Verfügbarkeit: Introduction to planetary science

Introduction to planetary science: the geological perspective

This textbook details basic principles of planetary science that help to unify the study of the solar system. It is organized in a hierarchical manner so that every chapter builds upon preceding ones. Starting with historical perspectives on space exploration and the development of the scientific me...

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Hauptverfasser:	Faure, Gunter 1934- (VerfasserIn), Mensing, Teresa Marie (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Dordrecht Springer 2007
Schlagworte:	Astrogéologie Planètes - Géologie Geologie Astrogeology Planets > Geology Planetologie Système solaire Solar system Sonnensystem planetary science Lehrbuch
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Zusammenfassung:	This textbook details basic principles of planetary science that help to unify the study of the solar system. It is organized in a hierarchical manner so that every chapter builds upon preceding ones. Starting with historical perspectives on space exploration and the development of the scientific method, the book leads the reader through the solar system. Coverage explains that the origin and subsequent evolution of planets and their satellites can be explained by applications of certain basic principles of physics, chemistry, and celestial mechanics and that surface features of the solid bodies can be interpreted by principles of geology.
Beschreibung:	XX, 526 S. zahlr. Ill. und graph. Darst.
ISBN:	9781402052330 9781402055447 9789402404647

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Datensatz im Suchindex

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adam_text	INTRODUCTION TO PLANETARY SCIENCE THE GEOLOGICAL PERSPECTIVE GUNTER FAURE THE OHIO STATE UNIVERSITY, COLUMBUS, OHIO, USA TERESA M. MENSING THE OHIO STATE UNIVERSITY, MARION, OHIO, USA J SPRINGER TABLE OF CONTENTS PREFACE XVII 1. 2. 3. 4. THE 1.1. 1.2. 1.3. 1.4. 1.5. 1.6. 1.7. URGE TO EXPLORE THE EXPLORATION OF PLANET EARTH VISIONARIES AND ROCKET SCIENTISTS PRINCIPLES OF ROCKETRY AND SPACE NAVIGATION SUMMARY 8 SCIENCE BRIEFS PROBLEMS FURTHER READING FROM SPECULATION TO UNDERSTANDING 2.1. 2.2. 2.3. 2.4. 2.5. 2.6. 2.7. THE 3.1. 3.2. 3.3. 3.4. 3.5. 3.6. 3.7. 3.8. 3.9. LIFE 4.1. 4.2. 4.3. THE GEOCENTRIC COSMOLOGY OF ANCIENT GREECE THE SCIENTIFIC METHOD UNITS OF MEASUREMENT 2.3.1. DISTANCE 2.3.2. TIME 2.3.3. VELOCITY AND SPEED 2.3.4. MASS ' : 2.3.5. TEMPERATURE 2.3.6. PRESSURE SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING PLANETS OF THE SOLAR SYSTEM THE SUN AND THE PLANETS OF THE SOLAR SYSTEM THE TITIUS-BODE RULE AVERAGE ORBITAL VELOCITIES SURFACE TEMPERATURES BULK DENSITIES SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING AND DEATH OF STARS THE BIG BANG STELLAR EVOLUTION NUCLEOSVNTHESIS 1 2 4 7 9 10 11 11 13 13 14 16 16 17 17 18 18 19 19 20 21 21 23 23 25 27 28 28 32 32 34 34 35 35 39 41 VII VIM TABLE OF CONTENTS 4.4. THE MILKY WAY GALAXY 44 4.5. SUMMARY 45 4.6. SCIENCE BRIEFS 46 4.7. PROBLEMS 47 4.8. FURTHER READING 48 5. ORIGIN OF THE SOLAR SYSTEM 49 5.1. THE SOLAR NEBULA 49 5.2. ORIGIN OF THE SUN AND PLANETS 50 5.3. THE SUN 53 5.3.1. INTERNAL STRUCTURE 53 5.3.2. ENERGY PRODUCTION 56 5.3.3. MAGNETISM AND SUNSPOTS 57 5.3.4. EFFECT ON SPACE 59 5.3.5. LIFE AND DEATH OF THE SUN 59 5.4. SUMMARY 61 5.5. SCIENCE BRIEFS 62 5.6. PROBLEMS 62 5.7. FURTHER READING 63 6. EARJH: MODEL OF PLANETARY EVOLUTION 65 6.1. GROWTH FROM PLANETESIMALS 65 6.2. INTERNAL DIFFERENTIATION 67 6.3. ATMOSPHERE 69 6.4. INTERIOR OF THE EARTH 72 6.4.1. TEMPERATURE 72 6.4.2. MELTING OF PERIDOTITE 72 6.4.3. MANTLE PLUMES 73 6.4.4. PLATE TECTONICS 74 6.4.5. MAGNETIC FIELD . 76 6.5. INTERACTIONS WITH THE SOLAR WIND 79 6.6. SUMMARY 81 6.7. SCIENCE BRIEFS 82 6.8. PROBLEMS 85 6.9. FURTHER READING 85 7. THE CLOCKWORK OF THE SOLAR SYSTEM 87 7.1. THE PIONEERS OF ASTRONOMY 87 7.2. ELLIPTICAL ORBITS OF PLANETS 89 7.2.1. ECCENTRICITY 89 7.2.2. AVERAGE DISTANCE 90 7.2.3. REVOLUTION AND ROTATION 90 7.2.4. PLANE OF THE ECLIPTIC 91 7.2.5. AXIAL OBLIQUITY 91 7.2.6. CONJUNCTIONS AND OPPOSITIONS 92 7.2.7. SIDEREAL AND SYNODIC PERIODS OF REVOLUTION 95 7.2.8. SOLAR AND LUNAR ECLIPSES 96 7.2.9. ORBITAL VELOCITIES 96 7.2.10. LAUNCHING SATELLITES INTO ORBIT 98 7.2.11. LAGRANGE POINTS 99 7.3. CELESTIAL MECHANICS OF THE EARTH 100 7.3.1. RISING AND SETTING OF THE SUN 100 7.3.2. CHANGE IN THE PERIOD OF ROTATION 101 7.3.3. SEASONS OF THE NORTHERN HEMISPHERE 101 TABLE OF CONTENTS IX 8. 9. 7.3.4. THE EARTH AT SUMMER SOLSTICE 7.3.5. AUTUMNAL AND VERNAL EQUINOXES 7.3.6. MILANKOVITCH CYCLES 7.4. THE GREGORIAN CALENDAR 7.5. SUMMARY 7.6. SCIENCE BRIEFS 7.7. PROBLEMS 7.8. FURTHER READING METEORITES AND IMPACT CRATERS 8.1. CLASSIFICATION AND MINERALOGY OF METEORITES 8.2. CARBONACEOUS CHONDRITES 8.3. TEKTITES 8.4. METEORITE PARENT BODIES 8.5. CELESTIAL MECHANICS 8.6. FALLS AND FINDS 8.7. AGE DETERMINATIONS 8.8. METEORITE IMPACTS 8.8.1. FORMATION OF CRATERS 8.8.2. CLASSIFICATION OF CRATERS 8.8.3. MODIFICATION OF CRATERS 8.8.4. FREQUENCY OF IMPACTS 8.8.5. ENVIRONMENTAL CONSEQUENCES (TUNGUSKA, 1908) 8.9. METEOR CRATER: MEMORIAL TO E.M. SHOEMAKER 8.10. SUMMARY 8.11. SCIENCE BRIEFS 8.12. PROBLEMS 8.13. FURTHER READING THE EARTH-MOON SYSTEM 9.1. LANDFORMS OF THE LUNAR SURFACE 9.1.1. HIGHLANDS 9.1.2. MARIA 9.1.3. IMPACT CRATERS 9.1.4. REGOLITH 9.1.5. WATER 9.2. ISOTOPIC DATING 9.3. GEOLOGY OF THE NEAR SIDE 9.4. LUNAR METEORITES 9.5. INTERNAL STRUCTURE 9.6. ORIGIN OF THE MOON 9.7. CELESTIAL MECHANICS 9.7.1. SPIN-ORBIT COUPLING 9.7.2. LUNAR ORBIT 9.8. TIDES 9.8.1. OCEAN TIDES 9.8.2. BODY TIDES 9.9. RESEARCH STATIONS ON THE MOON 9.9.1. WEIGHING THE RISKS AND BENEFITS 9.9.2. UTILIZATION OF LUNAR RESOURCES 9.10. SPACE LAW 9.10.1. UNITED NATIONS: LAWS FOR STATES 101 102 103 104 105 105 107 107 109 110 112 114 115 116 118 120 122 122 123 124 125 126 127 131 131 135 135 139 141 141 142 143 143 143 145 145 149 150 152 154 154 155 156 156 157 158 158 159 160 160 TABLE OF CONTENTS 9.10.2. NASA: CODE OF CONDUCT FOR ASTRONAUTS 161 9.11. SUMMARY 162 9.12. SCIENCE BRIEFS 163 9.13. PROBLEMS 166 9.14. FURTHER READING 166 10. MERCURY: TOO HOT FOR COMFORT 167 10.1. SURFACE FEATURES 167 10.1.1. IMPACT CRATERS AND CLIFFS 167 10.1.2. REGOLITH 169 10.1.3. ATMOSPHERE 169 10.1.4. WATER 170 10.1.5. SURFACE TEMPERATURES 170 10.2. INTERNAL STRUCTURE 171 10.2.1. IRON CORE 171 10.2.2. MAGNETIC FIELD 172 10.2.3. GEOLOGICAL ACTIVITY 173 10.3. ORIGIN OF MERCURY 174 10.4. CELESTIAL MECHANICS 175 10.4.1. SPIN-ORBIT COUPLING 176 * 10.4.2. THE SOLAR TRANSIT 177 10.4.3. ROTATION OF THE LONG AXIS OF THE ORBIT 177 10.5. SUMMARY 178 10.6. SCIENCE BRIEFS 178 10.7. PROBLEMS 179 10.8. FURTHER READING 181 11. VENUS; PLANETARY EVOLUTION GONE BAD 183 11.1. SURFACE FEATURES 184 11.2. GEOLOGICAL PROCESSES 187 11.2.1. VOLCANIC ACTIVITY \ 187 11.2.2. TECTONIC ACTIVITY 192 11.2.3. IMPACT CRATERS 194 11.3. ATMOSPHERE AND CLIMATE 195 11.3.1. CHEMICAL COMPOSITION AND STRUCTURE 195 11.3.2. CIRCULATION 197 11.3.3. GREENHOUSE WARMING 197 11.3.4. EVOLUTION OF THE SURFACE ENVIRONMENT 198 11.3.5. CARBON CYCLES OF VENUS AND THE EARTH 199 11.4. INTERNAL STRUCTURE 201 11.4.1. THE CORE AND MAGNETISM 201 11.4.2. EPISODIC RESURFACING 202 11.5. CELESTIAL MECHANICS 203 11.5.1. RETROGRADE ROTATION 203 11.5.2. PHASES, CONJUNCTIONS, AND TRANSITS 204 11.6. SUMMARY 205 11.7. SCIENCE BRIEFS 206 11.8. PROBLEMS 209 11.9. FURTHER READING 209 12. MARS: THE LITTLE PLANET THAT COULD 211 12.1. ORIGIN AND PROPERTIES 213 12.1.1. ORIGIN BY ACCRETION OF PLANETESIMALS 213 TABLE OF CONTENTS XI 12.1.2. PHYSICAL AND CHEMICAL PROPERTIES 214 12.1.3. EVOLUTION OF THE ATMOSPHERE 215 12.1.4. ORBIT OF MARS 215 12.2. SURFACE FEATURES: NORTHERN HEMISPHERE 216 12.2.1. THARSIS PLATEAU 216 12.2.2. OLYMPUS MONS 218 12.2.3. YOUNG LAVA FLOWS 219 12.2.4. VALLES MARINERIS 220 12.2.5. UTOPIA PLANITIA 220 12.2.6. SOIL OF UTOPIA AND CHRYSE 222 12.3. SURFACE FEATURES: SOUTHERN HEMISPHERE 223 12.3.1. HELLAS IMPACT BASIN 224 12.3.2. ARGYRE IMPACT BASIN 225 12.3.3. ISIDIS IMPACT BASIN 225 12.3.4. TIMESCALE FOR MARS 225 12.4. VOLCANOES OF THE SOUTHERN HEMISPHERE 227 12.4.1. SYRTIS MAJOR VOLCANO 227 12.4.2. HESPERA PLANUM 227 12.4.3. HADRIACA PATERA 228 12.5. STREAM VALLEYS 228 12.5.1. NANEDIVALLIS 228 12.5.2. NIRGALVALLIS 230 12.5.3. VEDRA VALLES 231 12.6. IMPACT CRATERS 231 12.7. MARTIAN METEORITES 234 12.8. WATER ON MARS 235 12.8.1. HYDROLOGIC CYCLE 236 12.8.2. PHASE DIAGRAMS OF WATER AND CARBON DIOXIDE 238 12.8.3. POLAR ICE CAPS * 239 12.8.4. MOUNTAIN GLACIERS AND CONTINENTAL ICE SHEETS 241 12.9. LIFE ON MARS 241 12.9.1. ORIGIN AND PRESERVATION 241 12.9.2. SEARCH FOR LIFE (VIKINGS) 243 12.9.3. SEARCH FOR LIFE (ALH 84001) 243 12.9.4. SEARCH FOR LIFE (ROVERS) 244 12.10. COLONIZATION OF MARS 249 12.10.1. TRAVEL TO MARS 250 12.10.2. FIRST STEPS 251 12.10.3. TERRAFORMING 252 12.11. SATELLITES 252 12.12. SUMMARY 253 12.13. SCIENCE BRIEFS 254 12.14. PROBLEMS 258 12.15. FURTHER READING 258 13. ASTEROIDS: SHATTERED WORLDS 261 13.1. CLASSIFICATION 261 13.1.1. SPECTRAL TYPES 261 13.1.2. ORBITS OF THE ASTEROIDS 262 13.2. PHYSICAL PROPERTIES AND CELESTIAL MECHANICS 266 13.3. 13.4. 13.5. 13.6. 13.7. 13.8. 13.9. FIRST LANDINGS 13.3.1. EROS 13.3.2. BRAILLE 13.3.3. ITOKAWA NEAR-EARTH OBJECTS (NEOS) TORINO SCALE SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 14. JUPITER: HEAVY-WEIGHT CHAMPION 14.1. 14.2. 14.3. 14.4. 14.5. 14.6. 14.7. 14.8. 14.9. PHYSICAL AND ORBITAL PROPERTIES 14.1.1. PHYSICAL PROPERTIES 14.1.2. ORBITAL PROPERTIES ATMOSPHERE SATELLITES AND RINGS 14.3.1. REGULAR SATELLITES 14.3.2. RINGS OF JUPITER THE SPACECRAFT GALILEO IMPACT OF COMET SHOEMAKER - LEVY 9 SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING XII TABLE OF CONTENTS 270 270 270 271 273 275 276 277 279 279 281 281 281 284 284 286 287 289 290 291 292 293 295 295 15. GALILEAN SATELLITES: JEWELS OF THE SOLAR SYSTEM 297 15.1. PHYSICAL PROPERTIES AND CELESTIAL MECHANICS 297 15.1.1. PHYSICAL PROPERTIES 297 15.1.2. CELESTIAL MECHANICS 300 15.1.3. ORIGIN: ALTERNATIVE HYPOTHESES 303 15.2. IO, THE HYPERACTIVE PRINCESS 304 15.2.1. VOLCANOES 304 15.2.2. PLUMES 306 15.2.3. SURFACE FEATURES 307 15.2.4. INTERACTIONS WITH JUPITER 310 15.2.5. SUMMARY 311 15.3. EUROPA, THE ICE PRINCESS 312 15.3.1. ICE CRUST AND OCEAN 314 15.3.2. IMPACT CRATERS 316 15.3.3. CHAOTIC TERRAINS 318 15.3.4. LIFE IN THE OCEAN 321 15.3.5. SUMMARY 322 15.4. GANYMEDE IN THE MIDDLE 323 15.4.1. ICE CRUST 323 15.4.2. REJUVENATION 323 15.4.3. A CONJECTURE 325 15.4.4. SUMMARY 325 15.5. CALLISTO, LEFT OUT IN THE COLD 326 15.5.1. PHYSICAL PROPERTIES 327 15.5.2. IMPACT CRATERS 328 15.5.3. DIFFERENTIAL SUBLIMATION 328 15.5.4. SUMMARY 329 TABLE OF CONTENTS XIII 15.6. 15.7. 15.8. 16. SATURN 16.1. 16.2. 16.3. 16.4. 0 16.5. 16.6. 16.7. 16.8. 16.9. 17. TITAN: 17.1. 17.2. 17.3. 17.4. 17.5. 17.6. 17.7. SCIENCE BRIEFS PROBLEMS FURTHER READING : THE BEAUTY OF RINGS PHYSICAL PROPERTIES 16.1.1. ATMOSPHERE 16.1.2. INTERNAL STRUCTURE 16.1.3. CELESTIAL MECHANICS THE RINGS THE SATELLITES 16.3.1. RING SATELLITES 16.3.2. MAIN GROUP 16.3.3. TRANS-TITANIAN SATELLITES 16.3.4. BULK DENSITIES AND DIAMETERS SURFACE FEATURES OF THE REGULAR SATELLITES 16.4.1. MIMAS 16.4.2. ENCELADUS 16.4.3. TETHYS AND DIONE 16.4.4. AMMONIA-WATER LAVA 16.4.5. RHEA AND HYPERION 16.4.6. IAPETUS AND PHOEBE THE CASSINI-HUYGENS MISSION SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING AN ANCIENT WORLD IN DEEP FREEZE PHYSICAL AND ORBITAL PROPERTIES ATMOSPHERE \ 17.2.1. CHEMICAL COMPOSITION 17.2.2. STRUCTURE HUYGENS LANDS ON TITAN SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 18. URANUS: WHAT HAPPENED HERE? 18.1. 18.2. 18.3. 18.4. 18.5. 18.6. 18.7. 18.8. 18.9. 18.10. PHYSICAL AND ORBITAL PROPERTIES 18.1.1. PHYSICAL PROPERTIES 18.1.2. ORBITAL PROPERTIES ATMOSPHERE INTERNAL STRUCTURE RINGS SATELLITES 18.5.1. SMALL SATELLITES 18.5.2. CLASSICAL SATELLITES WHAT HAPPENED TO URANUS? SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 331 332 333 335 335 335 337 338 339 341 341 342 343 343 344 344 344 346 347 349 351 352 353 354 356 356 359 359 360 360 362 362 366 366 367 367 369 369 369 370 372 373 373 375 375 375 380 381 382 383 383 XIV TABLE OF CONTENTS 19. NEPTUNE: MORE SURPRISES 19.1. 19.2. 19.3. 19.4. 19.5. 19.6. 19.7. 19.8. 19.9. 19.10. 20. PLUTO 20.1. 20.2. 20.3. 20.4. 20.5. 20.6. SURPRISES REVEALED BY VOYAGER 2 PHYSICAL AND ORBITAL PROPERTIES ATMOSPHERE INTERNAL STRUCTURE RINGS SATELLITES 19.6.1. SMALL SATELLITES 19.6.2. TRITON 19.6.3. NEREID SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING AND CHARON: THE ODD COUPLE PHYSICAL PROPERTIES ORBITAL PROPERTIES SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 21. ICE WORLDS AT THE OUTER LIMIT 21.1. 21.2. 21.3. 21.4. 21.5. 21.6. 21.7. PRINCIPALS OF THE ICE WORLDS 21.1.1. ERIS (2003 UB 313) 21.1.2. SEDNA(2003 VB 12) 21.1.3. QUAOAR (2002 LM 60) 21.1.4. IXION(2001 KX76) 21.1.5. VARUNA (2000 WR106) STRUCTURE OF THE E-K BELT'V THE OORT CLOUD SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 22. COMETS: COMING INSIDE FROM THE COLD 22.1. 22.2. 22.3. 22.4. 22.5. 22.6. 22.7. ANATOMY OF COMETS SOURCES OF COMETS SHORT-PERIOD COMETS LONG-PERIOD COMETS 22.4.1. HYAKUTAKE 22.4.2. HALE-BOPP METEOR SHOWERS AND IDPS CLOSE ENCOUNTERS 22.6.1. GIACOBINI-ZINNER IN 1985 22.6.2. HALLEY IN 1986 22.6.3. BORELLY IN 1999 22.6.4. WILD 2 IN 2004 22.6.5. TEMPEL 1 IN 2005 22.6.6. CHURYUMOV-GERASIMENKO IN 2014 CHEMICAL COMOOSITION 385 385 387 387 388 390 391 391 391 395 396 397 398 398 401 402 403 405 405 407 407 409 410 410 412 412 413 413 413 415 416 417 418 418 421 421 423 424 425 425 426 428 430 430 430 431 432 432 434 434 TABLE OF CONTENTS XV 22.8. 22.9. 22.10. 22.11. 23. EARTH 23.1. 23.2. 23.3. 23.4.' 23.5. SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING : THE CRADLE OF HUMANS ORIGIN OF LIFE 23.1.1. PANSPERMIA 23.1.2. MILLER-UREY EXPERIMENT 23.1.3. MINERAL CATALYSTS 23.1.4. CRADLE OF LIFE IMPORTANCE OF THE BIOSPHERE 23.2.1. ATMOSPHERE 23.2.2. SEDIMENTARY ROCKS 23.2.3. FOSSIL FUELS 23.2.4. HUMANS TALES OF DOOM 23.3.1. EVOLUTION OF THE SUN 23.3.2. IMPACTS 23.3.3. SUICIDE SUMMARY FURTHER READING 24. BROWN-DWARF STARS AND EXTRASOLAR PLANETS 24.1. 24.2. 24.3. 24.4. 24.5. 24.6. 24.7. METHODS OF DISCOVERY 24.1.1. DOPPLER SPECTROSCOPY 24.1.2. OCCULTATION BROWN-DWARF STARS EXTRASOLAR PLANETS VOYAGE TO THE STARS , 24.4.1. NEARBY STARS \ 24.4.2. HABITABLE PLANETS 24.4.3. VOYAGE TO PROXIMA CENTAURI SETI AND THE DRAKE EQUATION 24.5.1. SETI 24.5.2. THE DRAKE EQUATION SUMMARY FURTHER READING 435 436 438 439 441 441 442 442 443 444 444 445 445 446 446 448 448 449 450 451 451 455 \ 455 455 456 456 458 460 460 461 462 463 464 464 466 467 APPENDIX 1. MATHEMATICAL EQUATIONS USED IN ASTRONOMY 469 APPENDIX 2. SUMMARIES OF PHYSICAL AND ORBITAL PARAMETERS 475 A2.1. THE PLANETS AND SATELLITES OF THE SOLAR SYSTEM 475 A2.2. ORBITAL PROPERTIES OF ASTEROIDS 477 A2.3. ORBITAL PROPERTIES OF SELECTED COMETS 478 GLOSSARY 481 AUTHOR INDEX 503 SUBJECT INDEX 509
adam_txt	INTRODUCTION TO PLANETARY SCIENCE THE GEOLOGICAL PERSPECTIVE GUNTER FAURE THE OHIO STATE UNIVERSITY, COLUMBUS, OHIO, USA TERESA M. MENSING THE OHIO STATE UNIVERSITY, MARION, OHIO, USA J SPRINGER TABLE OF CONTENTS PREFACE XVII 1. 2. 3. 4. THE 1.1. 1.2. 1.3. 1.4. 1.5. 1.6. 1.7. URGE TO EXPLORE THE EXPLORATION OF PLANET EARTH VISIONARIES AND ROCKET SCIENTISTS PRINCIPLES OF ROCKETRY AND SPACE NAVIGATION SUMMARY 8 SCIENCE BRIEFS PROBLEMS FURTHER READING FROM SPECULATION TO UNDERSTANDING 2.1. 2.2. 2.3. 2.4. 2.5. 2.6. 2.7. THE 3.1. 3.2. 3.3. 3.4. 3.5. 3.6. 3.7. 3.8. 3.9. LIFE 4.1. 4.2. 4.3. THE GEOCENTRIC COSMOLOGY OF ANCIENT GREECE THE SCIENTIFIC METHOD UNITS OF MEASUREMENT 2.3.1. DISTANCE 2.3.2. TIME 2.3.3. VELOCITY AND SPEED 2.3.4. MASS ' : 2.3.5. TEMPERATURE 2.3.6. PRESSURE SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING PLANETS OF THE SOLAR SYSTEM THE SUN AND THE PLANETS OF THE SOLAR SYSTEM THE TITIUS-BODE RULE AVERAGE ORBITAL VELOCITIES SURFACE TEMPERATURES BULK DENSITIES SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING AND DEATH OF STARS THE BIG BANG STELLAR EVOLUTION NUCLEOSVNTHESIS 1 2 4 7 9 10 11 11 13 13 14 16 16 17 17 18 18 19 19 20 21 21 23 23 25 27 28 28 32 32 34 34 35 35 39 41 VII VIM TABLE OF CONTENTS 4.4. THE MILKY WAY GALAXY 44 4.5. SUMMARY 45 4.6. SCIENCE BRIEFS 46 4.7. PROBLEMS 47 4.8. FURTHER READING 48 5. ORIGIN OF THE SOLAR SYSTEM 49 5.1. THE SOLAR NEBULA 49 5.2. ORIGIN OF THE SUN AND PLANETS 50 5.3. THE SUN 53 5.3.1. INTERNAL STRUCTURE 53 5.3.2. ENERGY PRODUCTION 56 5.3.3. MAGNETISM AND SUNSPOTS 57 5.3.4. EFFECT ON SPACE 59 5.3.5. LIFE AND DEATH OF THE SUN 59 5.4. SUMMARY 61 5.5. SCIENCE BRIEFS 62 5.6. PROBLEMS 62 5.7. FURTHER READING 63 6. EARJH: MODEL OF PLANETARY EVOLUTION 65 6.1. GROWTH FROM PLANETESIMALS 65 6.2. INTERNAL DIFFERENTIATION 67 6.3. ATMOSPHERE 69 6.4. INTERIOR OF THE EARTH 72 6.4.1. TEMPERATURE 72 6.4.2. MELTING OF PERIDOTITE 72 6.4.3. MANTLE PLUMES 73 6.4.4. PLATE TECTONICS 74 6.4.5. MAGNETIC FIELD . 76 6.5. INTERACTIONS WITH THE SOLAR WIND 79 6.6. SUMMARY 81 6.7. SCIENCE BRIEFS 82 6.8. PROBLEMS 85 6.9. FURTHER READING 85 7. THE CLOCKWORK OF THE SOLAR SYSTEM 87 7.1. THE PIONEERS OF ASTRONOMY 87 7.2. ELLIPTICAL ORBITS OF PLANETS 89 7.2.1. ECCENTRICITY 89 7.2.2. AVERAGE DISTANCE 90 7.2.3. REVOLUTION AND ROTATION 90 7.2.4. PLANE OF THE ECLIPTIC 91 7.2.5. AXIAL OBLIQUITY 91 7.2.6. CONJUNCTIONS AND OPPOSITIONS 92 7.2.7. SIDEREAL AND SYNODIC PERIODS OF REVOLUTION 95 7.2.8. SOLAR AND LUNAR ECLIPSES 96 7.2.9. ORBITAL VELOCITIES 96 7.2.10. LAUNCHING SATELLITES INTO ORBIT 98 7.2.11. LAGRANGE POINTS 99 7.3. CELESTIAL MECHANICS OF THE EARTH 100 7.3.1. RISING AND SETTING OF THE SUN 100 7.3.2. CHANGE IN THE PERIOD OF ROTATION 101 7.3.3. SEASONS OF THE NORTHERN HEMISPHERE 101 TABLE OF CONTENTS IX 8. 9. 7.3.4. THE EARTH AT SUMMER SOLSTICE 7.3.5. AUTUMNAL AND VERNAL EQUINOXES 7.3.6. MILANKOVITCH CYCLES 7.4. THE GREGORIAN CALENDAR 7.5. SUMMARY 7.6. SCIENCE BRIEFS 7.7. PROBLEMS 7.8. FURTHER READING METEORITES AND IMPACT CRATERS 8.1. CLASSIFICATION AND MINERALOGY OF METEORITES 8.2. CARBONACEOUS CHONDRITES 8.3. TEKTITES 8.4. METEORITE PARENT BODIES 8.5. CELESTIAL MECHANICS 8.6. FALLS AND FINDS 8.7. AGE DETERMINATIONS 8.8. METEORITE IMPACTS 8.8.1. FORMATION OF CRATERS 8.8.2. CLASSIFICATION OF CRATERS 8.8.3. MODIFICATION OF CRATERS 8.8.4. FREQUENCY OF IMPACTS 8.8.5. ENVIRONMENTAL CONSEQUENCES (TUNGUSKA, 1908) 8.9. METEOR CRATER: MEMORIAL TO E.M. SHOEMAKER 8.10. SUMMARY 8.11. SCIENCE BRIEFS 8.12. PROBLEMS 8.13. FURTHER READING THE EARTH-MOON SYSTEM 9.1. LANDFORMS OF THE LUNAR SURFACE 9.1.1. HIGHLANDS 9.1.2. MARIA 9.1.3. IMPACT CRATERS 9.1.4. REGOLITH 9.1.5. WATER 9.2. ISOTOPIC DATING 9.3. GEOLOGY OF THE NEAR SIDE 9.4. LUNAR METEORITES 9.5. INTERNAL STRUCTURE 9.6. ORIGIN OF THE MOON 9.7. CELESTIAL MECHANICS 9.7.1. SPIN-ORBIT COUPLING 9.7.2. LUNAR ORBIT 9.8. TIDES 9.8.1. OCEAN TIDES 9.8.2. BODY TIDES 9.9. RESEARCH STATIONS ON THE MOON 9.9.1. WEIGHING THE RISKS AND BENEFITS 9.9.2. UTILIZATION OF LUNAR RESOURCES 9.10. SPACE LAW 9.10.1. UNITED NATIONS: LAWS FOR STATES 101 102 103 104 105 105 107 107 109 110 112 114 115 116 118 120 122 122 123 124 125 126 127 131 131 135 135 139 141 141 142 143 143 143 145 145 149 150 152 154 154 155 156 156 157 158 158 159 160 160 TABLE OF CONTENTS 9.10.2. NASA: CODE OF CONDUCT FOR ASTRONAUTS 161 9.11. SUMMARY 162 9.12. SCIENCE BRIEFS 163 9.13. PROBLEMS 166 9.14. FURTHER READING 166 10. MERCURY: TOO HOT FOR COMFORT 167 10.1. SURFACE FEATURES 167 10.1.1. IMPACT CRATERS AND CLIFFS 167 10.1.2. REGOLITH 169 10.1.3. ATMOSPHERE 169 10.1.4. WATER 170 10.1.5. SURFACE TEMPERATURES 170 10.2. INTERNAL STRUCTURE 171 10.2.1. IRON CORE 171 10.2.2. MAGNETIC FIELD 172 10.2.3. GEOLOGICAL ACTIVITY 173 10.3. ORIGIN OF MERCURY 174 10.4. CELESTIAL MECHANICS 175 10.4.1. SPIN-ORBIT COUPLING 176 * 10.4.2. THE SOLAR TRANSIT 177 10.4.3. ROTATION OF THE LONG AXIS OF THE ORBIT 177 10.5. SUMMARY 178 10.6. SCIENCE BRIEFS 178 10.7. PROBLEMS 179 10.8. FURTHER READING 181 11. VENUS; PLANETARY EVOLUTION GONE BAD 183 11.1. SURFACE FEATURES 184 11.2. GEOLOGICAL PROCESSES 187 11.2.1. VOLCANIC ACTIVITY \ 187 11.2.2. TECTONIC ACTIVITY 192 11.2.3. IMPACT CRATERS 194 11.3. ATMOSPHERE AND CLIMATE 195 11.3.1. CHEMICAL COMPOSITION AND STRUCTURE 195 11.3.2. CIRCULATION 197 11.3.3. GREENHOUSE WARMING 197 11.3.4. EVOLUTION OF THE SURFACE ENVIRONMENT 198 11.3.5. CARBON CYCLES OF VENUS AND THE EARTH 199 11.4. INTERNAL STRUCTURE 201 11.4.1. THE CORE AND MAGNETISM 201 11.4.2. EPISODIC RESURFACING 202 11.5. CELESTIAL MECHANICS 203 11.5.1. RETROGRADE ROTATION 203 11.5.2. PHASES, CONJUNCTIONS, AND TRANSITS 204 11.6. SUMMARY 205 11.7. SCIENCE BRIEFS 206 11.8. PROBLEMS 209 11.9. FURTHER READING 209 12. MARS: THE LITTLE PLANET THAT COULD 211 12.1. ORIGIN AND PROPERTIES 213 12.1.1. ORIGIN BY ACCRETION OF PLANETESIMALS 213 TABLE OF CONTENTS XI 12.1.2. PHYSICAL AND CHEMICAL PROPERTIES 214 12.1.3. EVOLUTION OF THE ATMOSPHERE 215 12.1.4. ORBIT OF MARS 215 12.2. SURFACE FEATURES: NORTHERN HEMISPHERE 216 12.2.1. THARSIS PLATEAU 216 12.2.2. OLYMPUS MONS 218 12.2.3. YOUNG LAVA FLOWS 219 12.2.4. VALLES MARINERIS 220 12.2.5. UTOPIA PLANITIA 220 12.2.6. SOIL OF UTOPIA AND CHRYSE 222 12.3. SURFACE FEATURES: SOUTHERN HEMISPHERE 223 12.3.1. HELLAS IMPACT BASIN 224 12.3.2. ARGYRE IMPACT BASIN 225 12.3.3. ISIDIS IMPACT BASIN 225 12.3.4. TIMESCALE FOR MARS 225 12.4. VOLCANOES OF THE SOUTHERN HEMISPHERE 227 12.4.1. SYRTIS MAJOR VOLCANO 227 12.4.2. HESPERA PLANUM 227 12.4.3. HADRIACA PATERA 228 12.5. STREAM VALLEYS 228 12.5.1. NANEDIVALLIS 228 12.5.2. NIRGALVALLIS 230 12.5.3. VEDRA VALLES 231 12.6. IMPACT CRATERS 231 12.7. MARTIAN METEORITES 234 12.8. WATER ON MARS 235 12.8.1. HYDROLOGIC CYCLE 236 12.8.2. PHASE DIAGRAMS OF WATER AND CARBON DIOXIDE 238 12.8.3. POLAR ICE CAPS * 239 12.8.4. MOUNTAIN GLACIERS AND CONTINENTAL ICE SHEETS 241 12.9. LIFE ON MARS 241 12.9.1. ORIGIN AND PRESERVATION 241 12.9.2. SEARCH FOR LIFE (VIKINGS) 243 12.9.3. SEARCH FOR LIFE (ALH 84001) 243 12.9.4. SEARCH FOR LIFE (ROVERS) 244 12.10. COLONIZATION OF MARS 249 12.10.1. TRAVEL TO MARS 250 12.10.2. FIRST STEPS 251 12.10.3. TERRAFORMING 252 12.11. SATELLITES 252 12.12. SUMMARY 253 12.13. SCIENCE BRIEFS 254 12.14. PROBLEMS 258 12.15. FURTHER READING 258 13. ASTEROIDS: SHATTERED WORLDS 261 13.1. CLASSIFICATION 261 13.1.1. SPECTRAL TYPES 261 13.1.2. ORBITS OF THE ASTEROIDS 262 13.2. PHYSICAL PROPERTIES AND CELESTIAL MECHANICS 266 13.3. 13.4. 13.5. 13.6. 13.7. 13.8. 13.9. FIRST LANDINGS 13.3.1. EROS 13.3.2. BRAILLE 13.3.3. ITOKAWA NEAR-EARTH OBJECTS (NEOS) TORINO SCALE SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 14. JUPITER: HEAVY-WEIGHT CHAMPION 14.1. 14.2. 14.3. 14.4. 14.5. 14.6. 14.7. 14.8. 14.9. PHYSICAL AND ORBITAL PROPERTIES 14.1.1. PHYSICAL PROPERTIES 14.1.2. ORBITAL PROPERTIES ATMOSPHERE SATELLITES AND RINGS 14.3.1. REGULAR SATELLITES 14.3.2. RINGS OF JUPITER THE SPACECRAFT GALILEO IMPACT OF COMET SHOEMAKER - LEVY 9 SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING XII TABLE OF CONTENTS 270 270 270 271 273 275 276 277 279 279 281 281 281 284 284 286 287 289 290 291 292 293 295 295 15. GALILEAN SATELLITES: JEWELS OF THE SOLAR SYSTEM 297 15.1. PHYSICAL PROPERTIES AND CELESTIAL MECHANICS 297 15.1.1. PHYSICAL PROPERTIES 297 15.1.2. CELESTIAL MECHANICS 300 15.1.3. ORIGIN: ALTERNATIVE HYPOTHESES 303 15.2. IO, THE HYPERACTIVE PRINCESS 304 15.2.1. VOLCANOES 304 15.2.2. PLUMES 306 15.2.3. SURFACE FEATURES 307 15.2.4. INTERACTIONS WITH JUPITER 310 15.2.5. SUMMARY 311 15.3. EUROPA, THE ICE PRINCESS 312 15.3.1. ICE CRUST AND OCEAN 314 15.3.2. IMPACT CRATERS 316 15.3.3. CHAOTIC TERRAINS 318 15.3.4. LIFE IN THE OCEAN 321 15.3.5. SUMMARY 322 15.4. GANYMEDE IN THE MIDDLE 323 15.4.1. ICE CRUST 323 15.4.2. REJUVENATION 323 15.4.3. A CONJECTURE 325 15.4.4. SUMMARY 325 15.5. CALLISTO, LEFT OUT IN THE COLD 326 15.5.1. PHYSICAL PROPERTIES 327 15.5.2. IMPACT CRATERS 328 15.5.3. DIFFERENTIAL SUBLIMATION 328 15.5.4. SUMMARY 329 TABLE OF CONTENTS XIII 15.6. 15.7. 15.8. 16. SATURN 16.1. 16.2. 16.3. 16.4. 0 16.5. 16.6. 16.7. 16.8. 16.9. 17. TITAN: 17.1. 17.2. 17.3. 17.4. 17.5. 17.6. 17.7. SCIENCE BRIEFS PROBLEMS FURTHER READING : THE BEAUTY OF RINGS PHYSICAL PROPERTIES 16.1.1. ATMOSPHERE 16.1.2. INTERNAL STRUCTURE 16.1.3. CELESTIAL MECHANICS THE RINGS THE SATELLITES 16.3.1. RING SATELLITES 16.3.2. MAIN GROUP 16.3.3. TRANS-TITANIAN SATELLITES 16.3.4. BULK DENSITIES AND DIAMETERS SURFACE FEATURES OF THE REGULAR SATELLITES 16.4.1. MIMAS 16.4.2. ENCELADUS 16.4.3. TETHYS AND DIONE 16.4.4. AMMONIA-WATER LAVA 16.4.5. RHEA AND HYPERION 16.4.6. IAPETUS AND PHOEBE THE CASSINI-HUYGENS MISSION SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING AN ANCIENT WORLD IN DEEP FREEZE PHYSICAL AND ORBITAL PROPERTIES ATMOSPHERE \ 17.2.1. CHEMICAL COMPOSITION 17.2.2. STRUCTURE HUYGENS LANDS ON TITAN SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 18. URANUS: WHAT HAPPENED HERE? 18.1. 18.2. 18.3. 18.4. 18.5. 18.6. 18.7. 18.8. 18.9. 18.10. PHYSICAL AND ORBITAL PROPERTIES 18.1.1. PHYSICAL PROPERTIES 18.1.2. ORBITAL PROPERTIES ATMOSPHERE INTERNAL STRUCTURE RINGS SATELLITES 18.5.1. SMALL SATELLITES 18.5.2. CLASSICAL SATELLITES WHAT HAPPENED TO URANUS? SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 331 332 333 335 335 335 337 338 339 341 341 342 343 343 344 344 344 346 347 349 351 352 353 354 356 356 359 359 360 360 362 362 366 366 367 367 369 369 369 370 372 373 373 375 375 375 380 381 382 383 383 XIV TABLE OF CONTENTS 19. NEPTUNE: MORE SURPRISES 19.1. 19.2. 19.3. 19.4. 19.5. 19.6. 19.7. 19.8. 19.9. 19.10. 20. PLUTO 20.1. 20.2. 20.3. 20.4. 20.5. 20.6. SURPRISES REVEALED BY VOYAGER 2 PHYSICAL AND ORBITAL PROPERTIES ATMOSPHERE INTERNAL STRUCTURE RINGS SATELLITES 19.6.1. SMALL SATELLITES 19.6.2. TRITON 19.6.3. NEREID SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING AND CHARON: THE ODD COUPLE PHYSICAL PROPERTIES ORBITAL PROPERTIES SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 21. ICE WORLDS AT THE OUTER LIMIT 21.1. 21.2. 21.3. 21.4. 21.5. 21.6. 21.7. PRINCIPALS OF THE ICE WORLDS 21.1.1. ERIS (2003 UB 313) 21.1.2. SEDNA(2003 VB 12) 21.1.3. QUAOAR (2002 LM 60) 21.1.4. IXION(2001 KX76) 21.1.5. VARUNA (2000 WR106) STRUCTURE OF THE E-K BELT'V THE OORT CLOUD SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING 22. COMETS: COMING INSIDE FROM THE COLD 22.1. 22.2. 22.3. 22.4. 22.5. 22.6. 22.7. ANATOMY OF COMETS SOURCES OF COMETS SHORT-PERIOD COMETS LONG-PERIOD COMETS 22.4.1. HYAKUTAKE 22.4.2. HALE-BOPP METEOR SHOWERS AND IDPS CLOSE ENCOUNTERS 22.6.1. GIACOBINI-ZINNER IN 1985 22.6.2. HALLEY IN 1986 22.6.3. BORELLY IN 1999 22.6.4. WILD 2 IN 2004 22.6.5. TEMPEL 1 IN 2005 22.6.6. CHURYUMOV-GERASIMENKO IN 2014 CHEMICAL COMOOSITION 385 385 387 387 388 390 391 391 391 395 396 397 398 398 401 402 403 405 405 407 407 409 410 410 412 412 413 413 413 415 416 417 418 418 421 421 423 424 425 425 426 428 430 430 430 431 432 432 434 434 TABLE OF CONTENTS XV 22.8. 22.9. 22.10. 22.11. 23. EARTH 23.1. 23.2. 23.3. 23.4.' 23.5. SUMMARY SCIENCE BRIEFS PROBLEMS FURTHER READING : THE CRADLE OF HUMANS ORIGIN OF LIFE 23.1.1. PANSPERMIA 23.1.2. MILLER-UREY EXPERIMENT 23.1.3. MINERAL CATALYSTS 23.1.4. CRADLE OF LIFE IMPORTANCE OF THE BIOSPHERE 23.2.1. ATMOSPHERE 23.2.2. SEDIMENTARY ROCKS 23.2.3. FOSSIL FUELS 23.2.4. HUMANS TALES OF DOOM 23.3.1. EVOLUTION OF THE SUN 23.3.2. IMPACTS 23.3.3. SUICIDE SUMMARY FURTHER READING 24. BROWN-DWARF STARS AND EXTRASOLAR PLANETS 24.1. 24.2. 24.3. 24.4. 24.5. 24.6. 24.7. METHODS OF DISCOVERY 24.1.1. DOPPLER SPECTROSCOPY 24.1.2. OCCULTATION BROWN-DWARF STARS EXTRASOLAR PLANETS VOYAGE TO THE STARS , 24.4.1. NEARBY STARS \ 24.4.2. HABITABLE PLANETS 24.4.3. VOYAGE TO PROXIMA CENTAURI SETI AND THE DRAKE EQUATION 24.5.1. SETI 24.5.2. THE DRAKE EQUATION SUMMARY FURTHER READING 435 436 438 439 441 441 442 442 443 444 444 445 445 446 446 448 448 449 450 451 451 455 \ 455 455 456 456 458 460 460 461 462 463 464 464 466 467 APPENDIX 1. MATHEMATICAL EQUATIONS USED IN ASTRONOMY 469 APPENDIX 2. SUMMARIES OF PHYSICAL AND ORBITAL PARAMETERS 475 A2.1. THE PLANETS AND SATELLITES OF THE SOLAR SYSTEM 475 A2.2. ORBITAL PROPERTIES OF ASTEROIDS 477 A2.3. ORBITAL PROPERTIES OF SELECTED COMETS 478 GLOSSARY 481 AUTHOR INDEX 503 SUBJECT INDEX 509
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author	Faure, Gunter 1934- Mensing, Teresa Marie
author_GND	(DE-588)1158807309 (DE-588)1058144863
author_facet	Faure, Gunter 1934- Mensing, Teresa Marie
author_role	aut aut
author_sort	Faure, Gunter 1934-
author_variant	g f gf t m m tm tmm
building	Verbundindex
bvnumber	BV022475786
callnumber-first	Q - Science
callnumber-label	QB455
callnumber-raw	QB455
callnumber-search	QB455
callnumber-sort	QB 3455
callnumber-subject	QB - Astronomy
classification_rvk	US 8000
ctrlnum	(OCoLC)77257371 (DE-599)BVBBV022475786
dewey-full	559.92
dewey-hundreds	500 - Natural sciences and mathematics
dewey-ones	559 - Earth sciences of other areas
dewey-raw	559.92
dewey-search	559.92
dewey-sort	3559.92
dewey-tens	550 - Earth sciences
discipline	Geologie / Paläontologie Physik Geographie
discipline_str_mv	Geologie / Paläontologie Physik Geographie
format	Book
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Ill. und graph. Darst.</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="b">n</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="b">nc</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="520" ind1="3" ind2=" "><subfield code="a">This textbook details basic principles of planetary science that help to unify the study of the solar system. It is organized in a hierarchical manner so that every chapter builds upon preceding ones. Starting with historical perspectives on space exploration and the development of the scientific method, the book leads the reader through the solar system. 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genre_facet	Lehrbuch
geographic	Système solaire Solar system Sonnensystem (DE-588)1236963989 gnd
geographic_facet	Système solaire Solar system Sonnensystem
id	DE-604.BV022475786
illustrated	Illustrated
index_date	2024-07-02T17:46:24Z
indexdate	2024-09-12T00:02:23Z
institution	BVB
isbn	9781402052330 9781402055447 9789402404647
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-015683203
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open_access_boolean
owner	DE-706 DE-703 DE-29 DE-19 DE-BY-UBM DE-188
owner_facet	DE-706 DE-703 DE-29 DE-19 DE-BY-UBM DE-188
physical	XX, 526 S. zahlr. Ill. und graph. Darst.
publishDate	2007
publishDateSearch	2007
publishDateSort	2007
publisher	Springer
record_format	marc
spelling	Faure, Gunter 1934- Verfasser (DE-588)1158807309 aut Introduction to planetary science the geological perspective Gunter Faure ; Teresa Mensing Dordrecht Springer 2007 XX, 526 S. zahlr. Ill. und graph. Darst. txt rdacontent n rdamedia nc rdacarrier This textbook details basic principles of planetary science that help to unify the study of the solar system. It is organized in a hierarchical manner so that every chapter builds upon preceding ones. Starting with historical perspectives on space exploration and the development of the scientific method, the book leads the reader through the solar system. Coverage explains that the origin and subsequent evolution of planets and their satellites can be explained by applications of certain basic principles of physics, chemistry, and celestial mechanics and that surface features of the solid bodies can be interpreted by principles of geology. Astrogéologie Planètes - Géologie Geologie Astrogeology Planets Geology Planetologie (DE-588)4233970-4 gnd rswk-swf Geologie (DE-588)4020227-6 gnd rswk-swf Système solaire Solar system Sonnensystem (DE-588)1236963989 gnd rswk-swf planetary science (DE-588)4123623-3 Lehrbuch gnd-content Sonnensystem (DE-588)1236963989 g Planetologie (DE-588)4233970-4 s Geologie (DE-588)4020227-6 s DE-604 Mensing, Teresa Marie Verfasser (DE-588)1058144863 aut Erscheint auch als Online-Ausgabe 978-1-4020-5544-7 (DE-604)BV036491424 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2824294&prov=M&dok_var=1&dok_ext=htm Inhaltstext GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015683203&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Faure, Gunter 1934- Mensing, Teresa Marie Introduction to planetary science the geological perspective Astrogéologie Planètes - Géologie Geologie Astrogeology Planets Geology Planetologie (DE-588)4233970-4 gnd Geologie (DE-588)4020227-6 gnd
subject_GND	(DE-588)4233970-4 (DE-588)4020227-6 (DE-588)1236963989 (DE-588)4123623-3
title	Introduction to planetary science the geological perspective
title_auth	Introduction to planetary science the geological perspective
title_exact_search	Introduction to planetary science the geological perspective
title_exact_search_txtP	Introduction to planetary science the geological perspective
title_full	Introduction to planetary science the geological perspective Gunter Faure ; Teresa Mensing
title_fullStr	Introduction to planetary science the geological perspective Gunter Faure ; Teresa Mensing
title_full_unstemmed	Introduction to planetary science the geological perspective Gunter Faure ; Teresa Mensing
title_short	Introduction to planetary science
title_sort	introduction to planetary science the geological perspective
title_sub	the geological perspective
topic	Astrogéologie Planètes - Géologie Geologie Astrogeology Planets Geology Planetologie (DE-588)4233970-4 gnd Geologie (DE-588)4020227-6 gnd
topic_facet	Astrogéologie Planètes - Géologie Geologie Astrogeology Planets Geology Planetologie Système solaire Solar system Sonnensystem Lehrbuch
url	http://deposit.dnb.de/cgi-bin/dokserv?id=2824294&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=015683203&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT fauregunter introductiontoplanetarysciencethegeologicalperspective AT mensingteresamarie introductiontoplanetarysciencethegeologicalperspective

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