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A fresh look at the latest Mars discoveries for researchers and students in planetary science, astronomy, and space exploration.
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A fresh look at the latest Mars discoveries for researchers and students in planetary science, astronomy, and space exploration.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 688
- Erscheinungstermin: 5. Juni 2008
- Englisch
- Abmessung: 282mm x 208mm x 41mm
- Gewicht: 1817g
- ISBN-13: 9780521866989
- ISBN-10: 0521866987
- Artikelnr.: 23425918
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Verlag: Cambridge University Press
- Seitenzahl: 688
- Erscheinungstermin: 5. Juni 2008
- Englisch
- Abmessung: 282mm x 208mm x 41mm
- Gewicht: 1817g
- ISBN-13: 9780521866989
- ISBN-10: 0521866987
- Artikelnr.: 23425918
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
Dedication; Acknowledgements; Foreword; Part I. Introduction and Historical
Perspective: 1. Exploration of the Martian surface: 1992-2007; 2.
Historical context: the pre-MGS view of Mars' surface composition; Part II.
Elemental Composition: Orbital and In Situ Surface Measurements: Part II.
A. Results and Interpretations from New In Situ APXS Measurements: 3.
Martian surface chemistry: APXS results from the Pathfinder landing site;
4. Mars exploration rovers - chemical composition by the APXS; Part II. B.
Results and Interpretations from New Orbital Elemental Measurements: 5.
Elemental abundances determined via the Mars Odyssey GRS; 6. Volatiles on
Mars: scientific results from the Mars Odyssey Neutron Spectrometer; Part
III. Mineralogy and Remote Sensing of Rocks, Soil, Dust, and Ices: Part
III. A. Visible to Near-IR Telescopic and Orbital Measurements: 7.
Mineralogy of the Martian surface from Mars Express OMEGA Observations; 8.
Visible to near-IR multispectral orbital observations; Part III. B. Mid-IR
and Magnetic Orbital Measurements: 9. Global mineralogy mapped from the
Mars Global Surveyor Thermal Emission Spectrometer; 10. The compositional
diversity and physical properties mapped from the Mars Odyssey Thermal
Emission Imaging System; 11. Mars' crustal magnetization: a window into the
past; Part III. C. Observations from Surface Landers/Rovers: 12.
Multispectral imaging from Mars Pathfinder; 13. Mars Exploration Rover
Pancam multispectral imaging of rocks, soil, and dust at Gusev Crater and
Meridiani Planum ; 14. The mineralogy of Gusev Crater and Meridiani Planum
derived from the Miniature Thermal Emission Spectrometers on the Spirit and
Opportunity Rovers; 15. Iron mineralogy and aqueous alteration on Mars from
the MER Mössbauer Spectrometers; 16. Magnetic properties results from
surface landers and rovers; Part III. D: 17. Martian meteorites as crustal
samples; Part IV. Physical Properties of Surface Materials: 18. The thermal
inertia of the surface of Mars; 19. Physical properties of the Martian
surface from spectrophotometric observations; 20. In-situ observations of
the physical properties of the Martian surface; 21. Martian surface
properties from joint analyses of orbital, Earth-based, and surface
observations; Part V. Synthesis: 22. Implications of the observed primary
lithologies; 23. Aqueous alteration on Mars; 24. The sedimentary rock cycle
of Mars; 25. Implications for Martian polar processes; 26. Astrobiological
implications of Mars surface composition and properties; Part VI: 27.
Summary, upcoming missions, and new measurement needs; Acronyms; Index.
Perspective: 1. Exploration of the Martian surface: 1992-2007; 2.
Historical context: the pre-MGS view of Mars' surface composition; Part II.
Elemental Composition: Orbital and In Situ Surface Measurements: Part II.
A. Results and Interpretations from New In Situ APXS Measurements: 3.
Martian surface chemistry: APXS results from the Pathfinder landing site;
4. Mars exploration rovers - chemical composition by the APXS; Part II. B.
Results and Interpretations from New Orbital Elemental Measurements: 5.
Elemental abundances determined via the Mars Odyssey GRS; 6. Volatiles on
Mars: scientific results from the Mars Odyssey Neutron Spectrometer; Part
III. Mineralogy and Remote Sensing of Rocks, Soil, Dust, and Ices: Part
III. A. Visible to Near-IR Telescopic and Orbital Measurements: 7.
Mineralogy of the Martian surface from Mars Express OMEGA Observations; 8.
Visible to near-IR multispectral orbital observations; Part III. B. Mid-IR
and Magnetic Orbital Measurements: 9. Global mineralogy mapped from the
Mars Global Surveyor Thermal Emission Spectrometer; 10. The compositional
diversity and physical properties mapped from the Mars Odyssey Thermal
Emission Imaging System; 11. Mars' crustal magnetization: a window into the
past; Part III. C. Observations from Surface Landers/Rovers: 12.
Multispectral imaging from Mars Pathfinder; 13. Mars Exploration Rover
Pancam multispectral imaging of rocks, soil, and dust at Gusev Crater and
Meridiani Planum ; 14. The mineralogy of Gusev Crater and Meridiani Planum
derived from the Miniature Thermal Emission Spectrometers on the Spirit and
Opportunity Rovers; 15. Iron mineralogy and aqueous alteration on Mars from
the MER Mössbauer Spectrometers; 16. Magnetic properties results from
surface landers and rovers; Part III. D: 17. Martian meteorites as crustal
samples; Part IV. Physical Properties of Surface Materials: 18. The thermal
inertia of the surface of Mars; 19. Physical properties of the Martian
surface from spectrophotometric observations; 20. In-situ observations of
the physical properties of the Martian surface; 21. Martian surface
properties from joint analyses of orbital, Earth-based, and surface
observations; Part V. Synthesis: 22. Implications of the observed primary
lithologies; 23. Aqueous alteration on Mars; 24. The sedimentary rock cycle
of Mars; 25. Implications for Martian polar processes; 26. Astrobiological
implications of Mars surface composition and properties; Part VI: 27.
Summary, upcoming missions, and new measurement needs; Acronyms; Index.
Dedication; Acknowledgements; Foreword; Part I. Introduction and Historical
Perspective: 1. Exploration of the Martian surface: 1992-2007; 2.
Historical context: the pre-MGS view of Mars' surface composition; Part II.
Elemental Composition: Orbital and In Situ Surface Measurements: Part II.
A. Results and Interpretations from New In Situ APXS Measurements: 3.
Martian surface chemistry: APXS results from the Pathfinder landing site;
4. Mars exploration rovers - chemical composition by the APXS; Part II. B.
Results and Interpretations from New Orbital Elemental Measurements: 5.
Elemental abundances determined via the Mars Odyssey GRS; 6. Volatiles on
Mars: scientific results from the Mars Odyssey Neutron Spectrometer; Part
III. Mineralogy and Remote Sensing of Rocks, Soil, Dust, and Ices: Part
III. A. Visible to Near-IR Telescopic and Orbital Measurements: 7.
Mineralogy of the Martian surface from Mars Express OMEGA Observations; 8.
Visible to near-IR multispectral orbital observations; Part III. B. Mid-IR
and Magnetic Orbital Measurements: 9. Global mineralogy mapped from the
Mars Global Surveyor Thermal Emission Spectrometer; 10. The compositional
diversity and physical properties mapped from the Mars Odyssey Thermal
Emission Imaging System; 11. Mars' crustal magnetization: a window into the
past; Part III. C. Observations from Surface Landers/Rovers: 12.
Multispectral imaging from Mars Pathfinder; 13. Mars Exploration Rover
Pancam multispectral imaging of rocks, soil, and dust at Gusev Crater and
Meridiani Planum ; 14. The mineralogy of Gusev Crater and Meridiani Planum
derived from the Miniature Thermal Emission Spectrometers on the Spirit and
Opportunity Rovers; 15. Iron mineralogy and aqueous alteration on Mars from
the MER Mössbauer Spectrometers; 16. Magnetic properties results from
surface landers and rovers; Part III. D: 17. Martian meteorites as crustal
samples; Part IV. Physical Properties of Surface Materials: 18. The thermal
inertia of the surface of Mars; 19. Physical properties of the Martian
surface from spectrophotometric observations; 20. In-situ observations of
the physical properties of the Martian surface; 21. Martian surface
properties from joint analyses of orbital, Earth-based, and surface
observations; Part V. Synthesis: 22. Implications of the observed primary
lithologies; 23. Aqueous alteration on Mars; 24. The sedimentary rock cycle
of Mars; 25. Implications for Martian polar processes; 26. Astrobiological
implications of Mars surface composition and properties; Part VI: 27.
Summary, upcoming missions, and new measurement needs; Acronyms; Index.
Perspective: 1. Exploration of the Martian surface: 1992-2007; 2.
Historical context: the pre-MGS view of Mars' surface composition; Part II.
Elemental Composition: Orbital and In Situ Surface Measurements: Part II.
A. Results and Interpretations from New In Situ APXS Measurements: 3.
Martian surface chemistry: APXS results from the Pathfinder landing site;
4. Mars exploration rovers - chemical composition by the APXS; Part II. B.
Results and Interpretations from New Orbital Elemental Measurements: 5.
Elemental abundances determined via the Mars Odyssey GRS; 6. Volatiles on
Mars: scientific results from the Mars Odyssey Neutron Spectrometer; Part
III. Mineralogy and Remote Sensing of Rocks, Soil, Dust, and Ices: Part
III. A. Visible to Near-IR Telescopic and Orbital Measurements: 7.
Mineralogy of the Martian surface from Mars Express OMEGA Observations; 8.
Visible to near-IR multispectral orbital observations; Part III. B. Mid-IR
and Magnetic Orbital Measurements: 9. Global mineralogy mapped from the
Mars Global Surveyor Thermal Emission Spectrometer; 10. The compositional
diversity and physical properties mapped from the Mars Odyssey Thermal
Emission Imaging System; 11. Mars' crustal magnetization: a window into the
past; Part III. C. Observations from Surface Landers/Rovers: 12.
Multispectral imaging from Mars Pathfinder; 13. Mars Exploration Rover
Pancam multispectral imaging of rocks, soil, and dust at Gusev Crater and
Meridiani Planum ; 14. The mineralogy of Gusev Crater and Meridiani Planum
derived from the Miniature Thermal Emission Spectrometers on the Spirit and
Opportunity Rovers; 15. Iron mineralogy and aqueous alteration on Mars from
the MER Mössbauer Spectrometers; 16. Magnetic properties results from
surface landers and rovers; Part III. D: 17. Martian meteorites as crustal
samples; Part IV. Physical Properties of Surface Materials: 18. The thermal
inertia of the surface of Mars; 19. Physical properties of the Martian
surface from spectrophotometric observations; 20. In-situ observations of
the physical properties of the Martian surface; 21. Martian surface
properties from joint analyses of orbital, Earth-based, and surface
observations; Part V. Synthesis: 22. Implications of the observed primary
lithologies; 23. Aqueous alteration on Mars; 24. The sedimentary rock cycle
of Mars; 25. Implications for Martian polar processes; 26. Astrobiological
implications of Mars surface composition and properties; Part VI: 27.
Summary, upcoming missions, and new measurement needs; Acronyms; Index.