Angle of repose-limited shapes of asteroids Paul Withers Fall 1999 Surfaces Project with Jay Melosh 3rd LPLC – 24 May 2000.

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Angle of repose-limited shapes of asteroids Paul Withers Fall 1999 Surfaces Project with Jay Melosh 3rd LPLC – 24 May 2000

Shapes of rocky bodies Large bodies (>300 km) are oblate spheroids with shape controlled by self gravity. Small bodies (<300 km) have irregular shapes controlled by material strength. Other changes as well. Icy bodies have different transition size.

Slopes on Asteroids Observed slopes are almost always < 30 o, a typical angle of repose. Consistent with “rubble pile” model for asteroids, which will support topography via frictional forces. Some steep slopes are possible.

Aim of project Create shape model for axisymmetric, homogeneous, non-rotating asteroid. Asteroid will have no slopes exceeding the angle of repose and as large a mean slope as possible. Rotation will be included later.

Justification of project In the “rubble pile” model, an angle of repose-limited shape is as far removed from a sphere as possible. It is an end-member shape whose properties (such as surface roughness and axial ratio) can be compared to observations, testing the “rubble pile” model.

Appproaches “Dripping sand” approach Iterative approach Irregular shape approach Ellipsoidal shape approach Constrained by timescale of semester project…

Iterative Approach Start with spherical shape. Calculate shape of envelope that is everywhere at the angle of repose. If envelope is close to spherical shape, can repeat using envelope as original shape until process converges. But envelope is far from original shape, so cannot iterate to solution.

Irregular Shape Approach Use constrained random walk to generate lots of different shapes. Fill shape with mass points and calculate g on each surface facet, comparing to the surface normal to find the local slope. Investigate slope values.

Irregular Shape Results Reject 153/200 shapes for having local slopes >30 o on >3 of their 19 surface facets. Exclude these “scarps” on remaining 47 shapes and calculate mean local slope. Only 5 shapes have mean local slope exceeding 15 o, none exceeding 18 o. Not very promising…

Ellipsoidal Shape Approach Both mean and maximum slope are functions solely of axial ratio. Find numerically that an axial ratio of ~0.3 gives a maximum slope of <30 o and a mean slope of 19 o. Immediately more successful than irregular shape approach. Analytical solution should be possible.

Effects of Rotation Size independent, controlled by    G. Best ellipsoidal shape always better than best irregular shape. No large changes in best mean slope for either class of shapes until rotational effects completely dominant. Best irregular shapes tended to remain best over large range of    G. Best ellipsoidal shape changes with    G, but axial ratio does not change monotonically.

Future Work More irregular shapes and other methods of generating them. Analytical study of ellipsoidal shapes. “Dripping Sand” approach

Conclusions An angle of repose-limited shape is an important end-member for possible asteroid shapes. Work to date on finding such a shape is inconclusive, though some ideas for future work are promising.