Difference between revisions of "April 23, 2004"

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=Magnetic Moon=
 
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      <td width="50%"><h2 align="left">Magnetic Moon</h2></td>
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  <td width="50%"><h2 align="right">April  23, 2004</h2></td>
 
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<IMG SRC="images/LPOD-2004-04-23.jpeg" NAME="main_image" width="561" height="423" border="0"></div>
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[[File:LPOD-2004-04-23.jpeg|LPOD-2004-04-23.jpeg]]</div>
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      <td><div align="center" span class="main_sm">Image Credit:  [mailto:jazzman@ssl.berkeley.edu Jasper Halekas]</div></td>
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<td><div align="center"><p>Image Credit:  [mailto:jazzman@ssl.berkeley.edu Jasper Halekas]</p></div></td>
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<p class="story" align="center"><b>Magnetic Moon </b></p>
  <p class="story" align="center"><b>Magnetic Moon </b></p>
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<p class="story" align="left">The Moon lacks a dynamic magnetic field, but does possess remanent magnetization locked in when lunar rocks cooled and solidified billions
 
+
of years ago. In 1998 the Lunar Prospector (LP) spacecraft collected 400,000 measurements of lunar magnetization - enough to make the first global map of surface magnetic
  <p class="story" align="left">The Moon lacks a dynamic magnetic field, but does possess remanent magnetization locked in when lunar rocks cooled and solidified billions
+
field strength. The map shows an index of field strength called the electron reflection coefficient, R. Small values of R (purple to blue) correspond to small magnetic  
  of years ago. In 1998 the Lunar Prospector (LP) spacecraft collected 400,000 measurements of lunar magnetization - enough to make the first global map of surface magnetic
+
fields, and high Rs (red and orange) map high magnetic fields. The much more extensive LP data confirms Apollo results showing that the lunar surface is variably magnetized.
    field strength. The map shows an index of field strength called the electron reflection coefficient, R. Small values of R (purple to blue) correspond to small magnetic  
+
Impact basins themselves are only weakly magnetized, but the antipodal areas to the basins are strongly magnetized. This is not obvious here since the antipodes of most  
fields, and high Rs (red and orange) map high magnetic fields. The much more extensive LP data confirms Apollo results showing that the lunar surface is variably magnetized.
+
large basins are on the farside. Apollo data discovered two strong magnetic fields Reiner Gamma ([[February_2,_2004|LPOD Feb. 2]]) and the Sirsalis Rille,  
Impact basins themselves are only weakly magnetized, but the antipodal areas to the basins are strongly magnetized. This is not obvious here since the antipodes of most  
+
and LP adds another localized strong field at 80W, 10S. The Sirsalis anomaly nicely overlays part of the rille and has been interpreted as the magnetic signature of a  
large basins are on the farside. Apollo data discovered two strong magnetic fields Reiner Gamma [[../02/LPOD-2004-02-02.htm LPOD Feb. 2]] and the Sirsalis Rille,  
+
magmatic dike (linear igneous intrusion) that underlies the rille. Other localized strong anomalies are visible between Imbrium and Nectaris. It is possible that all  
and LP adds another localized strong field at 80W, 10S. The Sirsalis anomaly nicely overlays part of the rille and has been interpreted as the magnetic signature of a  
+
these anomalies are somehow related to basin ejecta from Orientale, Imbrium and Nectaris, but the mechanism is unknown.
magmatic dike (linear igneous intrusion) that underlies the rille. Other localized strong anomalies are visible between Imbrium and Nectaris. It is possible that all  
+
</p>
these anomalies are somehow related to basin ejecta from Orientale, Imbrium and Nectaris, but the mechanism is unknown.
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<blockquote>
</p>
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<p align="right" class="story">&#8212; [mailto:tychocrater@yahoo.com Chuck Wood]</p>
  <blockquote>
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</blockquote>  <p><b>Technical Details:</b><br>
    <p align="right" class="story">&#8212; [mailto:chuck@observingthesky.org Chuck Wood]</p>
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North-south striping in Imbrium and other places is artifacts. White circles are outlines of basins and irregular white contour separates mare from highlands. Data and interpretation comes from the linked reference below.</p>
  </blockquote>  <p><b>Technical Details:</b><br>
+
<p class="story"><b>Related Links:</b><br>
 
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[http://www.lpi.usra.edu/meetings/lpsc2000/pdf/1435.pdf Strong Magnetic Anomalies]</p>
  North-south striping in Imbrium and other places is artifacts. White circles are outlines of basins and irregular white contour separates mare from highlands. Data and interpretation comes from the linked reference below.</p>
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<p><b>Yesterday's LPOD:</b> [[April 22, 2004|Earth Day]] </p>
 
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<p><b>Tomorrow's LPOD:</b> [[April 24, 2004|The Star of Astronomy Night]] </p>
  <p class"story"><b>Related Links:</b><br>
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</td>
[http://www.lpi.usra.edu/meetings/lpsc2000/pdf/1435.pdf Strong Magnetic Anomalies]</p>
 
 
 
  <p class"story"> <b>Tomorrow's LPOD:</b> Ortho Atlas</p>
 
 
 
  <p><img src="../../../MainPage/spacer.gif" width="640" height="1"></p>
 
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<p align="center" class="main_titles"><b>Author & Editor:</b><br>
  <p align="center" class="main_titles"><b>Author & Editor:</b><br>
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[mailto:tychocrater@yahoo.com Charles A. Wood]</p>
      [mailto:chuck@observingthesky.org Charles A. Wood]</p>
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<!-- Cleanup of credits -->
      <p align="center" class="main_titles"><b>Technical Consultant:</b><br>
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<!-- Cleanup of credits -->
      [mailto:anthony@perseus.gr Anthony Ayiomamitis]</p>
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<!-- Cleanup of credits -->
      <p align="center" class="main_titles"><b>[mailto:webmaster@entropysponge.com Contact Webmaster]</b></p>
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<!-- Cleanup of credits -->
      <p align="center" class="main_titles"><b>A service of:</b><br>
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<!-- Cleanup of credits -->
      <a class="one" href="http://www.observingthesky.org/">ObservingTheSky.Org</a></p>
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<!-- Cleanup of credits -->
      <p align="center" class="main_titles"><b>Visit these other PODs:</b> <br>
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<!-- Cleanup of credits -->
      <a class="one" href="http://antwrp.gsfc.nasa.gov/apod/astropix.html">Astronomy</a> | <a class="one" href="http://www.msss.com/">Mars</a> | <a class="one" href="http://epod.usra.edu/">Earth</a></p>
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<p>&nbsp;</p>
  <p>&nbsp;</p>
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Latest revision as of 19:15, 7 February 2015

Magnetic Moon

LPOD-2004-04-23.jpeg

Image Credit: Jasper Halekas

Magnetic Moon

The Moon lacks a dynamic magnetic field, but does possess remanent magnetization locked in when lunar rocks cooled and solidified billions of years ago. In 1998 the Lunar Prospector (LP) spacecraft collected 400,000 measurements of lunar magnetization - enough to make the first global map of surface magnetic field strength. The map shows an index of field strength called the electron reflection coefficient, R. Small values of R (purple to blue) correspond to small magnetic fields, and high Rs (red and orange) map high magnetic fields. The much more extensive LP data confirms Apollo results showing that the lunar surface is variably magnetized. Impact basins themselves are only weakly magnetized, but the antipodal areas to the basins are strongly magnetized. This is not obvious here since the antipodes of most large basins are on the farside. Apollo data discovered two strong magnetic fields Reiner Gamma (LPOD Feb. 2) and the Sirsalis Rille, and LP adds another localized strong field at 80W, 10S. The Sirsalis anomaly nicely overlays part of the rille and has been interpreted as the magnetic signature of a magmatic dike (linear igneous intrusion) that underlies the rille. Other localized strong anomalies are visible between Imbrium and Nectaris. It is possible that all these anomalies are somehow related to basin ejecta from Orientale, Imbrium and Nectaris, but the mechanism is unknown.

Chuck Wood

Technical Details:
North-south striping in Imbrium and other places is artifacts. White circles are outlines of basins and irregular white contour separates mare from highlands. Data and interpretation comes from the linked reference below.

Related Links:
Strong Magnetic Anomalies

Yesterday's LPOD: Earth Day

Tomorrow's LPOD: The Star of Astronomy Night

Author & Editor:
Charles A. Wood

 

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