Difference between revisions of "March 25, 2005"

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    <tr><td><div align="center" class="main_sm">Image Credit: [mailto:paololazzarotti@astromeccanica.it Paolo R. Lazzarotti  ]</p>
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<tr><td><div align="center" class="main_sm">Image Credit: [mailto:paololazzarotti@astromeccanica.it Paolo R. Lazzarotti  ]</p>
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<p align="center"><b>Can You Names These Craters?</b></p>
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<p align="center"><b>Can You Names These Craters?</b></p>
<p align="left">You know the Moon. You have observed it for years, and perhaps imaged nearly every part. So which craters are these?  Probably only 1-2 percent of the nearly 2000 daily visitors to LPOD can identify the three large ones (from left to right) as Pitiscus, Vlacq and Rosenberger, near the southeastern limb. But if you don’t know these craters you should be excited, for here is yet another corner of the Moon awaiting your personal exploration. What can you say about this region and these craters? Start with the terrain between the craters – it is full of low ridges and small older craters that are nearly invisible. All three of the named craters are old enough that they show no ejecta on top of the intercrater plains. The terraces on their inner walls are virtually gone, and only relatively small central peaks rise above their floors. All three floors are flat, but there is a definite age progression as seen by the number of superposed craters on their floors. Rosenberger (diameter 96 km) has 15 easily counted floor craters, Vlacq (89 km) has about 10, and Pitiscus (82 km) has 4 or 5. All of these floors are less rugged than the intercrater plains. So a simple scenario (neglecting all the other craters) is that the big three formed on an existing plain. Some process covered the plain, including the craters on it and their ejecta deposits, with much small-scale roughness. Later smooth plains materials formed on the floors of Rosenberger, Vlacq and Pitiscus, in that sequence. Later smaller impacts cratered these floors. The ridges and roughness are probably ejecta from various impact basins, although the region is far from most basins. The smooth crater material seems to have been deposited at three different times and so could not all be the same age – as necessary if they were ejecta from a recent basin-forming event such as Orientale. Modern lunar science does not accept that these smooth floors might be some sort of non-mare type volcanic deposits, but I can’t explain them otherwise. The lack of volcanic features such as mare ridges, rilles or domes on such highland smooth plains suggests that is they are volcanic is a different style than mare volcanism.</p>
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<p align="left">You know the Moon. You have observed it for years, and perhaps imaged nearly every part. So which craters are these?  Probably only 1-2 percent of the nearly 2000 daily visitors to LPOD can identify the three large ones (from left to right) as Pitiscus, Vlacq and Rosenberger, near the southeastern limb. But if you don’t know these craters you should be excited, for here is yet another corner of the Moon awaiting your personal exploration. What can you say about this region and these craters? Start with the terrain between the craters – it is full of low ridges and small older craters that are nearly invisible. All three of the named craters are old enough that they show no ejecta on top of the intercrater plains. The terraces on their inner walls are virtually gone, and only relatively small central peaks rise above their floors. All three floors are flat, but there is a definite age progression as seen by the number of superposed craters on their floors. Rosenberger (diameter 96 km) has 15 easily counted floor craters, Vlacq (89 km) has about 10, and Pitiscus (82 km) has 4 or 5. All of these floors are less rugged than the intercrater plains. So a simple scenario (neglecting all the other craters) is that the big three formed on an existing plain. Some process covered the plain, including the craters on it and their ejecta deposits, with much small-scale roughness. Later smooth plains materials formed on the floors of Rosenberger, Vlacq and Pitiscus, in that sequence. Later smaller impacts cratered these floors. The ridges and roughness are probably ejecta from various impact basins, although the region is far from most basins. The smooth crater material seems to have been deposited at three different times and so could not all be the same age – as necessary if they were ejecta from a recent basin-forming event such as Orientale. Modern lunar science does not accept that these smooth floors might be some sort of non-mare type volcanic deposits, but I can’t explain them otherwise. The lack of volcanic features such as mare ridges, rilles or domes on such highland smooth plains suggests that is they are volcanic is a different style than mare volcanism.</p>
<blockquote><p align="right">&#8212; [mailto:tychocrater@yahoo.com Chuck Wood]</blockquote>
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<blockquote><p align="right">&#8212; [mailto:tychocrater@yahoo.com Chuck Wood]</blockquote>
 
<p align="left"><p><b>Technical Details:</b><br>
 
<p align="left"><p><b>Technical Details:</b><br>
 
Feb 27, 2005.  Planewton DL-252 + Lumenera LU075M camera + Edmund Optics R+IR spectral band filter. 500 of 4400 frames stacked.</p>
 
Feb 27, 2005.  Planewton DL-252 + Lumenera LU075M camera + Edmund Optics R+IR spectral band filter. 500 of 4400 frames stacked.</p>
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<br>Rukl Plate 75
 
<br>Rukl Plate 75
 
<p align="left"><b>Tomorrow's LPOD: </b> A Long Crater</p>
 
<p align="left"><b>Tomorrow's LPOD: </b> A Long Crater</p>
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<p align="center" class="main_titles"><b>Author &amp; Editor:</b><br>  
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<p align="center" class="main_titles"><b>Author &amp; Editor:</b><br>  
[mailto:chuck@observingthesky.org Charles A. Wood]</p>
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[mailto:tychocrater@yahoo.com Charles A. Wood]</p>
<p align="center" class="main_titles"><b>Technical Consultant:</b><br>
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<p align="center" class="main_titles"><b>Technical Consultant:</b><br>
[mailto:anthony@perseus.gr Anthony Ayiomamitis]</p>
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[mailto:anthony@perseus.gr Anthony Ayiomamitis]</p>
<p align="center" class="main_titles"><b>Contact Translator:</b><br>
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<p align="center" class="main_titles"><b>Contact Translator:</b><br>
[mailto:pablolonnie@yahoo.com.mx" class="one Pablo Lonnie Pacheco Railey]  (Es)<br>
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[mailto:pablolonnie@yahoo.com.mx" class="one Pablo Lonnie Pacheco Railey]  (Es)<br>
[mailto:chlegrand@free.fr" class="one Christian Legrand] (Fr)</p>
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[mailto:chlegrand@free.fr" class="one Christian Legrand] (Fr)</p>
<p align="center" class="main_titles"><b>[mailto:webuser@observingthesky.org Contact Webmaster]</b></p>
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<p align="center" class="main_titles"><b>[mailto:webuser@observingthesky.org Contact Webmaster]</b></p>
<p align="center" class="main_titles"><b>A service of:</b><br>
+
<p align="center" class="main_titles"><b>A service of:</b><br>
[http://www.observingthesky.org/" class="one ObservingTheSky.Org]</p>
+
[http://www.observingthesky.org/" class="one ObservingTheSky.Org]</p>
<p align="center" class="main_titles"><b>Visit these other PODs:</b> <br>
+
<p align="center" class="main_titles"><b>Visit these other PODs:</b> <br>
[http://antwrp.gsfc.nasa.gov/apod/astropix.html" class="one Astronomy] | [http://www.msss.com/" class="one Mars] | [http://epod.usra.edu/" class="one Earth]</p>
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[http://antwrp.gsfc.nasa.gov/apod/astropix.html" class="one Astronomy] | [http://www.msss.com/" class="one Mars] | [http://epod.usra.edu/" class="one Earth]</p>
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<p>&nbsp;</p>
 
<p>&nbsp;</p>
 
 
 
 
 
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===COMMENTS?===  
 
===COMMENTS?===  
 
Click on this icon [[image:PostIcon.jpg]] at the upper right to post a comment.
 
Click on this icon [[image:PostIcon.jpg]] at the upper right to post a comment.

Revision as of 17:30, 4 January 2015

Can You Names These Craters?

<nobr>Can You Names These Craters?</nobr>

<img src="archive/2005/03/images/LPOD-2005-03-25.jpeg" border="0">

Image Credit: Paolo R. Lazzarotti


Can You Names These Craters?

You know the Moon. You have observed it for years, and perhaps imaged nearly every part. So which craters are these? Probably only 1-2 percent of the nearly 2000 daily visitors to LPOD can identify the three large ones (from left to right) as Pitiscus, Vlacq and Rosenberger, near the southeastern limb. But if you don’t know these craters you should be excited, for here is yet another corner of the Moon awaiting your personal exploration. What can you say about this region and these craters? Start with the terrain between the craters – it is full of low ridges and small older craters that are nearly invisible. All three of the named craters are old enough that they show no ejecta on top of the intercrater plains. The terraces on their inner walls are virtually gone, and only relatively small central peaks rise above their floors. All three floors are flat, but there is a definite age progression as seen by the number of superposed craters on their floors. Rosenberger (diameter 96 km) has 15 easily counted floor craters, Vlacq (89 km) has about 10, and Pitiscus (82 km) has 4 or 5. All of these floors are less rugged than the intercrater plains. So a simple scenario (neglecting all the other craters) is that the big three formed on an existing plain. Some process covered the plain, including the craters on it and their ejecta deposits, with much small-scale roughness. Later smooth plains materials formed on the floors of Rosenberger, Vlacq and Pitiscus, in that sequence. Later smaller impacts cratered these floors. The ridges and roughness are probably ejecta from various impact basins, although the region is far from most basins. The smooth crater material seems to have been deposited at three different times and so could not all be the same age – as necessary if they were ejecta from a recent basin-forming event such as Orientale. Modern lunar science does not accept that these smooth floors might be some sort of non-mare type volcanic deposits, but I can’t explain them otherwise. The lack of volcanic features such as mare ridges, rilles or domes on such highland smooth plains suggests that is they are volcanic is a different style than mare volcanism.

Chuck Wood

Technical Details:
Feb 27, 2005. Planewton DL-252 + Lumenera LU075M camera + Edmund Optics R+IR spectral band filter. 500 of 4400 frames stacked.

Related Links:
Broader View
Rukl Plate 75

Tomorrow's LPOD: A Long Crater



Author & Editor:
Charles A. Wood

Technical Consultant:
Anthony Ayiomamitis

Contact Translator:
" class="one Pablo Lonnie Pacheco Railey (Es)
" class="one Christian Legrand (Fr)

Contact Webmaster

A service of:
" class="one ObservingTheSky.Org

Visit these other PODs:
" class="one Astronomy | " class="one Mars | " class="one Earth

 


COMMENTS?

Click on this icon File:PostIcon.jpg at the upper right to post a comment.