Difference between revisions of "June 6, 2010"

From LPOD
Jump to: navigation, search
Line 3: Line 3:
 
<!-- ws:start:WikiTextHeadingRule:1:&lt;h1&gt; -->
 
<!-- ws:start:WikiTextHeadingRule:1:&lt;h1&gt; -->
 
<!-- ws:start:WikiTextLocalImageRule:16:&lt;img src=&quot;/file/view/LPOD-June6-10.jpg/147171611/LPOD-June6-10.jpg&quot; alt=&quot;&quot; title=&quot;&quot; /&gt; -->[[File:LPOD-June6-10.jpg|LPOD-June6-10.jpg]]<!-- ws:end:WikiTextLocalImageRule:16 --><br />
 
<!-- ws:start:WikiTextLocalImageRule:16:&lt;img src=&quot;/file/view/LPOD-June6-10.jpg/147171611/LPOD-June6-10.jpg&quot; alt=&quot;&quot; title=&quot;&quot; /&gt; -->[[File:LPOD-June6-10.jpg|LPOD-June6-10.jpg]]<!-- ws:end:WikiTextLocalImageRule:16 --><br />
<em>Stefan Lammel (left) and LRO (right) from [http://lroc.sese.asu.edu/news/index.php?/archives/235-Mare-Humboldtianum-Constellation-region-of-interest.html#extended" rel="nofollow Feature of Interest] [NASA/GSFC/Arizona State University].</em><br />
+
<em>Stefan Lammel (left) and LRO (right) from [http://lroc.sese.asu.edu/news/index.php?/archives/235-Mare-Humboldtianum-Constellation-region-of-interest.html#extended Feature of Interest] [NASA/GSFC/Arizona State University].</em><br />
 
<br />
 
<br />
A year ago Stefan delighted LPOD viewers with a great [/June+3%2C+2009 view] into the Humboldtianum Basin. An excerpt of that image (left) provides context for the best high resolution view in existence for part of the basin floor (right). This 57 km wide piece of a LRO Wide Angle Camera image provides enough resolution to interpret parts of the history of the mare fill. The shadowed curved mountains at bottom left are part of the Humboldtianum Basin inner ring that I have called the [http://www.lpod.org/archive/LPOD-2004-10-30.htm" rel="nofollow Bishop Mountains] rim. At top right is a 27 km wide flooded crater that lacks a designation. It needs one because it is interesting and will be talked about. It appears to have been a standard small complex crater that was surrounded and infilled by Humboldtianum's mare lavas. What is remarkable are the linear depressions on its floor. These aren't crater chains, nor normal rilles, but seem like they could be push ups and pull aparts of the cooled magma. The longest one on the left has an upraised edge like some of the circumferential rilles in [http://www.lpod.org/?m=20060310" rel="nofollow Pitatus]; maybe these should be called puckered rilles. Unlike the Pitatus examples these are not concentric and thus aren't as likely to be due to subsidence. Ignore the arrow which points to the area of a high resolution LRO [http://lroc.sese.asu.edu/news/index.php?/archives/235-Mare-Humboldtianum-Constellation-region-of-interest.html#extended" rel="nofollow image], but look where the mare meets the basin edge northwest of the arrow. There appears to be a small mare ridge where the mare and rim meet. I wonder if this is a fold formed when the mare lava ran up against high ground and could go any further but was still pushed by lava. Three more quick things and then you can return to your Sunday morning breakfast: (1) Note the submerged crater at the north end of the ridge - its rim casts a half-round shadow. (2) What is the source of the long chain of very small craters at the bottom of the large unnamed crater? (3) Notice the concentration of craters along the right side of the floor of the unnamed crater? That must be a piece of older floor material. OK, pass the pancakes, please.<br />
+
A year ago Stefan delighted LPOD viewers with a great [/June+3%2C+2009 view] into the Humboldtianum Basin. An excerpt of that image (left) provides context for the best high resolution view in existence for part of the basin floor (right). This 57 km wide piece of a LRO Wide Angle Camera image provides enough resolution to interpret parts of the history of the mare fill. The shadowed curved mountains at bottom left are part of the Humboldtianum Basin inner ring that I have called the [http://www.lpod.org/archive/LPOD-2004-10-30.htm Bishop Mountains] rim. At top right is a 27 km wide flooded crater that lacks a designation. It needs one because it is interesting and will be talked about. It appears to have been a standard small complex crater that was surrounded and infilled by Humboldtianum's mare lavas. What is remarkable are the linear depressions on its floor. These aren't crater chains, nor normal rilles, but seem like they could be push ups and pull aparts of the cooled magma. The longest one on the left has an upraised edge like some of the circumferential rilles in [http://www.lpod.org/?m=20060310 Pitatus]; maybe these should be called puckered rilles. Unlike the Pitatus examples these are not concentric and thus aren't as likely to be due to subsidence. Ignore the arrow which points to the area of a high resolution LRO [http://lroc.sese.asu.edu/news/index.php?/archives/235-Mare-Humboldtianum-Constellation-region-of-interest.html#extended image], but look where the mare meets the basin edge northwest of the arrow. There appears to be a small mare ridge where the mare and rim meet. I wonder if this is a fold formed when the mare lava ran up against high ground and could go any further but was still pushed by lava. Three more quick things and then you can return to your Sunday morning breakfast: (1) Note the submerged crater at the north end of the ridge - its rim casts a half-round shadow. (2) What is the source of the long chain of very small craters at the bottom of the large unnamed crater? (3) Notice the concentration of craters along the right side of the floor of the unnamed crater? That must be a piece of older floor material. OK, pass the pancakes, please.<br />
 
<br />
 
<br />
<em>[mailto:tychocrater@yahoo.com" rel="nofollow Chuck Wood]</em><br />
+
<em>[mailto:tychocrater@yahoo.com Chuck Wood]</em><br />
 
<br />
 
<br />
 
<strong>Related Links</strong><br />
 
<strong>Related Links</strong><br />
 
Rükl plate [http://the-moon.wikispaces.com/R%C3%BCkl+7 7]<br />
 
Rükl plate [http://the-moon.wikispaces.com/R%C3%BCkl+7 7]<br />
The best Lunar Orbiter [http://www.lpi.usra.edu/resources/lunar_orbiter/images/img/iv_165_h1.jpg" rel="nofollow view]<br />
+
The best Lunar Orbiter [http://www.lpi.usra.edu/resources/lunar_orbiter/images/img/iv_165_h1.jpg view]<br />
 
<br />
 
<br />
 
<hr />
 
<hr />
<div>You can support LPOD when you buy any book from Amazon thru [http://www.lpod.org/?page_id=591" rel="nofollow LPOD!]<br />
+
<div>You can support LPOD when you buy any book from Amazon thru [http://www.lpod.org/?page_id=591 LPOD!]<br />
 
</div>
 
</div>
 
----
 
----
 
===COMMENTS?===  
 
===COMMENTS?===  
Click on this icon [[image:PostIcon.jpg]] at the upper right to post a comment.
+
Register, and click on the <b>Discussion</b> tab at the top of the page.

Revision as of 16:20, 11 January 2015

Breakfast Tales

LPOD-June6-10.jpg
Stefan Lammel (left) and LRO (right) from Feature of Interest [NASA/GSFC/Arizona State University].

A year ago Stefan delighted LPOD viewers with a great [/June+3%2C+2009 view] into the Humboldtianum Basin. An excerpt of that image (left) provides context for the best high resolution view in existence for part of the basin floor (right). This 57 km wide piece of a LRO Wide Angle Camera image provides enough resolution to interpret parts of the history of the mare fill. The shadowed curved mountains at bottom left are part of the Humboldtianum Basin inner ring that I have called the Bishop Mountains rim. At top right is a 27 km wide flooded crater that lacks a designation. It needs one because it is interesting and will be talked about. It appears to have been a standard small complex crater that was surrounded and infilled by Humboldtianum's mare lavas. What is remarkable are the linear depressions on its floor. These aren't crater chains, nor normal rilles, but seem like they could be push ups and pull aparts of the cooled magma. The longest one on the left has an upraised edge like some of the circumferential rilles in Pitatus; maybe these should be called puckered rilles. Unlike the Pitatus examples these are not concentric and thus aren't as likely to be due to subsidence. Ignore the arrow which points to the area of a high resolution LRO image, but look where the mare meets the basin edge northwest of the arrow. There appears to be a small mare ridge where the mare and rim meet. I wonder if this is a fold formed when the mare lava ran up against high ground and could go any further but was still pushed by lava. Three more quick things and then you can return to your Sunday morning breakfast: (1) Note the submerged crater at the north end of the ridge - its rim casts a half-round shadow. (2) What is the source of the long chain of very small craters at the bottom of the large unnamed crater? (3) Notice the concentration of craters along the right side of the floor of the unnamed crater? That must be a piece of older floor material. OK, pass the pancakes, please.

Chuck Wood

Related Links
Rükl plate 7
The best Lunar Orbiter view


You can support LPOD when you buy any book from Amazon thru LPOD!

COMMENTS?

Register, and click on the Discussion tab at the top of the page.