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Chemistry and Physics of Terrestrial Planets [electronic resource] /
The purpose of this volume is to present the latest planetary studies of an international body of scientists concerned with the physical and chemical aspects of terrestrial planets. In recent years planetary science has developed in leaps and bounds. This is a result of the application of a broad range of scientific disciplines, particularly physical and chemical, to an understanding of the information received from manned and unmanned space exploration. The first five chapters expound on many of the past and recent observations in an attempt to develop meaningful physical-chemical models of planetary formation and evolution. For any discussion of the chemical processes in the solar nebula, it is important to understand the boundary conditions of the physical variables. In Chapter 1, Saf ranov and Vitjazev have laid down explicitly all the physical constraints and the problems of time-dependence of nebular evolutionary processes. Planetary scientists and students will find in this chapter a collection of astrophysical parameters on the transfer of angular momentum, formation of the disk and the gas envelope, nebular turbulence, physical mixing of particles of various origins and growth of planetesimals. The authors conclude their work with important information on ev olution of terrestrial planets. Although symbols are defined in the text of the article, readers who are not familiar with the many symbols and abbreviations in astrophysical literature will find it useful to consult the Appendix for explanations.
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| Format: | Texto biblioteca |
| Language: | eng |
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New York, NY : Springer New York,
1986
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| Subjects: | Earth sciences., Inorganic chemistry., Physical chemistry., Geology., Mineralogy., Observations, Astronomical., Astronomy, Astrophysics., Earth Sciences., Physical Chemistry., Inorganic Chemistry., Astronomy, Observations and Techniques., Astrophysics and Astroparticles., |
| Online Access: | http://dx.doi.org/10.1007/978-1-4612-4928-3 |
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Earth sciences. Inorganic chemistry. Physical chemistry. Geology. Mineralogy. Observations, Astronomical. Astronomy Astrophysics. Earth Sciences. Mineralogy. Geology. Physical Chemistry. Inorganic Chemistry. Astronomy, Observations and Techniques. Astrophysics and Astroparticles. Earth sciences. Inorganic chemistry. Physical chemistry. Geology. Mineralogy. Observations, Astronomical. Astronomy Astrophysics. Earth Sciences. Mineralogy. Geology. Physical Chemistry. Inorganic Chemistry. Astronomy, Observations and Techniques. Astrophysics and Astroparticles. |
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Earth sciences. Inorganic chemistry. Physical chemistry. Geology. Mineralogy. Observations, Astronomical. Astronomy Astrophysics. Earth Sciences. Mineralogy. Geology. Physical Chemistry. Inorganic Chemistry. Astronomy, Observations and Techniques. Astrophysics and Astroparticles. Earth sciences. Inorganic chemistry. Physical chemistry. Geology. Mineralogy. Observations, Astronomical. Astronomy Astrophysics. Earth Sciences. Mineralogy. Geology. Physical Chemistry. Inorganic Chemistry. Astronomy, Observations and Techniques. Astrophysics and Astroparticles. Saxena, Surendra K. editor. SpringerLink (Online service) Chemistry and Physics of Terrestrial Planets [electronic resource] / |
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The purpose of this volume is to present the latest planetary studies of an international body of scientists concerned with the physical and chemical aspects of terrestrial planets. In recent years planetary science has developed in leaps and bounds. This is a result of the application of a broad range of scientific disciplines, particularly physical and chemical, to an understanding of the information received from manned and unmanned space exploration. The first five chapters expound on many of the past and recent observations in an attempt to develop meaningful physical-chemical models of planetary formation and evolution. For any discussion of the chemical processes in the solar nebula, it is important to understand the boundary conditions of the physical variables. In Chapter 1, Saf ranov and Vitjazev have laid down explicitly all the physical constraints and the problems of time-dependence of nebular evolutionary processes. Planetary scientists and students will find in this chapter a collection of astrophysical parameters on the transfer of angular momentum, formation of the disk and the gas envelope, nebular turbulence, physical mixing of particles of various origins and growth of planetesimals. The authors conclude their work with important information on ev olution of terrestrial planets. Although symbols are defined in the text of the article, readers who are not familiar with the many symbols and abbreviations in astrophysical literature will find it useful to consult the Appendix for explanations. |
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Texto |
| topic_facet |
Earth sciences. Inorganic chemistry. Physical chemistry. Geology. Mineralogy. Observations, Astronomical. Astronomy Astrophysics. Earth Sciences. Mineralogy. Geology. Physical Chemistry. Inorganic Chemistry. Astronomy, Observations and Techniques. Astrophysics and Astroparticles. |
| author |
Saxena, Surendra K. editor. SpringerLink (Online service) |
| author_facet |
Saxena, Surendra K. editor. SpringerLink (Online service) |
| author_sort |
Saxena, Surendra K. editor. |
| title |
Chemistry and Physics of Terrestrial Planets [electronic resource] / |
| title_short |
Chemistry and Physics of Terrestrial Planets [electronic resource] / |
| title_full |
Chemistry and Physics of Terrestrial Planets [electronic resource] / |
| title_fullStr |
Chemistry and Physics of Terrestrial Planets [electronic resource] / |
| title_full_unstemmed |
Chemistry and Physics of Terrestrial Planets [electronic resource] / |
| title_sort |
chemistry and physics of terrestrial planets [electronic resource] / |
| publisher |
New York, NY : Springer New York, |
| publishDate |
1986 |
| url |
http://dx.doi.org/10.1007/978-1-4612-4928-3 |
| work_keys_str_mv |
AT saxenasurendrakeditor chemistryandphysicsofterrestrialplanetselectronicresource AT springerlinkonlineservice chemistryandphysicsofterrestrialplanetselectronicresource |
| _version_ |
1756263353638977536 |
| spelling |
KOHA-OAI-TEST:1707142018-07-30T22:47:18ZChemistry and Physics of Terrestrial Planets [electronic resource] / Saxena, Surendra K. editor. SpringerLink (Online service) textNew York, NY : Springer New York,1986.engThe purpose of this volume is to present the latest planetary studies of an international body of scientists concerned with the physical and chemical aspects of terrestrial planets. In recent years planetary science has developed in leaps and bounds. This is a result of the application of a broad range of scientific disciplines, particularly physical and chemical, to an understanding of the information received from manned and unmanned space exploration. The first five chapters expound on many of the past and recent observations in an attempt to develop meaningful physical-chemical models of planetary formation and evolution. For any discussion of the chemical processes in the solar nebula, it is important to understand the boundary conditions of the physical variables. In Chapter 1, Saf ranov and Vitjazev have laid down explicitly all the physical constraints and the problems of time-dependence of nebular evolutionary processes. Planetary scientists and students will find in this chapter a collection of astrophysical parameters on the transfer of angular momentum, formation of the disk and the gas envelope, nebular turbulence, physical mixing of particles of various origins and growth of planetesimals. The authors conclude their work with important information on ev olution of terrestrial planets. Although symbols are defined in the text of the article, readers who are not familiar with the many symbols and abbreviations in astrophysical literature will find it useful to consult the Appendix for explanations.1. The Origin and Early Evolution of the Terrestrial Planets -- 2. Chemistry of the Formation of the Terrestrial Planets -- 3. Thermodynamic Properties and Conditions of Formation of Minerals in Enstatite Meteorite -- 4. Lithospheric-Atmospheric Interaction on Venus -- 5. Weathering of Martian Surface Rocks -- 6. Theoretical Computation of Physical Properties of Mantle Minerals -- 7. Mantle Model Based on Measured Physical Properties of Minerals -- 8. Reduction of Mantle and Core Properties to a Standard State by Adiabatic Decompression -- 9. Thermodynamics of Stable Mineral Assemblages of the Mantle Transition Zone -- 10. Generalized Mathematical Models for the Fractional Evolution of Vapor from Magmas in Terrestrial Planetary Crusts.The purpose of this volume is to present the latest planetary studies of an international body of scientists concerned with the physical and chemical aspects of terrestrial planets. In recent years planetary science has developed in leaps and bounds. This is a result of the application of a broad range of scientific disciplines, particularly physical and chemical, to an understanding of the information received from manned and unmanned space exploration. The first five chapters expound on many of the past and recent observations in an attempt to develop meaningful physical-chemical models of planetary formation and evolution. For any discussion of the chemical processes in the solar nebula, it is important to understand the boundary conditions of the physical variables. In Chapter 1, Saf ranov and Vitjazev have laid down explicitly all the physical constraints and the problems of time-dependence of nebular evolutionary processes. Planetary scientists and students will find in this chapter a collection of astrophysical parameters on the transfer of angular momentum, formation of the disk and the gas envelope, nebular turbulence, physical mixing of particles of various origins and growth of planetesimals. The authors conclude their work with important information on ev olution of terrestrial planets. Although symbols are defined in the text of the article, readers who are not familiar with the many symbols and abbreviations in astrophysical literature will find it useful to consult the Appendix for explanations.Earth sciences.Inorganic chemistry.Physical chemistry.Geology.Mineralogy.Observations, Astronomical.AstronomyAstrophysics.Earth Sciences.Mineralogy.Geology.Physical Chemistry.Inorganic Chemistry.Astronomy, Observations and Techniques.Astrophysics and Astroparticles.Springer eBookshttp://dx.doi.org/10.1007/978-1-4612-4928-3URN:ISBN:9781461249283 |