Difference between revisions of "Chang'e-3"

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<div style="margin-left: 1em">[#Chang’E-3 Chang’E-3]</div><div style="margin-left: 2em">[#Chang’E-3-Description Description]</div><div style="margin-left: 2em">[#Chang’E-3-Additional Information Additional Information]</div><div style="margin-left: 2em">[#Chang’E-3-LROC Articles LROC Articles]</div><div style="margin-left: 2em">[#Chang’E-3-LPOD Articles LPOD Articles]</div><div style="margin-left: 2em">[#Chang’E-3-APOD Articles APOD Articles]</div><div style="margin-left: 2em">[#Chang’E-3-Bibliography Bibliography]</div></div>[[Image:change3.jpg|change3.jpg]]<br />  Credit: Beijing Institute of Spacecraft Engineering<br /> <br />  
 
<div style="margin-left: 1em">[#Chang’E-3 Chang’E-3]</div><div style="margin-left: 2em">[#Chang’E-3-Description Description]</div><div style="margin-left: 2em">[#Chang’E-3-Additional Information Additional Information]</div><div style="margin-left: 2em">[#Chang’E-3-LROC Articles LROC Articles]</div><div style="margin-left: 2em">[#Chang’E-3-LPOD Articles LPOD Articles]</div><div style="margin-left: 2em">[#Chang’E-3-APOD Articles APOD Articles]</div><div style="margin-left: 2em">[#Chang’E-3-Bibliography Bibliography]</div></div>[[Image:change3.jpg|change3.jpg]]<br />  Credit: Beijing Institute of Spacecraft Engineering<br /> <br />  
 
==Description==
 
==Description==
  Chang’E-3 was the first moon mission managed by the China National Space Administration ([http://www.cnsa.gov.cn/ CNSA]) to put a robotic rover on the lunar surface. Called ''‘Yutu’'' (translated as ‘Jade Rabbit’), the rover was deployed on to the lunar surface after the main Chang’E-3 lander autonomously soft-landed some ~ 40 km south of crater, Laplace F, on 14 December 2013. Weighing some 120 kilograms and coming in at 150 centimetres-high approximately, Yutu has four instruments onboard (four different on the lander, too): including a camera to take 3D imagery of the lunar terrain and its geological features, two spectrometers - a VNIS (visible and near-infrared) and APXS (alpha particle and x-ray) - to measure the lunar soil composition and distribution of various elements, and a radar for measuring soil depth and other structural features (e.g. layering etc.,) underneath.<br /> <br />  Those instruments onboard the lander during the mission were capable of carrying out further studies in imagery of the terrain, as well as observing earth’s ionosphere and other celestial objects in the clear, lunar sky above (both Yutu and the lander were also capable of ‘looking’ at each other on the surface).<br /> <br />  Chang’E-3 marks the first controlled, soft-landing moon mission in under four decades since last visited by the Luna 24, unmanned sample-return mission back in 1976. Future missions are planned (in a reverse-wise, Chang'E mission launch): Chang’E-5 is expected to be launched in 2019 for a sample return mission to the Nearside, while Chang’E-4 is expected to be launched sometime in 2018 on a mission to the Farside of the Moon involving a lander/rover/orbiter: (as of [https://www.chinaspaceflight.com/satellite/Deepspace/CE-4/CE-4.html 7 June 2017], the destination is to the southeast sector of [/Von%20Karman Von Karman] at 45.5S, 178.0E, which lies in the western sector of the [/South%20Pole%20Aitken%20Basin South Pole Aitken Basin]). In 2020, a permanent orbiting station is envisioned, in 2023 a sample-return mission to the Farside may occur, while in 2025 and 2027, landing missions at the lunar North and South Poles respectively are possible, too. Chang'E(?) mission numbers for each mission have yet to be announced.<br /> <br />  Cameras onboard NASA’s Lunar Reconnaissance Orbiter ([http://the-moon.us/wiki/LRO LRO])- currently orbiting the Moon - took close-up images of the Chang’E-3 landing site in late December, and future observations are planned. <span class="membersnap">- [http://www.wikispaces.com/user/view/JohnMoore2 [[Image:JohnMoore2-lg.jpg|16px|JohnMoore2]]] [http://www.wikispaces.com/user/view/JohnMoore2 JohnMoore2]</span><br /> <br />  
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  Chang’E-3 was the first moon mission managed by the China National Space Administration ([http://www.cnsa.gov.cn/ CNSA]) to put a robotic rover on the lunar surface. Called ''‘Yutu’'' (translated as ‘Jade Rabbit’), the rover was deployed on to the lunar surface after the main Chang’E-3 lander autonomously soft-landed some ~ 40 km south of crater, Laplace F, on 14 December 2013. Weighing some 120 kilograms and coming in at 150 centimetres-high approximately, Yutu has four instruments onboard (four different on the lander, too): including a camera to take 3D imagery of the lunar terrain and its geological features, two spectrometers - a VNIS (visible and near-infrared) and APXS (alpha particle and x-ray) - to measure the lunar soil composition and distribution of various elements, and a radar for measuring soil depth and other structural features (e.g. layering etc.,) underneath.<br /> <br />  Those instruments onboard the lander during the mission were capable of carrying out further studies in imagery of the terrain, as well as observing earth’s ionosphere and other celestial objects in the clear, lunar sky above (both Yutu and the lander were also capable of ‘looking’ at each other on the surface).<br /> <br />  Chang’E-3 marks the first controlled, soft-landing moon mission in under four decades since last visited by the Luna 24, unmanned sample-return mission back in 1976. Future missions are planned (in a reverse-wise, Chang'E mission launch): Chang’E-5 is expected to be launched in 2019 for a sample return mission to the Nearside, while Chang’E-4 is expected to be launched sometime in 2018 on a mission to the Farside of the Moon involving a lander/rover/orbiter: (as of [https://www.chinaspaceflight.com/satellite/Deepspace/CE-4/CE-4.html 7 June 2017], the destination is to the southeast sector of [[Von%20Karman|Von Karman]] at 45.5S, 178.0E, which lies in the western sector of the [[South%20Pole%20Aitken%20Basin|South Pole Aitken Basin]]). In 2020, a permanent orbiting station is envisioned, in 2023 a sample-return mission to the Farside may occur, while in 2025 and 2027, landing missions at the lunar North and South Poles respectively are possible, too. Chang'E(?) mission numbers for each mission have yet to be announced.<br /> <br />  Cameras onboard NASA’s Lunar Reconnaissance Orbiter ([http://the-moon.us/wiki/LRO LRO])- currently orbiting the Moon - took close-up images of the Chang’E-3 landing site in late December, and future observations are planned. <span class="membersnap">- [http://www.wikispaces.com/user/view/JohnMoore2 [[Image:JohnMoore2-lg.jpg|16px|JohnMoore2]]] [http://www.wikispaces.com/user/view/JohnMoore2 JohnMoore2]</span><br /> <br />  
 
==Additional Information==
 
==Additional Information==
 
* Launched from the Xichang Satellite Launch site in southwest China on 2 December 2013 (1.30 am Beijing local time, 12:30 pm EST on 1 December 2013 EST) atop a Long March 3B rocket.
 
* Launched from the Xichang Satellite Launch site in southwest China on 2 December 2013 (1.30 am Beijing local time, 12:30 pm EST on 1 December 2013 EST) atop a Long March 3B rocket.
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* On 5 Oct 2015, the IAU approved the name [http://planetarynames.wr.usgs.gov/Feature/15415 Guang Han Gong] for the Chang'E 3 landing site, as well as approving three nearby craters - [/Tai%20Wei Tai Wei], [/Zi%20Wei Zi Wei] and [/Tian%20Shi Tian Shi].<span class="membersnap">- [http://www.wikispaces.com/user/view/JohnMoore2 [[Image:JohnMoore2-lg.jpg|16px|JohnMoore2]]] [http://www.wikispaces.com/user/view/JohnMoore2 JohnMoore2]</span>
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* On 5 Oct 2015, the IAU approved the name [http://planetarynames.wr.usgs.gov/Feature/15415 Guang Han Gong] for the Chang'E 3 landing site, as well as approving three nearby craters - [[Tai%20Wei|Tai Wei]], [[Zi%20Wei|Zi Wei]] and [[Tian%20Shi|Tian Shi]].<span class="membersnap">- [http://www.wikispaces.com/user/view/JohnMoore2 [[Image:JohnMoore2-lg.jpg|16px|JohnMoore2]]] [http://www.wikispaces.com/user/view/JohnMoore2 JohnMoore2]</span>
 
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Revision as of 14:43, 15 April 2018

Chang’E-3

Table of Contents

[#Chang’E-3 Chang’E-3]
[#Chang’E-3-Description Description]
[#Chang’E-3-Additional Information Additional Information]
[#Chang’E-3-LROC Articles LROC Articles]
[#Chang’E-3-LPOD Articles LPOD Articles]
[#Chang’E-3-APOD Articles APOD Articles]
[#Chang’E-3-Bibliography Bibliography]
change3.jpg
Credit: Beijing Institute of Spacecraft Engineering

Description

Chang’E-3 was the first moon mission managed by the China National Space Administration (CNSA) to put a robotic rover on the lunar surface. Called ‘Yutu’ (translated as ‘Jade Rabbit’), the rover was deployed on to the lunar surface after the main Chang’E-3 lander autonomously soft-landed some ~ 40 km south of crater, Laplace F, on 14 December 2013. Weighing some 120 kilograms and coming in at 150 centimetres-high approximately, Yutu has four instruments onboard (four different on the lander, too): including a camera to take 3D imagery of the lunar terrain and its geological features, two spectrometers - a VNIS (visible and near-infrared) and APXS (alpha particle and x-ray) - to measure the lunar soil composition and distribution of various elements, and a radar for measuring soil depth and other structural features (e.g. layering etc.,) underneath.

Those instruments onboard the lander during the mission were capable of carrying out further studies in imagery of the terrain, as well as observing earth’s ionosphere and other celestial objects in the clear, lunar sky above (both Yutu and the lander were also capable of ‘looking’ at each other on the surface).

Chang’E-3 marks the first controlled, soft-landing moon mission in under four decades since last visited by the Luna 24, unmanned sample-return mission back in 1976. Future missions are planned (in a reverse-wise, Chang'E mission launch): Chang’E-5 is expected to be launched in 2019 for a sample return mission to the Nearside, while Chang’E-4 is expected to be launched sometime in 2018 on a mission to the Farside of the Moon involving a lander/rover/orbiter: (as of 7 June 2017, the destination is to the southeast sector of Von Karman at 45.5S, 178.0E, which lies in the western sector of the South Pole Aitken Basin). In 2020, a permanent orbiting station is envisioned, in 2023 a sample-return mission to the Farside may occur, while in 2025 and 2027, landing missions at the lunar North and South Poles respectively are possible, too. Chang'E(?) mission numbers for each mission have yet to be announced.

Cameras onboard NASA’s Lunar Reconnaissance Orbiter (LRO)- currently orbiting the Moon - took close-up images of the Chang’E-3 landing site in late December, and future observations are planned. - JohnMoore2 JohnMoore2

Additional Information

  • Launched from the Xichang Satellite Launch site in southwest China on 2 December 2013 (1.30 am Beijing local time, 12:30 pm EST on 1 December 2013 EST) atop a Long March 3B rocket.
  • Entered lunar orbit on 6 December 2013.
  • LADEE will be observing the dust and gaseous effects that Chang’E-3 will have on the lunar atmospheric environment.
  • Lander: Overall dry mass = 1200 kilograms. Body rests ~ 0.83 metres above the surface. Landing legs span ~ 5 metres. Powered by solar panels and a 239-Plutonium Dioxide Radioisotope Thermoelectric Generator.
  • Rover: Overall 120 kilograms in weight (carries a payload mass of 20 kilograms). Six individually-powered wheels (with rocker-bogie suspension). Powered by solar panels (with possible Radioisotope Heater Units). Slope toleration ~ 20 degrees, and capable of driving over obstacles ~ 20 centimetres. Total driving distance – expected up to 10 kilometres.
  • Images below (left group) show the approximate location of the Chang’E-3 landing site compiled by Phil Stooke using LROC imagery and live images taken by a camera onboard Chang’E-3, while (right group) shows a recent December 2013 LROC before and after comparison view.

chang_e_3_landing_site_locator_map_post-small.jpg

chang_e_3_site_mosaic2_post-small.jpg

  • Images below
    Left: Annotated, colour-adjusted version of the Chinese Academy of Sciences' panoramic image (seen to the right). The top-most image of the annotated version shows the approximate location markers for each feature seen in the highly-resolved panoramic view, the bottom-left image shows a LROC aerial view of the region, while the bottom right image shows the approximate rover route map, constructed by Phil Stooke.
    Right: Full resolution (4.8 Mbytes), panoramic view from the Chang’E-3 lander - constructed by the team of scientists and engineers of the Chinese Academy of Sciences.

chang'e-3-pan-locations-small.jpg

chang-'e-3-panorama-small.jpg

rock1.jpg

  • Images above.
    Left: Approximate rover route map, constructed by Phil Stooke.
    Right: Close-up of the rock (see pink square added in the original route map for location purposes) taken by the Yutu rover that deployed from the Chang’E-3 lander (see also Xiao, L. reference in bibliography). Image colour-adjusted, credit is to CNSA. - JohnMoore2 JohnMoore2



  • Images below (January 2016 update) of Change'E-3/Yutu route maps. Maps supplied courtesy of Phil Stooke.
    Left: Shows names (with Chinese characters) in reference to local features and names.
    Right: Shows scientific operations (with dates) during Yutu's exploration of the area traversed.

chang_e_3_yutu_map1-small.jpg

chang_e_3_yutu_map2-small.jpg


  • Image below (May 2016 update) of Change'E-3/Yutu/Lander locations.

Change-3-Location-Small.jpg


LROC Articles

(note: while searching on the LROC site, one should try Chang'e 3 and also Chang'e-3 to get all the articles!).


LPOD Articles


APOD Articles


Bibliography



This page has been edited 1 times. The last modification was made by - tychocrater tychocrater on Jun 13, 2009 3:24 pm - mgx2