https://www2.lpod.org/index.php?title=September_13,_2018&feed=atom&action=historySeptember 13, 2018 - Revision history2024-03-29T15:27:43ZRevision history for this page on the wikiMediaWiki 1.31.1https://www2.lpod.org/index.php?title=September_13,_2018&diff=41848&oldid=prevApi: Created page with "__NOTOC__ =A Giant Messier= Originally published July 1, 2009 <!-- Start of content --> <!-- ws:start:WikiTextHeadingRule:2:<h1> --> <!-- ws:start:WikiTextLocalImag..."2018-09-13T08:04:31Z<p>Created page with "__NOTOC__ =A Giant Messier= Originally published July 1, 2009 <!-- Start of content --> <!-- ws:start:WikiTextHeadingRule:2:<h1> --> <!-- ws:start:WikiTextLocalImag..."</p>
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=A Giant Messier=<br />
Originally published July 1, 2009<br />
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<em>image by [mailto:tbash@ptd.net Tom Bash]</em><br /><br />
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Schiller is bizarrely unique and has long been a topic of speculation and bewilderment. The problem with Schiller is obvious - craters are round, but Schiller definitely isn't. Because of its elongated shape, it was often claimed that Schiller could not be of impact origin and must be volcanic. But, volcanist were wrong again. And they were wrong for a good reason - who could have imaged that an impact event could produce something as [[October_17,_2004|non-circular]] as Schiller? The clue came from high speed-impact cratering experiments at NASA Ames Research Center in California in the 1970s. Vertical impact experiments by Don Gault and colleagues had recreated lunar crater shapes, central peaks and even ejecta deposits. But when the experimenters made oblique impacts they discovered dramatic changes in crater geometry. They were able to show that the crater pair Messier and Messier A were likely produced by a ricocheting impact at an angle of less than 5 degrees. Schiller appears to be another low angle impact of a much larger projectile, at a somewhat higher angle, that made a series of elliptical, overlapping and nearly simultaneous craters. In fact, the linear ridge seen at the northern end of Schiller also appears in the Ames experiments. This good photo also illustrates a later phase of Schiller's development. The lavas that rose up inside the crater created a floor that is not quite level. A previously unknown - at least to me - broad but low diagonal plateau exists on the floor of the broadest part of Schiller. Hmm.<br /><br />
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<em>[mailto:tychocrater@yahoo.com Chuck Wood]</em><br /><br />
<em>This is a repeat of a classic LPOD from [[November_12,_2004|Nov 12, 2004]]. Another proposal is due tomorrow!</em><br /><br />
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<strong>Technical Details</strong><br /><br />
Oct 8, 2004. C9.25 + ToUcam web cam<br /><br />
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<strong>Related Links</strong><br /><br />
Rükl plate [https://the-moon.us/wiki/Rükl_71 71]<br /><br />
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<p><b>Yesterday's LPOD:</b> [[September 12, 2018|Flattening Out the Sphere]] </p><br />
<p><b>Tomorrow's LPOD:</b> [[September 14, 2018|Surfaces]] </p><br />
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