Phobos

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A Mars Global Surveyor image of the moon Phobos.

Phobos is the larger inner moon of the Mars system (the other, smaller moon is called Deimos). It is a dark body that appears to be composed of carbonaceous surface materials. Phobos' density is too low to be pure rock, however, and it is known to have significant porosity. These results led to the suggestion that Phobos might contain a substantial reservoir of ice. Spectral observations have ruled out the presence of water on the surface.

Phobos is highly nonspherical, with dimensions of 27 × 21.6 × 18.8 km. Because of its shape alone, the gravity on its surface varies by about 210%; the tidal forces raised by Mars more than double this variation (to about 450%) because they compensate for a little more than half of Phobos' gravity at its sub- and anti-Mars poles.

Mass of Phobos: 10.6 x 1015 kg

Phobos' orbit has an eccentricity of 0.0151 with an apoareion of 9518.8km.[1]

The Soviet spacecraft Phobos 2 reported a faint but steady release of dust particles from Phobos, but the spacecraft failed before it could determine the nature of the material.[2] Recent images from Mars Global Surveyor indicate that Phobos is covered with a layer of fine-grained regolith at least 100 metres thick; it is believed to have been created by impacts from other bodies, but it is not known how the material stuck to an object with almost no gravity.

Danger for Future Mars Colonists

The orbit of Phobos is not constant. Tidal forces consume a certain amount of energy and lead to an annual loss in height of about 18 mm. Eventually, in about 50 million years, the moon is expected to break up. The debris will be slowed by the thin air, and larger fragments might drop onto the surface, destroying equatorial colonies. (Note that this is ~250 times longer than humans have been a species, so we will be doing VERY well, if we are on Mars in 50 million years.) But there are concepts to mitigate the threat.

It is likely that Phobos will break up into a planetary ring once its orbit reaches the Roche Limit at about 7000km.

If Mars had Earth's gravity, its atmosphere would be more tightly compressed, and held closer to the planet. However, Mars' gravity is 38% of Earths, so Mars' atmosphere is 'puffier', extending further into space. As Phobos' orbit decays, atmospheric friction (currently almost zero) will slowly increase.

Mining Phobos

If Phobos does indeed contain volatiles, it could be mined for use by settlements on Mars, Luna, or Earth orbit. Sale of Phobos resources could be an important part of interplanetary commerce. Since it is already at Mars' orbital velocity, it would take much less delta vee, to move these resources to the Asteroids, Luna, or Earth orbit than from Mars itself.

Phobos Photos

  • There is good imagery at http://mars.jpl.nasa.gov/mro/gallery/press/20080409a.html . As the commentary states, there are obvious crater chains on Phobos. It is suggested that these roughly straight line chains may have been caused when debris from an impact on Mars later hit Phobos. Researchers maintain such a hypothesis in a scholarly paper.[3] They refer to raised rims on craters in the crater chains as supporting evidence, but the photographic evidence of such raised rims is less than compelling.
  • Here is a suggestion from outside NASA. Phobos may be composed to a considerable extent of volatile solids. Stress concentration along a line caused some flow of material along a line causing that material to be preferentially exposed to the vacuum of space. In the course of a billion and more years enough material along that line sublimed away to cause the collapse of overlying material, leaving craters on the surface. This linear irregularity caused neighboring linear stress concentrations resulting in further subsidence and other linear crater chains. A lack of raised rims around craters forming the grooves would be consistent with craters formed by subsidence.

References