Difference between revisions of "June 12, 2009"

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=Butterfly Wings & Railway Tracks=
 
=Butterfly Wings & Railway Tracks=
 
 
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<em>image by [mailto:swalker@skyandtelescope.com Sean Walker], New Hampshire</em><br />
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<em>image by [mailto:swalker@skyandtelescope.com" rel="nofollow Sean Walker], New Hampshire</em><br />
 
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The Messier craters often have been discussed in terms of their peculiar shapes, but Sean's great image emphasizes the equally peculiar rays. Messier, the eastmost elongated crater with a narrow ridge down its middle, has rays that radiate out to the north and south sides. These are among the most unusual rays from any oblique impact crater. For normal oblique impacts the rays splay out in a complete forward arc, with a V-shaped zone of avoidance in the direction the projectile came from. The railway track-like rays from Messier A (on the left) are exactly what would be expected for a very low angle impact - collimated straight ahead in the downrange direction. So the rays from A are consistent with the interpretation that the projectile came from the east at an angle of only a few degrees above horizontal. And Messier's butterfly wing rays indicate that, for some reason, pulverized ejecta was thrown out sideways even while the main mass of ejecta continued downrange. As an aside, we can hope to see downrange rays when we get hyper-resolution images of the Kaguya impact site because the spacecraft skimmed into the surface at only a 10° angle.<br />
 
The Messier craters often have been discussed in terms of their peculiar shapes, but Sean's great image emphasizes the equally peculiar rays. Messier, the eastmost elongated crater with a narrow ridge down its middle, has rays that radiate out to the north and south sides. These are among the most unusual rays from any oblique impact crater. For normal oblique impacts the rays splay out in a complete forward arc, with a V-shaped zone of avoidance in the direction the projectile came from. The railway track-like rays from Messier A (on the left) are exactly what would be expected for a very low angle impact - collimated straight ahead in the downrange direction. So the rays from A are consistent with the interpretation that the projectile came from the east at an angle of only a few degrees above horizontal. And Messier's butterfly wing rays indicate that, for some reason, pulverized ejecta was thrown out sideways even while the main mass of ejecta continued downrange. As an aside, we can hope to see downrange rays when we get hyper-resolution images of the Kaguya impact site because the spacecraft skimmed into the surface at only a 10° angle.<br />
 
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<em>[mailto:tychocrater@yahoo.com Chuck Wood]</em><br />
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<em>[mailto:tychocrater@yahoo.com" rel="nofollow Chuck Wood]</em><br />
 
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<strong>Technical Details</strong><br />
 
<strong>Technical Details</strong><br />

Revision as of 19:09, 4 January 2015

Butterfly Wings & Railway Tracks

LPOD-June12-09.jpg
image by " rel="nofollow Sean Walker, New Hampshire

The Messier craters often have been discussed in terms of their peculiar shapes, but Sean's great image emphasizes the equally peculiar rays. Messier, the eastmost elongated crater with a narrow ridge down its middle, has rays that radiate out to the north and south sides. These are among the most unusual rays from any oblique impact crater. For normal oblique impacts the rays splay out in a complete forward arc, with a V-shaped zone of avoidance in the direction the projectile came from. The railway track-like rays from Messier A (on the left) are exactly what would be expected for a very low angle impact - collimated straight ahead in the downrange direction. So the rays from A are consistent with the interpretation that the projectile came from the east at an angle of only a few degrees above horizontal. And Messier's butterfly wing rays indicate that, for some reason, pulverized ejecta was thrown out sideways even while the main mass of ejecta continued downrange. As an aside, we can hope to see downrange rays when we get hyper-resolution images of the Kaguya impact site because the spacecraft skimmed into the surface at only a 10° angle.

" rel="nofollow Chuck Wood

Technical Details
5/31/2009, 0:13 UT. C-14 at f/22, DMK-21AU04.AS camera, Baader IR-Pass filter. Stack of 476 frames out of 3000, processed in AviStack, MaxIm DL, and Adobe Photoshop

Related Links
Rükl plate 48