY 611 13:36 RADIOACTIVE DATING 613
ANSWERS TO SELECTED PROBLEMS 613 XVI CONTENTS 14 LIFE IN THE UNIVERSE
617 14:1 INTRODUCTION 617 14:2 THERMODYNAMICS OF BIOLOGICAL SYSTEMS 617
14:3 ORGANIC MOLECULES IN NATURE AND IN THE LABORATORY 619 14:4 ORIGINS
OF LIFE ON EARTH 622 14:5 THE CHEMICAL BASIS OF TERRESTRIAL LIFE 624
14:6 LABORATORY SYNTHESES 626 14:7 PANSPERMIA 627 14:8 HIGHER ORGANISMS
AND INTELLIGENCE 627 14:9 COMMUNICATION AND SPACE TRAVEL 627 ANSWER TO A
SELECTED PROBLEM 630 A ASTRONOMICAL TERMINOLOGY 633 B ASTROPHYSICAL
CONSTANTS 665 INDEX 695
|
| adam_txt |
MARTIN HARWIT ASTROPHYSICAL CONCEPTS FOURTH EDITION SPRINGER CONTENTS
PREFACE TO THE FOURTH EDITION V 1 AN APPROACH TO ASTROPHYSICS 1 1:1
CHANNELS FOR ASTRONOMICAL INFORMATION 3 1:2 X-RAY ASTRONOMY: DEVELOPMENT
OF A NEW FIELD 5 1:3 THE APPROPRIATE SET OF PHYSICAL LAWS 9 1:4 THE
FORMATION OF STARS 10 1:5 THE HERTZSPRUNG-RUSSELL AND COLOR-MAGNITUDE
DIAGRAMS 12 1:6 THE BIRTH OF LOW-MASS STARS 15 1:7 MASSIVE STARS 18 1:8
THE LATE STAGES OF STELLAR EVOLUTION 18 1:9 ABUNDANCE OF THE CHEMICAL
ELEMENTS IN STARS AND THE SOLAR SYSTEM 24 1:10 ORIGIN OF THE SOLAR
SYSTEM 29 1:11 THE GALAXY AND THE LOCAL GROUP 36 1:12 THE FORMATION OF
LARGE-SCALE STRUCTURES 38 1:13 BLACK HOLES 42 1:14 MAGNETOHYDRODYNAMICS
AND TURBULENCE 43 1:15 PROBLEMS OF LIFE 44 1:16 UNOBSERVED ASTRONOMICAL
OBJECTS 45 2 THE COSMIC DISTANCE SCALE 53 2:1 SIZE OF THE SOLAR SYSTEM
53 2:2 TRIGONOMETRIC PARALLAX 54 2:3 SPECTROSCOPIC PARALLAX 54 2:4
SUPERPOSITION OF MAIN SEQUENCES 54 2:5 RR LYRAE VARIABLES 56 2:6 CEPHEID
VARIABLES 56 2:7 NOVAE AND HN REGIONS 57 2:8 SUPERNOVAE 57 2:9 THE
TULLY-FISHER AND FABER-JACKSON RELATIONS 57 2:10 DISTANCE-RED-SHIFT
RELATION 58 2:11 DISTANCES AND VELOCITIES 60 2:12 SEELIGER'S THEOREM AND
NUMBER COUNTS IN COSMOLOGY 60 PROBLEMS DEALING WITH THE SIZE OF
ASTRONOMICAL OBJECTS 63 ANSWERS TO SELECTED PROBLEMS 64 CONTENTS
DYNAMICS AND MASSES OF ASTRONOMICAL BODIES 67 3:1 UNIVERSAL
GRAVITATIONAL ATTRACTION 67 3:2 ELLIPSES AND CONIC SECTIONS 70 3:3
CENTRAL FORCE 71 3:4 TWO-BODY PROBLEM WITH ATTRACTIVE FORCE 72 3:5
KEPLER'S LAWS 73 3:6 DETERMINATION OF THE GRAVITATIONAL CONSTANT 77 3:7
THE CONCEPT OF MASS 80 3:8 INERTIAL FRAMES OF REFERENCE * THE
EQUIVALENCE PRINCIPLE 82 3:9 GRAVITATIONAL RED SHIFT AND TIME DILATION
83 3:10 MEASURES OF TIME 84 3:11 USES OF PULSAR TIME 86 3:12 GALACTIC
ROTATION 86 3:13 SCATTERING IN AN INVERSE SQUARE LAW FIELD 88 3:14
STELLAR DRAG 90 3:15 VIRIAL THEOREM 92 3:16 STABILITY AGAINST TIDAL
DISRUPTION 94 3:17 LAGRANGIAN EQUATIONS 96 ANSWERS TO SELECTED PROBLEMS
102 RANDOM PROCESSES 105 4:1 RANDOM EVENTS .'. 105 4:2 RANDOM WALK 106
4:3 DISTRIBUTION FUNCTIONS, PROBABILITIES, AND MEAN VALUES ILL 4:4
PROJECTED LENGTH OF RANDOMLY ORIENTED RODS 112 4:5 THE MOTION OF
MOLECULES 115 4:6 IDEAL GAS LAW 118 4:7 RADIATION KINETICS 120 4:8
ISOTHERMAL DISTRIBUTIONS 121 4:9 ATMOSPHERIC DENSITY 122 4:10 PARTICLE
ENERGY DISTRIBUTION IN AN ATMOSPHERE 123 4:11 PHASE SPACE 126 4:12
ANGULAR DIAMETERS OF STARS 128 4:13 THE SPECTRUM OF LIGHT INSIDE AND
OUTSIDE A HOT BODY 129 4:14 BOLTZMANN EQUATION AND LIOUVILLE'S THEOREM
136 4:15 FERMI-DIRAC STATISTICS 138 4:16 THE SAHA EQUATION 141 4:17 MEAN
VALUES 142 4:18 FLUCTUATIONS 143 4:19 THE FIRST LAW OF THERMODYNAMICS
144 4:20 ISOTHERMAL AND ADIABATIC PROCESSES 146 4:21 ENTROPY AND THE
SECOND LAW OF THERMODYNAMICS 147 4:22 FORMATION OF CONDENSATIONS AND THE
STABILITY OF THE INTERSTELLAR MEDIUM 148 4:23 IONIZED GASES AND CLUSTERS
OF STARS AND GALAXIES 150 CONTENTS XI ANSWERS TO SELECTED PROBLEMS 154
PHOTONS AND FAST PARTICLES 157 5:1 THE RELATIVITY PRINCIPLE 157 5:2
RELATIVISTIC TERMINOLOGY 158 5:3 RELATIVE MOTION 162 5:4 FOUR-VECTORS
167 5:5 ABERRATION OF LIGHT 169 5:6 MOMENTUM, MASS, AND ENERGY 170 5:7
THE DOPPLER EFFECT 173 5:8 POYNTING-ROBERTSON DRAG ON A GRAIN 174 5:9
MOTION THROUGH THE COSMIC MICROWAVE BACKGROUND RADIATION . 175 5:10
PARTICLES AT HIGH ENERGIES 178 5:11 HIGH-ENERGY COLLISIONS 179 5:12
SUPERLUMINAL MOTIONS AND TACHYONS 181 5:13 STRONG GRAVITATIONAL FIELDS
183 5:14 GRAVITATIONAL TIME DELAY; DEFLECTION OF LIGHT 187 5:15
GRAVITATIONAL LENSES 189 5:16 AN INDEPENDENT MEASURE OF THE HUBBLE
CONSTANT 190 5:17 ORBITAL MOTION AROUND A BLACK HOLE 191 5:18 ADVANCE OF
THE PERIHELION OF MERCURY 195 5:19 ACCRETION DISKS AROUND X-RAY
BINARIES 196 5:20 THE SMALLEST CONCEIVABLE VOLUME 198 5:21 THE ZEROTH
LAW OF BLACK HOLE DYNAMICS 199 5:22 ENTROPY AND TEMPERATURE OF A BLACK
HOLE 199 5:23 THE THIRD LAW OF BLACK HOLE THERMODYNAMICS 200 5:24
RADIATING BLACK HOLES 201 ANSWERS TO SELECTED PROBLEMS 203
ELECTROMAGNETIC PROCESSES IN SPACE 205 6:1 COULOMB'S LAW AND DIELECTRIC
DISPLACEMENT 205 6:2 COSMIC MAGNETIC FIELDS 207 6:3 OHM'S LAW AND
DISSIPATION 209 6:4 MAGNETIC ACCELERATION OF PARTICLES 209 6:5 AMPERE'S
LAW AND THE RELATION BETWEEN COSMIC CURRENTS AND MAGNETIC FIELDS 211 6:6
MAGNETIC MIRRORS, MAGNETIC BOTTLES, AND COSMIC-RAY PARTICLES . .211 6:7
MAXWELL'S EQUATIONS 214 6:8 THE WAVE EQUATION 215 6:9 PHASE AND GROUP
VELOCITY 217 6:10 ENERGY DENSITY, PRESSURE, AND THE POYNTING VECTOR 218
6:11 PROPAGATION OF WAVES THROUGH A TENUOUS IONIZED MEDIUM 220 6:12
FARADAY ROTATION 223 6:13 LIGHT EMISSION BY SLOWLY MOVING CHARGES 226
6:14 GRAVITATIONAL RADIATION 231 CONTENTS 6:15 LIGHT SCATTERING BY
UNBOUND CHARGES 232 6:16 SCATTERING BY BOUND CHARGES 234 6:17 EXTINCTION
BY INTERSTELLAR GRAINS 236 6:18 ABSORPTION AND EMISSION OF RADIATION BY
A PLASMA 237 6:19 RADIATION FROM THERMAL RADIO SOURCES 241 6:20
SYNCHROTRON RADIATION 244 6:21 THE SYNCHROTRON RADIATION SPECTRUM 246
6:22 THE COMPTON EFFECT AND INVERSE COMPTON EFFECT 250 6:23 THE
SUNYAEV-ZEL'DOVICH EFFECT 254 6:24 THE CHERENKOV EFFECT 255 6:25 THE
ANGULAR DISTRIBUTION OF LIGHT FROM THE SKY 257 ANSWERS TO SELECTED
PROBLEMS 260 QUANTUM PROCESSES IN ASTROPHYSICS 265 7:1 ABSORPTION AND
EMISSION OF RADIATION BY ATOMIC SYSTEMS 265 7:2 QUANTIZATION OF ATOMIC
SYSTEMS 266 7:3 ATOMIC HYDROGEN AND HYDROGENLIKE SPECTRA 269 7:4 SPECTRA
OF IONIZED HYDROGEN 277 7:5 HYDROGEN MOLECULES 278 7:6 SELECTION RULES
281 7:7 THE INFORMATION CONTAINED IN SPECTRAL LINES 285 7:8 ABSORPTION
AND EMISSION LINE PROFILE 288 7:9 QUANTUM MECHANICAL TRANSITION
PROBABILITIES 290 7:10 BLACKBODY RADIATION 296 7:11 STIMULATED EMISSION
AND COSMIC MASERS 299 7:12 STELLAR OPACITY 301 7:13 CHEMICAL COMPOSITION
OF STELLAR ATMOSPHERES * THE RADIATIVE TRANSFER PROBLEM 304 7:14 A
GRAVITATIONAL QUANTUM EFFECT 308 ANSWERS TO SELECTED PROBLEMS 309 STARS
: 313 8:1 OBSERVATIONS 313 8:2 SOURCES OF STELLAR ENERGY 316 8:3
REQUIREMENTS IMPOSED ON STELLAR MODELS 318 8:4 MATHEMATICAL FORMULATION
OF THE THEORY 319 8:5 RELAXATION TIMES 321 8:6 EQUATION OF STATE 324 8:7
LUMINOSITY 327 8:8 OPACITY INSIDE A STAR 328 8:9 CONVECTIVE TRANSFER 333
8:10 NUCLEAR REACTION RATES 335 8:11 PARTICLES AND BASIC PARTICLE
INTERACTIONS 339 8:12 ENERGY-GENERATING PROCESSES IN STARS 341 8:13
COMPACT STARS 351 CONTENTS XIII 8:14 WHITE DWARF STARS 351 8:15 STELLAR
EVOLUTION AND THE HERTZSPRUNG-RUSSELL DIAGRAM 355 8:16 SUPERNOVAE,
NEUTRON STARS, AND BLACK HOLES 358 8:17 PULSARS, MAGNETARS, AND PLERIONS
364 8:18 HYPERNOVAE AND GAMMA-RAY BURSTS 365 8:19 MICROQUASARS 367 8:20
VIBRATION AND ROTATION OF STARS 367 8:21 SOLAR NEUTRINO OBSERVATIONS 369
ADDITIONAL PROBLEMS 371 ANSWERS TO SELECTED PROBLEMS 373 9 COSMIC GAS
AND DUST 379 9:1 OBSERVATIONS 379 9:2 STROMGREN SPHERES 390 9:3 PRESSURE
PROPAGATION AND THE SPEED OF SOUND 395 9:4 SHOCK FRONTS AND IONIZATION
FRONTS 397 9:5 GAMMA-RAY BURSTS, GRB 404 9:6 ORIGIN OF COSMIC MAGNETIC
FIELDS 405 9:7 DYNAMO AMPLIFICATION OF MAGNETIC FIELDS 409 9:8
COSMIC-RAY PARTICLES IN THE INTERSTELLAR MEDIUM 410 9:9 FORMATION OF
MOLECULES AND GRAINS 415 9:10 FORMATION OF MOLECULAR HYDROGEN, H 2 419
9:11 POLYCYCLIC AROMATIC HYDROCARBONS 420 9:12 INFRARED EMISSION FROM
GALACTIC SOURCES 421 9:13 ORIENTATION OF INTERSTELLAR GRAINS 425 9:14
ACOUSTIC DAMPING AND THE BARNETT EFFECT 429 9:15 STABILITY OF ISOTHERMAL
GAS SPHERES 430 9:16 POLYTROPES 433 9:17 THE NATURE OF DARK MATTER 435
ADDITIONAL PROBLEMS 438 ANSWERS TO SELECTED PROBLEMS 438 10 FORMATION OF
STARS AND PLANETARY SYSTEMS 441 10:1 STAR FORMATION 441 10:2
GRAVITATIONAL CONDENSATION OF MATTER 443 10:3 JEANS CRITERION 444 10:4
HYDROSTATICS OF GASEOUS CLOUDS 446 10:5 MAGNETIC RECONNECTION 446 10:6
AMBIPOLAR DIFFUSION 449 10:7 TRIGGERED COLLAPSE 450 10:8 ENERGY
DISSIPATION 451 10:9 COOLING OF DENSE CLOUDS BY GRAIN RADIATION 455
10:10 CONDENSATION IN THE EARLY SOLAR NEBULA 458 10:11 THE EVIDENCE
PROVIDED BY METEORITES 462 10:12 NASCENT PLANETARY DISKS 467 XIV
CONTENTS 10:13 FORMATION OF PRIMITIVE CONDENSATES IN THE EARLY SOLAR
NEBULA. 469 10:14 FORMATION OF PLANETESIMALS 469 10:15 CONDENSATION
IN THE PRIMEVAL SOLAR NEBULA 471 ANSWERS TO SELECTED PROBLEMS 473 11 THE
UNIVERSE WE INHABIT 477 11:1 QUESTIONS ABOUT THE UNIVERSE 477 11:2
ISOTROPY AND HOMOGENEITY OF THE UNIVERSE 477 11:3 COSMOLOGICAL PRINCIPLE
480 11:4 HOMOGENEOUS ISOTROPIC MODELS OF THE UNIVERSE 481 11:5 OLBERS'S
PARADOX 485 11:6 MEASURING THE GEOMETRIC PROPERTIES OF THE UNIVERSE 487
11:7 ANGULAR DIAMETERS AND NUMBER COUNTS 490 11:8 THE FLUX FROM DISTANT
SUPERNOVAE 492 11:9 MAGNITUDES AND ANGULAR DIAMETERS OF GALAXIES 495
11:10 DYNAMICS ON A COSMIC SCALE 496 11:11 EINSTEIN'S FIELD EQUATIONS
497 11:12 THE DENSITY PARAMETER I? 497 11:13 SOME SIMPLE MODELS OF THE
UNIVERSE 500 11:14 SELF-REGENERATING UNIVERSES 505 11:15 HORIZON OF A
UNIVERSE 506 11:16 TOPOLOGY OF THE UNIVERSE 511 11:17 DO THE FUNDAMENTAL
CONSTANTS OF NATURE CHANGE WITH TIME? 513 11:18 THE FLOW OF TIME 515
11:19 BRANES AND COMPACT DIMENSIONS 517 ANSWERS TO SELECTED PROBLEMS 519
12 AN ASTROPHYSICAL HISTORY OF THE UNIVERSE 525 12:1 THE ISOTROPY
PROBLEM 525 12:2 THE FLATNESS PROBLEM 527 12:3 WHERE DID THE MICROWAVE
BACKGROUND RADIATION ORIGINATE 528 12:4 LOOKING BACK IN TIME 530 12:5
THE PLANCK ERA 531 12:6 INFLATIONARY COSMOLOGICAL MODELS 532 12:7 THE
POST-INFLATIONARY STAGE 536 12:8 THE RIEMANN CURVATURE CONSTANT 537 12:9
QUARK-GLUON PLASMA 539 12:10 THE ORIGIN OF BARYONIC MASS 541 12:11
LEPTONS AND ANTILEPTONS 543 12:12 THE MATTER-ANTIMATTER ASYMMETRY 543
12:13 EARLY ELEMENT FORMATION 544 12:14 THE ENTROPY OF THE UNIVERSE 546
12:15 A MORE PRECISE EXTRAPOLATION BACK IN TIME 548 12:16 THE FIRST
400,000 YEARS 549 12:17 LAST IMPACT AND DECOUPLING OF MATTER FROM
RADIATION 551 CONTENTS XV 12:18 OBSERVATIONAL EVIDENCE 551 ANSWERS TO
SELECTED PROBLEMS 552 13 THE FORMATION OF COSMIC STRUCTURES 555 13:1 THE
INHOMOGENEOUS UNIVERSE 555 13:2 PRIMORDIAL SEEDS 556 13:3 THE SEEDS OF
STRUCTURE 556 13:4 EVOLUTION OF INHOMOGENEITIES 558 13:5 THE COUPLING OF
RADIATION AND MATTER 561 13:6 COOLING OF GAS AFTER DECOUPLING 562 13:7
PHOTON DRAG 563 13:8 OSCILLATIONS AROUND THE DECOUPLING ERA 565 13:9 THE
JEANS CRITERION 569 13:10 CONDENSATION ON SUPERHORIZON SCALES 571 13:11
A SWISS-CHEESE MODEL 572 13:12 BIRKHOFF'S THEOREM AND "WHY GALAXIES
DON'T EXPAND" 577 13:13 CURVATURE FLUCTUATIONS 578 13:14 PRIMORDIAL
COLLAPSE AND THE DENSITY PARAMETER FIO 581 13:15 INHOMOGENEITIES IN THE
MICROWAVE BACKGROUND RADIATION 583 13:16 THE MICROWAVE BACKGROUND
TEMPERATURE FLUCTUATIONS 584 13:17 THE THREE-DIMENSIONAL POWER SPECTRUM
OF GALAXIES AND CLUSTERS 587 13:18 THE OBSERVED IMPRINT OF OSCILLATIONS
587 13:19 OSCILLATIONS AND FUNDAMENTAL COSMOLOGICAL PARAMETERS 589 13:20
THE REES-SCIAMA EFFECT 591 13:21 FORMATION OF THE LARGEST STRUCTURES 592
13:22 PRESS-SCHECHTER CONDENSATION 593 13:23 THE INTERNAL STRUCTURE OF
DARK MATTER HALOES 597 13:24 PROTOGALACTIC COOLING 597 13:25 FORMATION
OF THE FIRST STARS 598 13:26 POPULATION III STARS 600 13:27 REIONIZATION
602 13:28 THE GUNN-PETERSON EFFECT 604 13:29 QUASAR STROMGREN SPHERES
606 13:30 FORMATION OF SUPERMASSIVE BLACK HOLES 607 13:31 ACCRETION
DISKS AROUND SUPERMASSIVE BLACK HOLES 607 13:32 THE MASSES OF GALAXY
BULGES AND CENTRAL BLACK HOLES 608 13:33 GROWTH THROUGH MERGING 609
13:34 CHEMICAL EVOLUTION OF GALAXIES AND THE INTRACLUSTER MEDIUM 610
13:35 FORMATION OF OUR OWN GALAXY 611 13:36 RADIOACTIVE DATING 613
ANSWERS TO SELECTED PROBLEMS 613 XVI CONTENTS 14 LIFE IN THE UNIVERSE
617 14:1 INTRODUCTION 617 14:2 THERMODYNAMICS OF BIOLOGICAL SYSTEMS 617
14:3 ORGANIC MOLECULES IN NATURE AND IN THE LABORATORY 619 14:4 ORIGINS
OF LIFE ON EARTH 622 14:5 THE CHEMICAL BASIS OF TERRESTRIAL LIFE 624
14:6 LABORATORY SYNTHESES 626 14:7 PANSPERMIA 627 14:8 HIGHER ORGANISMS
AND INTELLIGENCE 627 14:9 COMMUNICATION AND SPACE TRAVEL 627 ANSWER TO A
SELECTED PROBLEM 630 A ASTRONOMICAL TERMINOLOGY 633 B ASTROPHYSICAL
CONSTANTS 665 INDEX 695 |
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| callnumber-subject | QB - Astronomy |
| classification_rvk | US 2000 |
| classification_tum | PHY 903f |
| ctrlnum | (OCoLC)69651591 (DE-599)BVBBV022935564 |
| dewey-full | 523.01 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
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| dewey-search | 523.01 |
| dewey-sort | 3523.01 |
| dewey-tens | 520 - Astronomy and allied sciences |
| discipline | Physik |
| discipline_str_mv | Physik |
| edition | 4. ed. |
| format | Book |
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| id | DE-604.BV022935564 |
| illustrated | Illustrated |
| index_date | 2024-07-02T18:56:21Z |
| indexdate | 2024-07-09T21:08:01Z |
| institution | BVB |
| isbn | 0387329439 9780387329437 0387332286 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016140313 |
| oclc_num | 69651591 |
| open_access_boolean | |
| owner | DE-91G DE-BY-TUM DE-11 DE-83 |
| owner_facet | DE-91G DE-BY-TUM DE-11 DE-83 |
| physical | XVI, 714 S. graph. Darst. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Springer |
| record_format | marc |
| series2 | Astronomy and astrophysics library |
| spelling | Harwit, Martin Verfasser aut Astrophysical concepts Martin Harwit 4. ed. New York [u.a.] Springer 2006 XVI, 714 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Astronomy and astrophysics library Astrofysica gtt Astrofísica larpcal Astrophysique Astrophysics Astrophysik (DE-588)4003326-0 gnd rswk-swf Astrophysik (DE-588)4003326-0 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016140313&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Harwit, Martin Astrophysical concepts Astrofysica gtt Astrofísica larpcal Astrophysique Astrophysics Astrophysik (DE-588)4003326-0 gnd |
| subject_GND | (DE-588)4003326-0 |
| title | Astrophysical concepts |
| title_auth | Astrophysical concepts |
| title_exact_search | Astrophysical concepts |
| title_exact_search_txtP | Astrophysical concepts |
| title_full | Astrophysical concepts Martin Harwit |
| title_fullStr | Astrophysical concepts Martin Harwit |
| title_full_unstemmed | Astrophysical concepts Martin Harwit |
| title_short | Astrophysical concepts |
| title_sort | astrophysical concepts |
| topic | Astrofysica gtt Astrofísica larpcal Astrophysique Astrophysics Astrophysik (DE-588)4003326-0 gnd |
| topic_facet | Astrofysica Astrofísica Astrophysique Astrophysics Astrophysik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016140313&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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