Difference between revisions of "Lunar Missions"

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|-
 
|-
 
|
 
|
[/Lunar%20Orbiter Lunar Orbiter]<br />
+
[[Lunar%20Orbiter|Lunar Orbiter]]<br />
 
| 1966-1967<br />
 
| 1966-1967<br />
 
| Series of five photographic mapping orbiters.<br />
 
| Series of five photographic mapping orbiters.<br />
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|-
 
|-
 
|
 
|
[/Apollo%20Program Apollo]<br />
+
[[Apollo%20Program|Apollo]]<br />
 
| 1968-1972<br />
 
| 1968-1972<br />
 
| Series of manned landers.<br />
 
| Series of manned landers.<br />
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| 1973<br />
 
| 1973<br />
 
|
 
|
Flyby. Returned 6 mosaics of the moon. Also returned photographs of the north polar region of the moon where prior coverage was poor. These provided a basis for cartographers to update lunar maps and improve the [/ULCN Lunar Control Network]. [2].<br />
+
Flyby. Returned 6 mosaics of the moon. Also returned photographs of the north polar region of the moon where prior coverage was poor. These provided a basis for cartographers to update lunar maps and improve the [[ULCN|Lunar Control Network]]. [2].<br />
 
|-
 
|-
 
|
 
|
[/Galileo%20spacecraft Galileo]<br />
+
[[Galileo%20spacecraft|Galileo]]<br />
 
| 1990 & 1992<br />
 
| 1990 & 1992<br />
 
| Flyby x 2. Returned multi-spectral images.<br />
 
| Flyby x 2. Returned multi-spectral images.<br />
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|-
 
|-
 
|
 
|
[/Clementine Clementine]<br />
+
[[Clementine|Clementine]]<br />
 
| 1994<br />
 
| 1994<br />
 
| Orbiter. Returned images at various wavelengths of visible, ultraviolet and infrared, laser ranging altimetry, gravimetry and charged particle measurements. This data was used to assess the surface mineralogy of the entire surface of the Moon, provide altimetry from 60N to 60S latitude, and provide gravity data for the near side.<br />
 
| Orbiter. Returned images at various wavelengths of visible, ultraviolet and infrared, laser ranging altimetry, gravimetry and charged particle measurements. This data was used to assess the surface mineralogy of the entire surface of the Moon, provide altimetry from 60N to 60S latitude, and provide gravity data for the near side.<br />
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| 2003-2006<br />
 
| 2003-2006<br />
 
|
 
|
Orbiter. Imaged the lunar surface in X-ray and infrared and from several angles to allow 3D mapping. Determined the Moon's chemical composition using X-ray spectroscopy. Used infrared light to search for ice at the Moon's south pole, where some areas of the surface are never exposed to direct sunlight. Mapped the Moon's [/Peaks%20of%20Eternal%20Light Peaks of Eternal Light].<br />
+
Orbiter. Imaged the lunar surface in X-ray and infrared and from several angles to allow 3D mapping. Determined the Moon's chemical composition using X-ray spectroscopy. Used infrared light to search for ice at the Moon's south pole, where some areas of the surface are never exposed to direct sunlight. Mapped the Moon's [[Peaks%20of%20Eternal%20Light|Peaks of Eternal Light]].<br />
 
|-
 
|-
 
|
 
|
[/Kaguya SELENE] (Kaguya)<br />
+
[[Kaguya|SELENE]] (Kaguya)<br />
 
| 2007-2009<br />
 
| 2007-2009<br />
 
| Three orbiters.<br />
 
| Three orbiters.<br />
 
|-
 
|-
 
|
 
|
[/Chang%27e-1 Chang'e-1]<br />
+
[[Chang%27e-1|Chang'e-1]]<br />
 
| 2007-2009<br />
 
| 2007-2009<br />
 
| Orbiter.<br />
 
| Orbiter.<br />
 
|-
 
|-
 
|
 
|
[/Chandrayaan-1 Chandrayaan-1]<br />
+
[[Chandrayaan-1|Chandrayaan-1]]<br />
 
| 2008-2009<br />
 
| 2008-2009<br />
 
| Orbiter and impactor.<br />
 
| Orbiter and impactor.<br />
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[http://digidownload.libero.it/glrgroup/selenologytoday13.pdf Impactor].<br />
 
[http://digidownload.libero.it/glrgroup/selenologytoday13.pdf Impactor].<br />
 
|}
 
|}
<br />  For articles in the-moon Wiki about features observed at the landing sites of the above missions see the list of [/Landing%20Sites Landing Sites].<br /> <br />  
+
<br />  For articles in the-moon Wiki about features observed at the landing sites of the above missions see the list of [[Landing%20Sites|Landing Sites]].<br /> <br />  
 
==Active Missions==
 
==Active Missions==
  
* [/LRO Lunar Reconnaissance Orbiter] (LRO) - Orbiter, launched on June 18, 2009.
+
* [[LRO|Lunar Reconnaissance Orbiter]] (LRO) - Orbiter, launched on June 18, 2009.
* [/Chang%27E-2 Chang'E-2] - Orbiter, launched on October 1, 2010
+
* [[Chang%27E-2|Chang'E-2]] - Orbiter, launched on October 1, 2010
 
<br />  
 
<br />  
 
==Planned Missions==
 
==Planned Missions==
  The most recently announced launch dates for these missions will be found [http://en.wikipedia.org/wiki/List_of_future_lunar_missions here].<br /> <br />  NASA's [/Constellation%20program Constellation program] for manned return to the Moon has been scheduled for cancellation in the most recent budget submitted to the US Congress.<br />  JAXA's [http://en.wikipedia.org/wiki/Selene-2 SELENE-2 ]mission see http://www.jspec.jaxa.jp/e/activity/selene2.html for details.<span class="membersnap">- [http://www.wikispaces.com/user/view/astrokat [[Image:astrokat-lg.jpg|16px|astrokat]]] [http://www.wikispaces.com/user/view/astrokat astrokat] <small>Jul 27, 2010</small></span><br />  Chang'e-3 scheduled for 2013 <span class="membersnap">- [http://www.wikispaces.com/user/view/astrokat [[Image:astrokat-lg.jpg|16px|astrokat]]] [http://www.wikispaces.com/user/view/astrokat astrokat] <small>Aug 21, 2010</small></span><br />  There are 29 teams competing for the google lunar prize : details can be found here; http://www.googlelunarxprize.org/<span class="membersnap">- [http://www.wikispaces.com/user/view/astrokat [[Image:astrokat-lg.jpg|16px|astrokat]]] [http://www.wikispaces.com/user/view/astrokat astrokat] <small>May 2, 2011</small></span><br />  
+
  The most recently announced launch dates for these missions will be found [http://en.wikipedia.org/wiki/List_of_future_lunar_missions here].<br /> <br />  NASA's [[Constellation%20program|Constellation program]] for manned return to the Moon has been scheduled for cancellation in the most recent budget submitted to the US Congress.<br />  JAXA's [http://en.wikipedia.org/wiki/Selene-2 SELENE-2 ]mission see http://www.jspec.jaxa.jp/e/activity/selene2.html for details.<span class="membersnap">- [http://www.wikispaces.com/user/view/astrokat [[Image:astrokat-lg.jpg|16px|astrokat]]] [http://www.wikispaces.com/user/view/astrokat astrokat] <small>Jul 27, 2010</small></span><br />  Chang'e-3 scheduled for 2013 <span class="membersnap">- [http://www.wikispaces.com/user/view/astrokat [[Image:astrokat-lg.jpg|16px|astrokat]]] [http://www.wikispaces.com/user/view/astrokat astrokat] <small>Aug 21, 2010</small></span><br />  There are 29 teams competing for the google lunar prize : details can be found here; http://www.googlelunarxprize.org/<span class="membersnap">- [http://www.wikispaces.com/user/view/astrokat [[Image:astrokat-lg.jpg|16px|astrokat]]] [http://www.wikispaces.com/user/view/astrokat astrokat] <small>May 2, 2011</small></span><br />  
 
==Hitting the Moon==
 
==Hitting the Moon==
 
  The first spacecraft to touch the Moon slammed into it at high speeds - the euphemistic "hard landing". During Apollo, upper stages of the Saturn rocket were impacted onto the surface to help calibrate seismometers, and recently all orbiters ended their missions with (mostly) controlled impacts, especially in hope of vaporizing polar ices. Here is a list of hard landings on the Moon, when and where (when known) they hit and observations of the impact.<br /> <br />  NASA [http://science.nasa.gov/headlines/y2006/28jul_crashlanding.htm Crash Landing on the Moon] page.<br />  
 
  The first spacecraft to touch the Moon slammed into it at high speeds - the euphemistic "hard landing". During Apollo, upper stages of the Saturn rocket were impacted onto the surface to help calibrate seismometers, and recently all orbiters ended their missions with (mostly) controlled impacts, especially in hope of vaporizing polar ices. Here is a list of hard landings on the Moon, when and where (when known) they hit and observations of the impact.<br /> <br />  NASA [http://science.nasa.gov/headlines/y2006/28jul_crashlanding.htm Crash Landing on the Moon] page.<br />  
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<br />  A more comprehensive list of man-made objects on the Moon (including soft landings) can be found in the [http://en.wikipedia.org/wiki/List_of_man-made_objects_on_the_Moon Wikipedia]. The coordinates of a number of these objects have been refined (and sometimes discovered) using [http://lroc.sese.asu.edu/news/index.php?/archives/210-LROC-Coordinates-of-Robotic-Spacecraft.html LRO photos].<br /> <br />  
 
<br />  A more comprehensive list of man-made objects on the Moon (including soft landings) can be found in the [http://en.wikipedia.org/wiki/List_of_man-made_objects_on_the_Moon Wikipedia]. The coordinates of a number of these objects have been refined (and sometimes discovered) using [http://lroc.sese.asu.edu/news/index.php?/archives/210-LROC-Coordinates-of-Robotic-Spacecraft.html LRO photos].<br /> <br />  
 
==Comparison of Lunar Orbiter Instrumentations==
 
==Comparison of Lunar Orbiter Instrumentations==
[/Lunar%20Orbiters Orbiter capabilities]<br /> <br />  
+
[[Lunar%20Orbiters|Orbiter capabilities]]<br /> <br />  
 
==References==
 
==References==
  
# Don E Wilhelms, [/Wilhelms%2C%201993 To a Rocky Moon (A Geologist's History of Lunar Exploration)], University of Arizona Press, 1993.
+
# Don E Wilhelms, [[Wilhelms%2C%201993|To a Rocky Moon (A Geologist's History of Lunar Exploration)]], University of Arizona Press, 1993.
 
# [http://history.nasa.gov/SP-424/sp424.htm The Voyage of Mariner 10: Mission to Venus and Mercury, (NASA SP-424), 1978] (scroll down for "Table of Contents"). [http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19780019203_1978019203.pdf PDF version].
 
# [http://history.nasa.gov/SP-424/sp424.htm The Voyage of Mariner 10: Mission to Venus and Mercury, (NASA SP-424), 1978] (scroll down for "Table of Contents"). [http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19780019203_1978019203.pdf PDF version].
 
# [http://en.wikipedia.org/wiki/Category:Lunar_spacecraft Wikipedia Category:Lunar spacecraft].
 
# [http://en.wikipedia.org/wiki/Category:Lunar_spacecraft Wikipedia Category:Lunar spacecraft].
# [http://www.hq.nasa.gov/office/pao/History/SP-362/app.b.htm Appendix B: Lunar Probes, Attempted and Successful] from ''[/NASA%20SP-362 NASA SP-362]'' -- comprehensive list through 1978
+
# [http://www.hq.nasa.gov/office/pao/History/SP-362/app.b.htm Appendix B: Lunar Probes, Attempted and Successful] from ''[[NASA%20SP-362|NASA SP-362]]'' -- comprehensive list through 1978
 
# LPI [http://www.lpi.usra.edu/lunar/missions/ Lunar Mission Summaries -- Lunar Exploration Timeline]
 
# LPI [http://www.lpi.usra.edu/lunar/missions/ Lunar Mission Summaries -- Lunar Exploration Timeline]
 
<br />  
 
<br />  
 
==Further Reading==
 
==Further Reading==
 
  a) B H Foing ''et al'' 2008 ''Phys. Scr.'' '''2008''' 014026 doi: [http://dx.doi.org/10.1088/0031-8949/2008/T130/014026 10.1088/0031-8949/2008/T130/014026]<br />  SMART-1 highlights and relevant studies on early bombardment and geological processes on rocky planets.<br />  b) Peng Wen-Xi ''et al'' 2009 ''Chinese Phys. C'' '''33''' 819 doi: [http://dx.doi.org/10.1088/1674-1137/33/10/001 10.1088/1674-1137/33/10/001]<br />  Prospective results of CHANG'E-2 X-ray spectrometer.<br />  c) Zhu Meng-Hua ''et al'' 2008 ''Chinese Phys. Lett.'' '''25''' 4490 doi: [http://dx.doi.org/10.1088/0256-307X/25/12/086 10.1088/0256-307X/25/12/086]<br />  An Impact Model of the Imbrium Basin for Distribution of Thorium on Lunar Surface. ''{uses data from Lunar Prospector}''</div>
 
  a) B H Foing ''et al'' 2008 ''Phys. Scr.'' '''2008''' 014026 doi: [http://dx.doi.org/10.1088/0031-8949/2008/T130/014026 10.1088/0031-8949/2008/T130/014026]<br />  SMART-1 highlights and relevant studies on early bombardment and geological processes on rocky planets.<br />  b) Peng Wen-Xi ''et al'' 2009 ''Chinese Phys. C'' '''33''' 819 doi: [http://dx.doi.org/10.1088/1674-1137/33/10/001 10.1088/1674-1137/33/10/001]<br />  Prospective results of CHANG'E-2 X-ray spectrometer.<br />  c) Zhu Meng-Hua ''et al'' 2008 ''Chinese Phys. Lett.'' '''25''' 4490 doi: [http://dx.doi.org/10.1088/0256-307X/25/12/086 10.1088/0256-307X/25/12/086]<br />  An Impact Model of the Imbrium Basin for Distribution of Thorium on Lunar Surface. ''{uses data from Lunar Prospector}''</div>

Revision as of 16:02, 15 April 2018

Lunar Missions

Table of Contents

[#Lunar Missions Lunar Missions]
[#Lunar Missions-Completed Missions and Programs Completed Missions and Programs]
[#Lunar Missions-Active Missions Active Missions]
[#Lunar Missions-Planned Missions Planned Missions]
[#Lunar Missions-Hitting the Moon Hitting the Moon]
[#Lunar Missions-Comparison of Lunar Orbiter Instrumentations Comparison of Lunar Orbiter Instrumentations]
[#Lunar Missions-References References]
[#Lunar Missions-Further Reading Further Reading]
There have been a surprising number of successful lunar missions since Pioneer 4 in 1959, yielding a wealth of data that has significantly advanced our understanding of the moon. There are many interesting aspects to these missions but at The-Moon Wiki our primary interest is the returned data, together with sufficient historical background to put it in context. More general information about each mission is available on Wikipedia.

Completed Missions and Programs


This table has been adapted from [1] and some text is from [3].

  • See also the clickable timeline of links to mission information at results links at the US National Space Science Data Center.


Pioneer 4

1959
Distant flyby. Carried a lunar radiation environment experiment and a lunar photography experiment. Radiation data showed no lunar radiation. No photographs were returned.

Luna

1959-1976

Series including orbiters, landers, rovers and sample return. A new The-Moon Wiki page is needed to describe the data returned by this program.

Ranger

1964-1965
Series of photographic impactors. A new The-Moon Wiki page is needed to describe the data returned by this program.

Zond

1965-1970
Series of circumlunar free return probes. Gathered data on micrometeor flux, solar and cosmic rays, magnetic fields, radio emissions and the solar wind. Biological payloads were also flown and many photographs were taken.

Surveyor

1966-1968
Series of seven soft landers. Tested lunar soil mechanics and chemical composition. Took numerous photographs.

Lunar Orbiter

1966-1967
Series of five photographic mapping orbiters.

Explorer 35

1967-1973
Orbiter. Studied plasma, magnetic fields, energetic particles and solar X rays in the vicinity of the moon.

Apollo

1968-1972
Series of manned landers.

Mariner 10

1973

Flyby. Returned 6 mosaics of the moon. Also returned photographs of the north polar region of the moon where prior coverage was poor. These provided a basis for cartographers to update lunar maps and improve the Lunar Control Network. [2].

Galileo

1990 & 1992
Flyby x 2. Returned multi-spectral images.

Hiten

1991-1993
Orbiter. Provided data on the dust environment between the earth and the moon.

Clementine

1994
Orbiter. Returned images at various wavelengths of visible, ultraviolet and infrared, laser ranging altimetry, gravimetry and charged particle measurements. This data was used to assess the surface mineralogy of the entire surface of the Moon, provide altimetry from 60N to 60S latitude, and provide gravity data for the near side.

Lunar Prospector

1998-1999
Low polar orbiter. Mapped surface composition and possible polar ice deposits, measured magnetic and gravity fields, and studied lunar outgassing events.

SMART-1

2003-2006

Orbiter. Imaged the lunar surface in X-ray and infrared and from several angles to allow 3D mapping. Determined the Moon's chemical composition using X-ray spectroscopy. Used infrared light to search for ice at the Moon's south pole, where some areas of the surface are never exposed to direct sunlight. Mapped the Moon's Peaks of Eternal Light.

SELENE (Kaguya)

2007-2009
Three orbiters.

Chang'e-1

2007-2009
Orbiter.

Chandrayaan-1

2008-2009
Orbiter and impactor.

LCROSS

2009

Impactor.


For articles in the-moon Wiki about features observed at the landing sites of the above missions see the list of Landing Sites.

Active Missions


Planned Missions

The most recently announced launch dates for these missions will be found here.

NASA's Constellation program for manned return to the Moon has been scheduled for cancellation in the most recent budget submitted to the US Congress.
JAXA's SELENE-2 mission see http://www.jspec.jaxa.jp/e/activity/selene2.html for details.- astrokat astrokat Jul 27, 2010
Chang'e-3 scheduled for 2013 - astrokat astrokat Aug 21, 2010
There are 29 teams competing for the google lunar prize : details can be found here; http://www.googlelunarxprize.org/- astrokat astrokat May 2, 2011

Hitting the Moon

The first spacecraft to touch the Moon slammed into it at high speeds - the euphemistic "hard landing". During Apollo, upper stages of the Saturn rocket were impacted onto the surface to help calibrate seismometers, and recently all orbiters ended their missions with (mostly) controlled impacts, especially in hope of vaporizing polar ices. Here is a list of hard landings on the Moon, when and where (when known) they hit and observations of the impact.

NASA Crash Landing on the Moon page.
  • Luna 2. September 14, 1959, 22:02:24 UT at 29.1° N 0° W - Palus Putredinis
  • Luna 5. May 12, 1965, 19:10 UT at 31° S 8° W -
  • Luna 7. October 7, 1965, 22:08 UTC at 9.8° N - 47.8° W - Oceanus Procellarum
  • Luna 8. December 6, 1965, 21:51:30 UT at 9.6° N - 62° W - Oceanus Procellarum
  • Luna 18. at 3.57° N, 50.50° E - Mare Fecunditatis (Lunar Sample Return attempt)
  • Ranger 4 (Ranger 3 and Ranger 5 are in Heliocentric Orbit)(about Ranger 5, see the article Robots to the Moon by Frank Sartwell, National Geographic october 1962).
  • Ranger 6. February 2, 1964, 09:24:32 UTC at 9.4° N - 21.5° E - Mare Tranquillitatis (south-southwest of Ross H)
  • Ranger 7. 31 July 1964 at 13:25:49 UT at 10.35° S, 339.42° E - Mare Cognitum (northwest of Mons Moro)
  • Ranger 8. 20 February 1965 at 09:57:37 UT at 2.67° N, 24.65° E - Mare Tranquillitatis (north-northwest of Sabine E, aka Armstrong)
  • Ranger 9. 24 March 1965 at 14:08:20 UT at 12.83° S, 357.63° E - Alphonsus
    • Alika Herring and Chuck Wood observed with Kitt Peak 84" and saw no impact flash or cloud.
  • Lunar Orbiter 1. Mandel'shtam (6°35' North/ 160°72' East).
  • Lunar Orbiter 2. Between King and Ctesibius (3° North/ 119.1° East).
  • Lunar Orbiter 3. Northwest of Mees (14.3° North/ 97.7° West).
  • Lunar Orbiter 4. ??
  • Lunar Orbiter 5. North of Schluter (2.79° South/ 83.1° West).
  • Apollo LM Ascent Stages
  • Apollo SIVB stages
  • Apollo 15 sub-satellite
  • Apollo 16 sub-satellite
  • Hiten (1993)
  • Lunar Prospector
  • SMART-1
  • Chandrayaan-1 Moon Impact Probe
  • Chang'e-1
  • Kaguya
  • LCROSS


A more comprehensive list of man-made objects on the Moon (including soft landings) can be found in the Wikipedia. The coordinates of a number of these objects have been refined (and sometimes discovered) using LRO photos.

Comparison of Lunar Orbiter Instrumentations

Orbiter capabilities

References

  1. Don E Wilhelms, To a Rocky Moon (A Geologist's History of Lunar Exploration), University of Arizona Press, 1993.
  2. The Voyage of Mariner 10: Mission to Venus and Mercury, (NASA SP-424), 1978 (scroll down for "Table of Contents"). PDF version.
  3. Wikipedia Category:Lunar spacecraft.
  4. Appendix B: Lunar Probes, Attempted and Successful from NASA SP-362 -- comprehensive list through 1978
  5. LPI Lunar Mission Summaries -- Lunar Exploration Timeline


Further Reading

a) B H Foing et al 2008 Phys. Scr. 2008 014026 doi: 10.1088/0031-8949/2008/T130/014026
SMART-1 highlights and relevant studies on early bombardment and geological processes on rocky planets.
b) Peng Wen-Xi et al 2009 Chinese Phys. C 33 819 doi: 10.1088/1674-1137/33/10/001
Prospective results of CHANG'E-2 X-ray spectrometer.
c) Zhu Meng-Hua et al 2008 Chinese Phys. Lett. 25 4490 doi: 10.1088/0256-307X/25/12/086
An Impact Model of the Imbrium Basin for Distribution of Thorium on Lunar Surface. {uses data from Lunar Prospector}