Difference between revisions of "Curiosity"
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Conclusion: The regolith is a good base for making [[soil]] for [[greenhouse]]s in the Martian [[colony]]. | Conclusion: The regolith is a good base for making [[soil]] for [[greenhouse]]s in the Martian [[colony]]. | ||
− | + | Mars sounds fun. I'm also very inrtugied by the thought Scientists have presented around other red dwarf planets being suitable for life. Apparently quite a few in our galaxy. These are exciting times, and for every occasion, there's a perfect cigar. To gaze at Mars and read Edgar Rice Burroughs, I select the Serie N, and some 18 year Scotch. Salute! | |
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===Radiation=== | ===Radiation=== |
Revision as of 13:44, 8 March 2013
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Curiosity is the last and most advanced rover from NASA. It carries several instruments for scientific investigation. One of the goals is to find signs of life on the Martian surface or a few centimeters below.
Findings
Regolith for greenhouses
The Martian regolith resembles basaltic soil from Hawaii.[1]
Conclusion: The regolith is a good base for making soil for greenhouses in the Martian colony.
Mars sounds fun. I'm also very inrtugied by the thought Scientists have presented around other red dwarf planets being suitable for life. Apparently quite a few in our galaxy. These are exciting times, and for every occasion, there's a perfect cigar. To gaze at Mars and read Edgar Rice Burroughs, I select the Serie N, and some 18 year Scotch. Salute!
Radiation
Measuring the radiation levels, Curiosity finds no stronger radiation on the Martian surface than in low Earth orbit, where the ISS is. This seems the result of Mars' atmosphere deflecting parts of the cosmic rays. This is very good news as it simplifies significantly the construction of living quarters for the settlers. However, the intensity of solar flares still needs to be measured.[2]