Physics and chemistry of the solar system

Physics and Chemistry of the Solar System focuses on planetary physics and chemistry. This book consists of 12 chapters. Chapters I to IV cover the general properties and environment of the planetary system. The solar system beyond Mars is elaborated in Chapters V to VIII, while the inner solar system is considered in Chapters XI to XII. In these chapters, this compilation specifically discusses the limitations on big bang nucleosynthesis; structure and classification of galaxies; and mass and angular momentum distribution. The radio wave propagation in space plasmas; interiors of Jupiter and Saturn; density and composition of icy satellites; and evaporation and non-gravitational forces are also deliberated. This text also explains the physical properties of meteorites; geology of the Moon; geophysical data on Mars; and search for extraterrestrial intelligence. This publication is a good reference for first-year graduate students who intend to take graduate courses in specialized areas of planetary sciences, as well as practicing Ph.D. scientists with training in physics, chemistry, geology, astronomy, meteorology, and biology.

PrefaceI Introduction Nature and Scope of Planetary Science Guide to the LiteratureII Astronomical Perspective Introduction Distance Scales in the Universe The Big Bang Limitations on Big Bang Nucleosynthesis Galaxy and Star Formation Structure and Classification of Galaxies Classification of Stars Stellar Evolution Star Clusters Stellar Origins Outline of Star Formation Stellar Explosions and Nucleosynthesis Nuclear CosmochronologyIII General Description of the Solar System Introduction The Sun Orbits of the Planets Properties of the Planets Mass and Angular Momentum Distribution Satellites Asteroids Comets Meteors Meteorites Cosmic Dust Cosmic Rays Planetary Science in the Space Age SummaryIV The Sun and the Solar Nebula Introduction Energy Production in the Sun Energy Transport in the Sun Internal Structure of the Sun Surface of the Sun The Chromosphere The Corona Discovery of the Solar Wind Radio Wave Propagation in Space Plasmas The Solar Wind Chemistry of Solar Material Ionization Dissociation and Molecule Formation Hydrogen and the Rare Gases Oxygen, Carbon, and Nitrogen Magnesium and Silicon Iron Sulfur Aluminum and Calcium Sodium and Potassium Nickel and Cobalt Phosphorus and the Halogens Geochemical Classification of the Elements The Chemistry of Rapid Accretion Kinetic Inhibition Mass and Density of the Solar Nebula Thermal Opacity in the Solar Nebula Dust Opacity Thermal Structure of the Nebula Turbulence and Dust Sedimentation Accretion of Rocks, Planetesimals, and Planets Gas Capture from the Solar Nebula The T-Tauri Phase Thermal History of the Early Solar SystemV The Major Planets Introduction Interiors of Jupiter and Saturn: Data Isothermal Interior Models of Jupiter and Saturn Thermal Models of Jupiter and Saturn The Atmospheres of Jupiter and Saturn: Observed Composition Tropospheric Composition and Structure: Theory Cloud Condensation in the NH3-H2O-H2S System Cloud Physics on the Jovian Planets Ion Production in the Jovian Atmosphere Visible and Infrared Radiative Transfer Horizontal Structure and Atmospheric Circulation Photochemistry and Aeronomy The Jovian Thermosphere Radiophysics and Magnetospheres of Jupiter and Saturn The Interiors of Uranus and Neptune Atmospheres of Uranus and Neptune PerspectivesVI Pluto and the Icy Satellites of the Outer Planets Introduction Surfaces of Icy Satellites Eclipse Radiometry Surface Temperatures Surface Morphology of the Galilean Satellites Density and Composition of Icy Satellites Internal Thermal Structure of Galilean Satellites Dynamical Interactions of the Galilean Satellites Thermal and Tectonic Evolution of Icy Satellites Minor Satellites of Jupiter Planetary Rings Titan The Intermediate-Sized Saturnian Satellites Minor Satellites of Saturn Satellites of Uranus Satellites of Neptune The Pluto-Charon System The Neptune-Pluto Resonance Spacecraft ExplorationVII Comets and Meteors Historical Perspectives The Nature of Comets Cometary Orbits Heating by Passing Stars Evaporation and Nongravitational Forces The Nucleus and Coma of P/Halley Chemistry and Photochemistry of Water Further Chemical Processes in the Coma and Tail Behavior of Small Particles Dynamical Behavior of Dust in Space Meteors Cometary Fireballs Cometary Impacts on JupiterVIII Meteorites and Asteroids Introduction Introduction to Meteorites Meteorite Orbits Phenomena of Fall Physical Properties of Meteorites Meteorite Minerals Composition of Chondrites Composition of Achondrites Composition of Stony-Irons Composition of Irons Isotopic Composition of Meteorites Genetic Relationships between Meteorite Classes Introduction to Asteroids Asteroid Orbits Stability of Trojan Orbits Sizes, Shapes, and Albedos of Asteroids Masses and Densities of Asteroids Photometry and Spectroscopy of Asteroids Thermal Evolution of Asteroids Dynamical Evolution of the Asteroid Belt Relationships among Asteroids, Meteorites, and Comets Asteroid ResourcesIX The Airless Rocky Bodies: Io, Phobos, Deimos, the Moon, and Mercury Introduction Orbits and Physical Structure of Phobos and Deimos Io: General Properties Io: Surface Processes Io: Internal Energy Sources Io: Geology Io: Atmospheric and Volcanic Gases Io: Escape and the Plasma Torus Io: Genetic Relationships Impact Cratering Motions of the Moon Physical Properties of the Moon Composition of the Moon Lunar Rock Types Lunar Minerals Lunar Elemental Abundance Patterns Geology of the Moon Geophysics of the Moon History of the Earth-Moon System Origin and Internal Evolution of the Moon Solar Wind Interaction with the Moon and Mercury The Planet Mercury Motions of Mercury Composition and Structure of Mercury Noncrater Geology of Mercury Geophysics of Mercury Atmospheres of Mercury and the Moon Polar Deposits on Mercury and the Moon Unfinished BusinessX The Terrestrial Planets: Mars, Venus, and Earth Introduction Mars Motions of Mars Density and Figure of Mars Geophysical Data on Mars Gravity and Tectonics of Mars Geology of Mars Surface Composition Viking Lander Investigations The Shergottite, Nakhlite, and Chassignite Meteorites Atmospheric Structure Atmospheric Circulation Atmospheric Composition Photochemical Stability and Atmospheric Escape Explosive Blowoff Origin and Evolution of the Atmosphere Organic Matter and the Origin of Life Venus Motions and Dynamics of Venus Geophysical Data on Venus Geology of Venus Venus: Atmospheric Structure and Motions Venus: Atmospheric Composition Venus: Atmosphere-Lithosphere Interactions Venus: Photochemistry and Aeronomy Venus: Atmospheric Escape Venus: Planetary Evolution Earth Earth: Motions Earth: Internal Structure Earth: Magnetic Field and Magnetosphere Earth: Surface Geology Earth: Early Geological History Earth: Biological History Earth: Geochemistry and Petrology Weathering in the Rock Cycle Earth: Atmospheric Composition and Cycles Radiocarbon Dating Photochemistry and Aeronomy Escape and Infall Polar Ice, Glaciation, and Ice Ages Life: Origins Life: Stability and the BiosphereXI Planets and Life about Other Stars Introduction Chemical and Physical Prerequisites of Life The Stellar Environment The Search for Planets of Other Stars The Search for Extraterrestrial IntelligenceXII Future Prospects Introduction Mercury Venus Earth's Moon Mars Asteroids Jupiter Saturn, Uranus, and Neptune Pluto Comets Beyond the Solar SystemAppendix I: Equilibrium Thermodynamics Heat and Work Adiabatic Processes and Entropy Useful Work and the Gibbs Free Energy Chemical Equilibrium Exact and Complete Differentials The Maxwell RelationsAppendix II: Absorption and Emission of Radiation by Quantum OscillatorsAppendix III: Exploration of the Solar SystemAppendix IV: Basic Physical ConstantsSuggested Readings Introduction Chapter I. Introduction Chapter II. Astronomical Perspective Chapter III. General Description of the Solar System Chapter IV. The Sun and the Solar Nebula Chapter V. The Major Planets Chapter VI. Pluto and the Icy Satellites of the Outer Planets Chapter VII. Comets and Meteors Chapter VIII. Meteorites and Asteroids Chapter IX. The Airless Rocky Bodies: Io, Phobos, Deimos, the Moon, and Mercury Chapter X. The Terrestrial Planets: Mars, Venus, and Earth Chapter XI. Planets and Life about Other Stars Chapter XII. Future ProspectsIndex

This volume is a survey of the planetary physics and physical chemistry of the part of the universe that is best understood - our own solar system. Chapters review each of the major planetary bodies as well as asteroids, comets and other small orbitals.

• Introduction - astronomical perspective
• general description of the solar system
• the sun and the solar nebula
• the major planets
• Pluto and the icy satellites of the outer planets
• comets and meteors
• meteorites and asteroids
• the airless rocky planets - Io, Phobos and Deimos, the Moon and Mercury
• the terrestial planets - Mars, Venus and Earth
• planets and life about other stars
• future prospects. Appendices: equilibrium thermodynamics
• absorption and emission of radiation by quantum oscillators
• exploration of the solar system
• basic physical constants.