Difference between revisions of "October 11, 2018"

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<em>left image by [mailto:kkalimaftsis@yahoo.com Kostas Kalimaftsis,] Thessaloniki, Greece; right image from Clementine</em><br />
 
<em>left image by [mailto:kkalimaftsis@yahoo.com Kostas Kalimaftsis,] Thessaloniki, Greece; right image from Clementine</em><br />
 
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In 1963 the Lunar and Planetary Lab published the [https://the-moon.us/wiki/Rectified+Lunar+Atlas Rectified Lunar Atlas] which showed what the limb regions of the Moon looked like with most of the distortions due to extreme foreshortening removed. That required projecting a terrestrial image of a lunar limb region onto a large white globe and re-photographing it from a position above the limb. Now, amateurs can use software - in this case, PlanetWarp - to digitally cancel foreshortening. Probably all limb images should be rectified to improve our ability to interpret the surface. Let's see what we can observe on Kostas' image acquired during a recent favorable libration. First, orient yourself. The South Pole is at the bottom right of the image, and Newton and its cascade of lettered craters are near top right. The rectification process exaggerates the limbward walls of craters near the image edge - notice the unequal widths of Drygalski's walls. To the southwest of Newton A the Sun angle of Kostas' image reveals a secondary crater chain or some other type of linear depression that doesn't show up at all in the Clementine mosaic. And both images also document the strange smooth area named Casatus E, near the middle of the scene. Since there is no spectral evidence for volcanism this far south, presumably this patch, like the floor of Newton G and other craters is veneered with ejecta from the formation of the Orientale Basin.<br />
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In 1963 the Lunar and Planetary Lab published the [https://the-moon.us/wiki/Rectified_Lunar_Atlas Rectified Lunar Atlas] which showed what the limb regions of the Moon looked like with most of the distortions due to extreme foreshortening removed. That required projecting a terrestrial image of a lunar limb region onto a large white globe and re-photographing it from a position above the limb. Now, amateurs can use software - in this case, PlanetWarp - to digitally cancel foreshortening. Probably all limb images should be rectified to improve our ability to interpret the surface. Let's see what we can observe on Kostas' image acquired during a recent favorable libration. First, orient yourself. The South Pole is at the bottom right of the image, and Newton and its cascade of lettered craters are near top right. The rectification process exaggerates the limbward walls of craters near the image edge - notice the unequal widths of Drygalski's walls. To the southwest of Newton A the Sun angle of Kostas' image reveals a secondary crater chain or some other type of linear depression that doesn't show up at all in the Clementine mosaic. And both images also document the strange smooth area named Casatus E, near the middle of the scene. Since there is no spectral evidence for volcanism this far south, presumably this patch, like the floor of Newton G and other craters is veneered with ejecta from the formation of the Orientale Basin.<br />
 
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<em>[mailto:tychocrater@yahoo.com Chuck Wood]</em><br />
 
<em>[mailto:tychocrater@yahoo.com Chuck Wood]</em><br />

Revision as of 04:31, 11 October 2018

South Pole Unwarped

Originally published July 28, 2009 LPOD-July28-09.jpg
left image by Kostas Kalimaftsis, Thessaloniki, Greece; right image from Clementine

In 1963 the Lunar and Planetary Lab published the Rectified Lunar Atlas which showed what the limb regions of the Moon looked like with most of the distortions due to extreme foreshortening removed. That required projecting a terrestrial image of a lunar limb region onto a large white globe and re-photographing it from a position above the limb. Now, amateurs can use software - in this case, PlanetWarp - to digitally cancel foreshortening. Probably all limb images should be rectified to improve our ability to interpret the surface. Let's see what we can observe on Kostas' image acquired during a recent favorable libration. First, orient yourself. The South Pole is at the bottom right of the image, and Newton and its cascade of lettered craters are near top right. The rectification process exaggerates the limbward walls of craters near the image edge - notice the unequal widths of Drygalski's walls. To the southwest of Newton A the Sun angle of Kostas' image reveals a secondary crater chain or some other type of linear depression that doesn't show up at all in the Clementine mosaic. And both images also document the strange smooth area named Casatus E, near the middle of the scene. Since there is no spectral evidence for volcanism this far south, presumably this patch, like the floor of Newton G and other craters is veneered with ejecta from the formation of the Orientale Basin.

Chuck Wood

Technical Details
July 15th 2009, 03.00 UT. SkyWatcher Mak180 & Canon 450D, 1.6x barlow, 17 jpegs on Registax, edited on Gimp. Rectified with PlanetWarp.

Related Links
Rükl plates 72 & 73
Kostas' original, pre-rectified image.

Yesterday's LPOD: Rilles - a New Look

Tomorrow's LPOD: Rules for Rilles



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