Ge/Ay133 What can the asteroid belt tell us about the early S.S.? ? 433 Eros Phobos.
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Transcript of Ge/Ay133 What can the asteroid belt tell us about the early S.S.? ? 433 Eros Phobos.
Ge/Ay133
What can the asteroid belt tell us about the early S.S.?
?
433 Eros
Phobos
These types are not strongly separated, radially.
See also http://www.ifa.hawaii.edu/~hsieh/mbcs.html
Comets are icy bodies that sublimate and become active when close to the Sun. They are believed to originate in two cold reservoirs beyond the orbit of Neptune: the Kuiper Belt (equilibrium temperatures of ~40 kelvin) and the Oort Cloud (~ 10 kelvin). We
present optical data showing the existence of a population of comets originating in a third reservoir: the main asteroid belt. The main-belt comets are unlike the Kuiper Belt and Oort Cloud comets in that they likely formed where they currently reside
and may be collisionally activated. The existence of the main-belt comets lends new support to the idea that main-belt objects could be a major source of terrestrial water.
Asteroid Itokawa as imaged by the Hayabusa probe.
http://www.isas.jaxa.jp/e/snews/2005/1102.shtml
Collisions II
How do we measure rotation states?
•Lightcurves (lots of objects)•Radar measurements (NEOs)•Spacecraft exploration
Toutatis Radar Image
What do simulations tell us about the asteroid belt?
Jupiter inserted at 10 Myr
Hard to generate observed properties with just Jupiter & planetesimals or single large core, need mixture:
Radial mixing extends over several 0.1 AU
May help explain the spatial overlap of the various types?
What about the large fraction of bodies that are strongly scattered?
What determines the water content of the inner S.S.?
D/H ratios argue that comets did not deliver the bulk of the water…
Suppose there is an initial snow line… What happens?
In such a story, the orbital properties of Jupiter are critical…
What sort of systems emerge?
Hierachical (most mass added in large collisions), so great variety, both in orbital properties…
… and ultimate water content.
Question for later:What determines whether a planet is “habitable”? How much can the water vary?
What is the maximum eccentricity for which liquid water can be maintained over several AE?