Holdings: Fundamental planetary science

Fundamental planetary science: physics, chemistry and habitability

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Bibliographic Details
Main Author:	Lissauer, Jack Jonathan 1957- (Author)
Format:	Book
Language:	English
Published:	New York Cambridge Univ. Press 2013
Edition:	1. publ.
Subjects:	Astrobiologie Planetensystem Astrophysik Meteorit Planetologie Geologie Kosmochemie Habitable Zone Komet Planet Mond Sonnensystem Planetology.
Online Access:	Inhaltsverzeichnis Klappentext
Item Description:	Hier auch später erschienene, unveränderte Nachdrucke
Physical Description:	XIV S., [16 Bl.], 583 S. Ill., graph. Darst., Kt.
ISBN:	9780521853309 0521853303 9780521618557 052161855X

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adam_text	CONTENTS Tables page xi 2 Dynamics 24 Preface xiii 2.1 The Two-Body Problem 25 Color plates follow page xvi 2.1.1 Kepler's Laws of Planetary Motion 26 2.1.2 Newton's Laws of Motion and 1 Introduction 1 Gravity 27 1.1 A Brief History of the Planetary Sciences 2 2.1.3 Reduction of the Two-Body 1.2 Inventory of the Solar System 3 Problem to the One-Body 1.2.1 Giant Planets 4 Problem 27 1.2.2 Terrestrial Planets 5 2.1.4* Generalization of Kepler's Laws 27 1.2.3 Minor Planets and Comets 7 2.1.5 Orbital Elements 29 1.2.4 Satellite and Ring Systems 8 2.1.6 Bound and Unbound Orbits 30 1.2.5 Tabulations 8 2.2 The Three-Body Problem 31 1.2.6 Heliosphere 9 2.2. 1 Jacobi 's Constant and Lagrangian 1.3 What Is a Planet? 10 Points 32 1.4 Planetary Properties 11 2.2.2 Horseshoe and Tadpole Orbits 34 1.4.1 Orbit 11 2.2.3 Hill Sphere 34 1.4.2 Mass 12 2.3 Perturbations and Resonances 36 1.4.3 Size 13 2.3.1 Resonant Forcing 36 1.4.4 Rotation 14 2.3.2 Mean Motion Resonances 36 1.4.5 Shape 15 2.3.3 Secular Resonances 37 1.4.6 Temperature 16 2.3.4 Resonances in the Asteroid Belt 38 1.4.7 Magnetic Field 16 2.3.5 Regular and Chaotic Motion 38 1.4.8 Surface Composition 17 2.4 Stability of the Solar System 40 1.4.9 Surface Structure 17 2.4.1 Orbits of the Eight Planets 41 1.4.10 Atmosphere 17 2.4.2 Survival Lifetimes of Small Bodies 43 1.4.11 Interior 18 2.5* Dynamics of Spherical Bodies 43 1.5 Formation of the Solar System 19 2.5.1 Moment of Inertia 44 Key Concepts 20 2.5.2 Gravitational Interactions 45 Further Reading 20 2.6 Orbits about an Oblate Planet 46 Problems 21 2.6.1* Gravity Field 46 Contents 2.6.2 Precession of Particle Orbits 47 4 Solar Heating and Energy 2.6.3 Torques on an Oblate Planet 47 Transport 85 2.7 Tides 48 4.1 Energy Balance and Temperature 86 2.7.1 The Tidal Force and Tidal Bulges 50 4.1.1 Thermal (Blackbody) Radiation 87 2.7.2 Tidal Torque 51 4.1.2 Albedo 89 2.7.3 Tidal Heating 53 4.1.3 Temperature 90 2.8 Dissipative Forces and the Orbits of Small 4.2 Energy Transport 91 Bodies 54 4.3 Conduction 92 2.8.1 Radiation Pressure (Micrometer 4.4 Convection 93 Grains) 54 4.4.1 Adiabatic Gradient 93 2.8.2 Poynting-Robertson Drag (Small 4.5 Radiation 94 Macroscopic Particles) 55 4.5.1 Photons and Energy Levels in 2.8.3 Yarkovsky Effect (1-10* -Meter Atoms 95 Objects) 56 4.5.2 Spectroscopy 97 2.8.4 Corpuscular Drag (Submicrometer 4.5.3 Radiative Energy Transport 100 Dust) 56 4.5.4 Radiative Equilibrium 102 2.8.5 Gas Drag 57 4.6 Greenhouse Effect 102 2.9 Orbits about a Mass-Losing Star 58 4.6.1 Quantitative Results 103 Key Concepts 58 4.6.2* Derivations 104 Further Reading 59 Key Concepts 105 Problems 60 Further Reading 106 Problems 106 3 Physics and Astrophysics 64 3.1 Thermodynamics 65 5 Planetary Atmospheres 109 3.1.1 Laws of Thermodynamics 65 5.1 Thermal Structure 110 3.1.2 Enthalpy 66 5. /. 1 Sources and Transport of Energy 113 3.1.3 Entropy 67 5.1.2 Observed Thermal Profiles 114 3.1.4 Gibbs Free Energy 67 5.2 Atmospheric Composition 115 3.1.5 Material Properties: Phase 5.3 Clouds 118 Changes 68 5.4 Meteorology 119 3.2 Barometric Law and Hydrostatic 5.4.1 Coriolis Effect 120 Equilibrium 68 5.4.2 Winds Forced by Solar Heating 121 3.3 Stellar Properties and Lifetimes 71 5.5 Photochemistry 123 3.3.1 Virial Theorem 71 5.5.1 Photolysis and Recombination 123 3.3.2 Luminosity 71 5.5.2 Photoionization: Ionospheres 125 3.3.3 Size 73 5.6 Molecular and Eddy Diffusion 126 3.3.4 Sizes and Densities of Massive 5.6. / Eddy Diffusion 126 Planets 74 5.6.2 Molecular Diffusion 126 3.4 Nucleosynthesis 76 5.7 Atmospheric Escape 127 3.4.1 Primordial Nucleosynthesis 77 5.7.1 Thermal (Jeans) Escape 127 3.4.2 Stellar Nucleosynthesis 79 5.7.2 Nonthermal Escape 128 3.4.3 Radioactive Decay 82 5.7.3 Hydrodynamic Escape and Key Concepts 82 Impact Erosion 128 Further Reading 83 5.8 History of Secondary Atmospheres 129 Problems 83 5.8.1 Formation 129 Contents VWf 5.8.2 Climate Evolution 130 7.3.2 Aurora 199 5.8.3 Summary of Secondary 7.3.3 Magnetospheric Plasmas 200 Atmospheres 136 7.3.4 Radio Emissions 203 Key Concepts 136 7.4 Generation of Magnetic Fields 203 Further Reading 137 7.4.1 Variability of Earth's Magnetic Problems 137 Field 203 7.4.2 Magnetic Dynamo Theory 204 6 Surfaces and Interiors 141 Key Concepts 204 6.1 Mineralogy and Petrology 142 Further Reading 205 6.7.7 Minerals 142 Problems 205 6.1.2 Rocks 143 6.1,3 Material under High Temperature 8 Giant Planets 206 and Pressure 147 8.1 Jupiter 207 6.1.4 Cooling of a Magma 149 8.1.1 Atmosphere 207 6.2 Planetary Interiors 150 8.1.2 impacts on Jupiter 211 6.2. 1 Interior Structure of the Earth 150 8.1.3 Interior Structure 214 6.2.2 Shape and Gravity Field 151 8.1.4 Magnetic Field 214 6.2.3 Internal Heat: Sources, Losses 8.2 Saturn 216 and Transport 153 8.2. Ì Atmosphere 216 6.3 Surface Morphology 155 8.2.2 Interior Structure 218 6.3.1 Tectonics 155 8.2.3 Magnetic Field 218 6.3.2 Volcanism 159 8.3 Uranus and Neptune 219 6.3.3 Atmospheric Effects on Landscape 163 8.3.1 Atmospheres 219 6.4 Impact Cratering 167 8.3.2 Interiors 220 6.4.1 Crater Morphology 168 8.3.3 Magnetic Fields 222 6.4.2 Crater Formation 170 Key Concepts 223 6.4.3 Impact Modification by Further Reading 224 Atmospheres 177 Problems 224 6.4.4 Spatial Density of Craters 178 6.4.5 Impacts on Earth 181 9 Terrestrial Planets and the Moon 226 Key Concepts 182 9.1 The Moon 228 Further Reading 183 9.1.1 Surface 228 Problems 184 9.1.2 Atmosphere 230 9.1.3 Interior 230 7 Sun, Solar Wind and Magnetic 9.1.4 Magnetic Field 231 Fields 187 9.2 Mercury 231 7.1 The Sun 188 9.2.7 Surface 231 7.2 The Interplanetary Medium 191 9.2.2 Atmosphere 236 7.2.7 Solar Wind 191 9.2.3 Interior 236 7.2.2 The Parker Model 193 9.2.4 Magnetic Field 236 7.2.3 Space Weather 195 9.3 Venus 238 7.2.4 Solar Wind-Planet Interactions 196 9.3.1 Surface 238 7.3 Planetary Magnetospheres 198 9.3.2 Atmosphere 241 7.3.1 Earth's Magnetosphere 198 9.3.3 Interior 242 Contents viii 9.4 Mars 242 11.6.4 Cosmic-Ray Exposure Ages 301 9.4.1 Global Appearance 243 11.7 Meteorite Clues to Planet Formation 301 9.4.2 Interior 243 11.7.1 Meteorites from Differentiated 9.4.3 Atmosphere 244 Bodies 302 9.4.4 Frost, Ice and Glaciers 247 11.7.2 Primitive Meteorites 303 9.4.5 Water on Mars 248 11.7.3 Presolar Grains 304 9.4.6 Geology at Rover Sites 250 Key Concepts 305 9.4.7 Magnetic Field 253 Further Reading 305 Key Concepts 255 Problems 306 Further Reading 255 Problems 256 12 Minor Planets and Comets 309 12. 1 Nomenclature 310 10 Planetary Satellites 258 12.2 Orbits 311 10. 1 Moons of Mars: Phobos and Deimos 259 12.2.1 Asteroids 312 10.2 Satellites of Jupiter 260 12.2.2 Trans-Neptunian Objects, 10.2.1 Io 260 Centaurs 314 10.2.2 Europa 263 12.2.3 Oort Cloud 316 10.2.3 Ganymede and Callisto 267 12.2.4 Nongravitational Forces 317 10.2.4 Jupiter's Small Moons 269 12.3 Size Distribution and Collisions 318 10.3 Satellites of Saturn 269 12.3.1 Size Distribution 318 10.3.1 Titan 270 12.3.2 Collisions and Families 319 10.3.2 Midsized Saturnian Moons 272 12.3.3 Collisions and Rubble Piles 320 10.3.3 Enceladas 273 ¡2.3.4 Binary and Multiple Systems 321 10.3.4 Small Regular Satellites 12.3.5 Comet-Splitting Events 322 of Saturn 275 12.3.6 Mass and Density 323 10.3.5 Saturn's Irregular Moons 275 I '2.3.7 Rotation 324 10.4 Satellites of Uranus 276 12.3.8 Interplanetary Dust 325 10.5 Satellites of Neptune 278 12.4 Bulk Composition and Taxonomy 325 Key Concepts 281 12.4.1 Asteroid Taxonomy 326 Further Reading 281 12.4.2 Taxometric Spatial Distribution 327 Problems 282 12.4.3 Trans-Neptunian Object Spectra 328 12.5 Individual Minor Planets 328 11 Meteorites 284 12.5.1 Near-Earth Asteroids 328 II.I Classification 286 12.5.2 Main Belt Asteroids 330 1 1 .2 Source Regions 289 ¡2.5.3 Trans-Neptunian Objects 333 11.3 Fall Phenomena 292 12.6 Shape and Structure of Comet Nuclei 334 11.4 Chemical and Isotopie Fractionation 295 12.7 Comas and Tails of Comets 336 11.4.1 Chemical Separation 296 12.7. ¡ Brightness 337 11.4.2 Isotopie Fractionation 296 12.7.2 Ultimate Fate of Coma Gas 338 11.5 Main Components of Chondrites 297 12.7.3 Dust Entrainment 338 11.6 Radiometrie Dating 298 12.7.4 Morphology and Composition 11.6.1 Decay Rates 298 of Dust Tails 339 11.6.2 Dating Rocks 300 12.7.5 Ion Tails 341 11.6.3 Extinct-Nuclide Dating 300 12.7.6 Comet Composition 342 Contents ix 12.8 Temporal Evolution of the Population of Asteroids and Comets 343 Key Concepts 344 Further Reading 344 Problems 345 13 Planetary Rings 13.1 Tidal Forces and Roche's Limit 13.2 Flattening and Spreading of Rings 13.3 Observations 13.3. J Jupiter1 s Rings 13.3.2 Saturn's Rings 13.3.3 Uranus' s Rings 13.3.4 Neptune's Rings 13.4 Ring-Moon Interactions 13.4.1 Resonances 13.4.2 Spiral Waves 13.4.3 Shepherding 13.5 Origins of Planetary Rings Key Concepts Further Reading Problems 14 Extrasolar Planets 1 4.1 Detecting Extrasolar Planets 14.1.1 Tim ing Pulsa rs and Pulsating Stars 14.1.2 Radial Velocity 14.1.3 Astrometry 14.1.4 Transit Photometry 14.1.5 Transit Timing Variations 14.1.6 Microlensing 14.1.7 Imaging 14.1.8 Other Techniques 14.1.9 Exoplanet Characterization 14.1.10 Planets in Multiple Star Systems 14.2 Observations of Extrasolar Planets 14.2.1 Pulsar Planets 14.2.2 Radial Velocity Detections 14.2.3 Transiting Planets 14.2.4 NASA's Kepler Mission 14.2.5 Mass-Radius Relationship 14.2.6 Planets Orbiting Pulsating Stars 398 14.2.7 Microlensing Detections 398 14.2.8 Images and Spectra of Exoplanets 398 14.2.9 Planets in Multiple Star 348 Systems 399 351 14.3 Exoplanet Statistics 400 354 14.3.1 Radial Velocity Surveys 400 355 14.3.2 Kepler Planet Candidates 401 355 14.3.3 Microlensing 403 356 14.4 Physics of Exoplanets 404 364 14.5 Conclusions 407 366 Key Concepts 410 366 Further Reading 410 366 Problems 410 367 369 15 Planet Formation 413 371 15.1 Solar System Constraints 414 373 15.2 Star Formation: A Brief Overview 417 374 15.2.1 Molecular Cloud Cores 417 374 15.2.2 Collapse of Molecular Cloud Cores 418 377 15.2.3 Young Stars and 378 Circumstellar Disks 419 15.3 Evolution of the Protoplanetary Disk 420 378 15.3.1 Infall Stage 420 379 15.3.2 Disk Dynamical Evolution 422 380 15.3.3 Chemistry in the Disk 423 381 15.3.4 Clearing Stage 425 382 15.4 Growth of Solid Bodies 425 383 15.4.1 Planete simal Formation 425 384 15.4.2 From Planetesimals to 385 Planetary Embryos 426 385 15.5 Formation of the Terrestrial Planets 430 15.5.1 Dynamics of the Final Stages 386 of Planetary Accumulation 430 387 15.5.2 Accretional Heating and 387 Planetary Differentiation 430 389 15.5.3 Accumulation (and Loss) of 391 Atmospheric Volatiles 433 394 15.6 Formation of the Giant Planets 434 396 15.7 Planetarv Migration 437 Contents 15.7. / Torques from Protoplanetary Disks 437 Ì 5.7.2 Scattering of Planete simáis 437 15.8 Small Bodies Orbiting the Sun 438 15.8.1 Asteroid Belt 438 15.8.2 Comet Reservoirs 439 15.9 Planétán, Rotation 440 15.10 Satellites of Planets and of Minor Planets 440 /5.10.1 Giant Planet Satellites 440 15.10.2 Formation of the Moon 441 /5.10.3 Satellites of Small Bodies 443 15.11 Exoplanet Formation Models 443 15.12 Confronting Theory with Obsenations 444 /5.12.1 Solar System's Dynamical State 444 15.12.2 Composition of Planetary Bodies 445 /5.12.3 Extrasolar Planets 446 15.12.4 Successes. Shortcomings and Predictions 446 Key Concepts 447 Further Reading 447 Problems 448 16 Planets and Life 452 16.1 Drake Equation 453 16.2 What Is Life? 454 16.3 Biological Thermodynamics 456 16.4 Why Carbon and Water1 458 16.5 Circumstellar Habitable Zones 459 16.6 Planétán Requirements for Life 462 16.6.1 Biogeochemical Cxdes 463 16.6.2 Gravitational and Magnetic Fields 465 16.6.3 Can Moonless Planets Host Life0 465 16.6.4 Giant Planets and Life 466 16.7 Impacts and Other Natural Disasters 467 16.7.1 K -Т Event 46« 16.7.2 Frequency of Impacts 470 16.7.3 Voléanos and Earthquakes 471 16.8 How Life Affects Planets 472 16.9 Origin of Life 473 16.9.1 Synthesis of Organic Molecules 474 16.9.2 The Phylogenetic Tree and Last Universal Common Ancestor 475 16.9.3 Young Earth and Early Life 478 16.10 Darwinian Evolution 479 16.10.1 Sex. Gene Pools and Inheritance 481 16. ¡0.2 Development of Complex Life 482 16.10.3 Intelligence and Technology 484 16.11 Mass Extinctions 485 16.12 Panspermia 486 16.13 Detecting Extraterrestrial Life 488 16.13.1 Signs of I Past) Life on Mars? 489 16.13.2 Search for Extra-Terrestrial Intelligence 491 16.14 Are We Alone0 492 Key Concepts 493 Further Reading 494 Problems 496 Appendix A: Symbols Used Appendix B: Acronyms Used Appendix C: Units and Constants Appendix D: Periodic Table of Elements Appendix E: Solar System Tables Appendix F Interplanetary Spacecraft Appendix G: Recent Planétán Images References Index 501 505 509 513 515 527 533 553 561 Fundamental Planetary Science A quantitative introduction to the Solar System and plan- JACK J. LISSAUERisa space scientist at NASA's etary systems science for advanced undergraduate stu- Ames Research Center in Moffett Field, California, and dents, this engaging new textbook explains the wide vari- a consulting professor at Stanford University. His pri- ety of physical, chemical and geological processes that mary research interests are the formation of planetary govern the motions and properties of planets, as well systems, detection of extrasolar planets, planetary dynam- as how life interacts with a planet. The authors provide ics and chaos, planetary ring systems and circumstellar/ an overview of our current knowledge and discuss some protoplanetary disks. He is lead discoverer of the six- of the unanswered questions at the forefront of research planet Kepler- 11 system, and co-discoverer of the first in planetary science and astrobiology today. They com- four planets found to orbit about faint M dwarf stars; he bine knowledge of the Solar System and the properties also co-discovered two broad tenuous dust rings and two of extrasolar planets with astrophysical observations of small inner moons orbiting the planet Uranus, ongoing star and planet formation, offering a compre¬ hensive model for understanding the origin of planetary IMKE DE PATER is a professor in the Astronomy systems. This book concludes with an introduction to Department and the Department of Earth and Planetary the fundamental properties of living organisms and the Science at the University of California, Berkeley, and relationship that life has to its host planet. With more is affiliated with the Faculty of Aerospace Engineering than two hundred exercises to help students learn how at the Delft University of Technology, the Netherlands, to apply the concepts covered, this textbook is ideal for She began her career observing and modeling Jupiter's a one-semester or two-quarter course for undergraduate synchrotron radiation followed by detailed investiga- students majoring in the physical or biological sciences tions of the planet's thermal radio emission. In 1994, or in engineering. she led a worldwide campaign to observe the impact of comet D/Shoemaker-Levy 9 with Jupiter. Currently, she is exploiting adaptive optics techniques in the infrared range to obtain high angular resolution data of planets, their rings, and their moons in our Solar System.
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geographic	Mond (DE-588)1085673251 gnd Sonnensystem (DE-588)1236963989 gnd
geographic_facet	Mond Sonnensystem
id	DE-604.BV041200755
illustrated	Illustrated
indexdate	2024-09-12T00:02:24Z
institution	BVB
isbn	9780521853309 0521853303 9780521618557 052161855X
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-026175632
oclc_num	864553893
open_access_boolean
owner	DE-703 DE-355 DE-BY-UBR DE-12 DE-20 DE-188
owner_facet	DE-703 DE-355 DE-BY-UBR DE-12 DE-20 DE-188
physical	XIV S., [16 Bl.], 583 S. Ill., graph. Darst., Kt.
publishDate	2013
publishDateSearch	2013
publishDateSort	2013
publisher	Cambridge Univ. Press
record_format	marc
spelling	Lissauer, Jack Jonathan 1957- Verfasser (DE-588)173681859 aut Fundamental planetary science physics, chemistry and habitability Jack Lissauer and Imke de Pater 1. publ. New York Cambridge Univ. Press 2013 XIV S., [16 Bl.], 583 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Hier auch später erschienene, unveränderte Nachdrucke Astrobiologie (DE-588)4112608-7 gnd rswk-swf Planetensystem (DE-588)4126386-8 gnd rswk-swf Astrophysik (DE-588)4003326-0 gnd rswk-swf Meteorit (DE-588)4038950-9 gnd rswk-swf Planetologie (DE-588)4233970-4 gnd rswk-swf Geologie (DE-588)4020227-6 gnd rswk-swf Kosmochemie (DE-588)4133733-5 gnd rswk-swf Habitable Zone (DE-588)103039461X gnd rswk-swf Komet (DE-588)4031833-3 gnd rswk-swf Planet (DE-588)4046212-2 gnd rswk-swf Mond (DE-588)1085673251 gnd rswk-swf Sonnensystem (DE-588)1236963989 gnd rswk-swf Planetology. Planetensystem (DE-588)4126386-8 s Sonnensystem (DE-588)1236963989 g Planet (DE-588)4046212-2 s Astrophysik (DE-588)4003326-0 s DE-604 Kosmochemie (DE-588)4133733-5 s Habitable Zone (DE-588)103039461X s Astrobiologie (DE-588)4112608-7 s Mond (DE-588)1085673251 g Meteorit (DE-588)4038950-9 s Komet (DE-588)4031833-3 s Planetologie (DE-588)4233970-4 s Geologie (DE-588)4020227-6 s De Pater, Imke 1952- Sonstige (DE-588)1012079988 oth Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026175632&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026175632&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Lissauer, Jack Jonathan 1957- Fundamental planetary science physics, chemistry and habitability Astrobiologie (DE-588)4112608-7 gnd Planetensystem (DE-588)4126386-8 gnd Astrophysik (DE-588)4003326-0 gnd Meteorit (DE-588)4038950-9 gnd Planetologie (DE-588)4233970-4 gnd Geologie (DE-588)4020227-6 gnd Kosmochemie (DE-588)4133733-5 gnd Habitable Zone (DE-588)103039461X gnd Komet (DE-588)4031833-3 gnd Planet (DE-588)4046212-2 gnd
subject_GND	(DE-588)4112608-7 (DE-588)4126386-8 (DE-588)4003326-0 (DE-588)4038950-9 (DE-588)4233970-4 (DE-588)4020227-6 (DE-588)4133733-5 (DE-588)103039461X (DE-588)4031833-3 (DE-588)4046212-2 (DE-588)1085673251 (DE-588)1236963989
title	Fundamental planetary science physics, chemistry and habitability
title_auth	Fundamental planetary science physics, chemistry and habitability
title_exact_search	Fundamental planetary science physics, chemistry and habitability
title_full	Fundamental planetary science physics, chemistry and habitability Jack Lissauer and Imke de Pater
title_fullStr	Fundamental planetary science physics, chemistry and habitability Jack Lissauer and Imke de Pater
title_full_unstemmed	Fundamental planetary science physics, chemistry and habitability Jack Lissauer and Imke de Pater
title_short	Fundamental planetary science
title_sort	fundamental planetary science physics chemistry and habitability
title_sub	physics, chemistry and habitability
topic	Astrobiologie (DE-588)4112608-7 gnd Planetensystem (DE-588)4126386-8 gnd Astrophysik (DE-588)4003326-0 gnd Meteorit (DE-588)4038950-9 gnd Planetologie (DE-588)4233970-4 gnd Geologie (DE-588)4020227-6 gnd Kosmochemie (DE-588)4133733-5 gnd Habitable Zone (DE-588)103039461X gnd Komet (DE-588)4031833-3 gnd Planet (DE-588)4046212-2 gnd
topic_facet	Astrobiologie Planetensystem Astrophysik Meteorit Planetologie Geologie Kosmochemie Habitable Zone Komet Planet Mond Sonnensystem
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026175632&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026175632&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT lissauerjackjonathan fundamentalplanetarysciencephysicschemistryandhabitability AT depaterimke fundamentalplanetarysciencephysicschemistryandhabitability

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