Overview of the Mars Pathfinder Mission and Assessment of Landing Site Predictions

Overview of the Mars Pathfinder Mission and Assessment of Landing Site Predictions

Chemical analyses returned by Mars Pathfinder indicate that some rocks may be high in silica, implying differentiated parent materials. Rounded pebbles and cobbles and a possible conglomerate suggest fluvial processes that imply liquid water in equilibrium with the atmosphere and thus a warmer and w...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 1997-12, Vol.278 (5344), p.1743-1748
Hauptverfasser: Golombek, M. P., Cook, R. A., Economou, T., Folkner, W. M., Haldemann, A. F. C., Kallemeyn, P. H., Knudsen, J. M., Manning, R. M., Moore, H. J., Parker, T. J., Rieder, R., Schofield, J. T., Smith, P. H., Vaughan, R. M.
Format: Artikel
Sprache:eng
Schlagworte:
Air bags
Atmosphere
Chemistry
Climate
Communication Skills
Cosmochemistry. Extraterrestrial geology
Earth sciences
Earth, ocean, space
Ellipses
Exact sciences and technology
Extraterrestrial Environment
Extraterrestrial geology
Geologic Sediments
Geology
Impact craters
Individualized Instruction
Inertia
Inferences
Landing sites
Lunar And Planetary Science And Exploration
Magnetics
Mars
Mars (Planet)
Mars Pathfinder
Mineralogy
Natural history
Parent Materials
Planets
Radar
Reflectance
Rocks
Soil composition
Space exploration
Space life sciences
Water
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Beschreibung
Zusammenfassung:Chemical analyses returned by Mars Pathfinder indicate that some rocks may be high in silica, implying differentiated parent materials. Rounded pebbles and cobbles and a possible conglomerate suggest fluvial processes that imply liquid water in equilibrium with the atmosphere and thus a warmer and wetter past. The moment of inertia indicates a central metallic core of 1300 to 2000 kilometers in radius. Composite airborne dust particles appear magnetized by freeze-dried maghemite stain or cement that may have been leached from crustal materials by an active hydrologic cycle. Remote-sensing data at a scale of generally greater than ∼1 kilometer and an Earth analog correctly predicted a rocky plain safe for landing and roving with a variety of rocks deposited by catastrophic floods that are relatively dust-free.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.278.5344.1743