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Astronomy 340 Fall 2005 27 October 2005 Class #???

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1 Astronomy 340 Fall 2005 27 October 2005 Class #???

2 Asteroids Ida Phobos

3 Asteroid Distribution - orbit Note concentrations in various regions of the plot Each clump is an asteroid “family” Major families  Main belt (Mars-Jupiter)  Trojans  Near-Earths

4 Distribution – SDSS results 200,000 asteroids – Ivezic et al. 2002

5

6 Size Distribtion Power law N(R) = N 0 (R/R 0 ) -p Theory says p = 3.5  based on collisionally dominated size distribution Ivezic et al. 2000  p=2.3 +/- 0.05 for size distribution of 0.4-5.0km  main belt asteroids  Derived from SDSS data

7 Collisions Collisions  numerical simulations  100-200 km diameter progenitors Limits?  Surface ages  Vesta’s surface looks primordial, but it has a large impact crater

8 simulation

9 Asteroid Composition How do you measure asteroid compositions?  Reflection spectroscopy Comparison with meteorites

10 Asteroid Composition - colors Jedicke et al. 2004  results indicate “space weathering”

11 Comparison with meteorite samples Points are real data, line is reflection spectrum of sample

12 Composition-results 75% of asteroids are dark  Look like “carbonaceous chondrites”  Most of these are “hydrated”  heated in past so that minerals mixed with liquid water 12% are “stony irons”  Fe silicates M-type albedos  pure Ni/Fe, no silicate absorption features …and now onto giant planets…

13 Giant Planets – issues Basics  Interior structure (is there something solid?) Sources of heat Magnetic fields  Composition – deviations from solar?  Atmospheric physics What accounts for the colors? Can the giant planet systems be considered “mini-solar systems?”  Ring systems  Extensive satellite systems Cool Moons  Io, Europa, Titan, Triton Formation  How long does it take to form a gas giant?  How did they get there?

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