46 research outputs found

    DIMENSI MISTIS DALAM DIRI MUHAMMAD

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    Detection of Nitric Oxide by the Sample Analysis at Mars (SAM) Instrument. Implications for the Presence of Nitrates

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    International audienceOne of the main goals of the Mars Science Laboratory is to determine whether the planet ever had environmental conditions able to support mi-crobial life. Nitrogen is a fundamental element for life, and is present in structural (e.g., proteins), catalytic (e.g., enzymes and ribozymes), energy transfer (e.g.,ATP) and information storage (RNA and DNA) bio-molecules. Planetary models suggest that molecularnitrogen was abundant in the early Martian atmosphere, but was rapidly lost to space by photochemistry, sput-tering [1, 2], impact erosion [3], and oxidized and de-posited to the surface as nitrate [4]. Nitrates are a fun-damental source for nitrogen to terrestrial microorgan-isms. Therefore, the detection of nitrates in soils and rocks is important to assess the habitability of a Mar-tian environment. SAM is capable of detecting nitrates by their thermal decomposition into nitric oxide, NO [5]. Here we analyze the release of NO from soils and rocks examined by the SAM instrument at Gale crater, and discuss its origin
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