Tag: Change-5 Lunar Probe

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #November2020 | #WenchangSpacecraftLaunchCenter #文昌航天發射場 #嫦娥五号 Does a Third course correction towards orbiting the #Moon with #Change5 LunarLander landing on #MonsRumker #LunaExploration after its International Launch from the International Iconic #LongMarch5 – #ChangZheng5 #CarrierRocket..

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On at 20:58 on November 28th 2020 Saturday, Hong Kong- Beijing time The Chang’e-5 probe successfully implemented the “brake” braking and successfully entered the orbit around the moon….. According to the CNSA China National Space Administration– CLEP- China Lunar Exploration Program , at 20:58 on November 28, Beijing time, the Chang’e-5 probe flew to the moon after about 112 hours. The 3,000-N engine ignition was successfully implemented at a distance of about 400 kilometers from the lunar surface. About 17 minutes later, the engine shut down normally. According to the monitoring and judgment of real-time telemetry data, the Chang’e-5 probe braked normally in recent months and entered the orbit around the moon smoothly. Near-moon braking is one of the key orbital controls during the flight of the lunar probe. When the high-speed probe approaches the moon, it will apply “brake” braking, in order to make its relative speed lower than the moon’s escape speed, so that it will be captured by the moon’s gravity. The Chang’e-5 probe underwent two orbit corrections during the Earth-Moon transfer process and achieved the expected goal. In the future, the Chang’e-5 probe will adjust the height and inclination of the orbit around the moon, the lander and ascender assembly will be separated from the orbiter and returner assembly, implement the lunar frontal soft landing, and carry out the lunar surface automatic sampling as planned. .

 

During the every so constant delicate tracking at Xi’an Satellite Measurement and Control Center successfully completed the first near-month brake measurement and control work of Chang’e-5] “The near-month brake orbit control is turned on!” “Linhai’s tracking is normal! The remote data is normal!” At 20:00 on November 28 At 58 minutes and 38 seconds, the Jiamusi Deep Space Station of the Xi’an Satellite Measurement and Control Center successfully placed a remote control command from the Beijing Aerospace Flight Control Center. The engine of the Chang’e-5 probe was successfully ignited and the engine shut down normally after 17 minutes. According to real-time telemetry data monitoring and judgment, the Chang’e-5 probe successfully entered an elliptical orbit around the moon, and the first near-moon braking was a complete success……

​​ 11月28日20时58分,嫦娥五号探测器经过约112小时奔月飞行,在距月面400公里处成功实施3000牛发动机点火,约17分钟后,发动机正常关机。根据实时遥测数据监视判断,嫦娥五号探测器近月制动正常,顺利进入环月轨道。

近月制动是月球探测器飞行过程中关键的轨道控制之一。高速飞行的探测器在靠近月球时,实施“刹车”制动,目的是使其相对速度低于月球逃逸速度,从而被月球引力捕获。

嫦娥五号探测器在地月转移过程中经历了2次轨道修正,达到预期目标。后续,嫦娥五号探测器将再进行一次近月制动,将椭圆环月轨道调整为近圆形环月轨道。
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Previously……Onto 22 hours and six minutes into on November 24th 2020, the 3000N engine of the Chang’e-5 probe worked for more than 2 seconds, successfully completed the first orbit correction, and continued to fly to the moon. As of the first orbit correction, the systems of the Chang’e-5 probe were in good condition and had been in orbit for about 17 hours, about 160,000 kilometers away from the earth.

​​​​ During the flight of the Chang’e-5 probe, affected by various factors, it will produce orbit deviation. It is necessary to determine the deviation between the actual flight orbit of the probe and the designed orbit, and complete the corresponding orbit control to ensure that the probe is always flying in the proper on track.

The Chang’e-5 mission launched into orbit with high accuracy, and the orbit correction is very small this time.

 11月24日22时6分,嫦娥五号探测器3000N发动机工作2秒多,顺利完成第一次轨道修正,继续飞向月球。截至第一次轨道修正时,嫦娥五号探测器各系统状态良好,已在轨飞行约17个小时,距离地球约16万公里。

嫦娥五号探测器在飞行过程中,受各种因素影响,会产生轨道偏差,需要测定探测器实际飞行轨道与设计轨道之间的偏差,完成对应的轨道控制,确保探测器始终飞行在适当的轨道上。

嫦娥五号任务发射入轨精度很高,本次轨道修正量很小。

In which On early  24th November 2020 on a very mid early morning Tuesday  of 0530 Hong Kong- Beijing Time in which succefully launched the CNSA –CLEP China National Space Administration- China Lunar Exploration – Belt and Road initiative Lunar Mission ….. Launching from Wenchang Spacecraft launch center – Hainan Province – China- People’s Republic of China… the previous day the Staff of Wenchang about 18:30 on November 23, 2020, the Long March 5 Yaowu carrier rocket began to refill liquid oxygen and liquid hydrogen cryogenic propellant, and it is planned to be implemented at 4 am to 5 am on the 24th. Launch mission. This is the second applied launch of the Long March 5 series of carrier rockets, which will transport the lunar exploration project Chang’e 5 probe to the Earth-Moon transfer orbit, and implement my country’s first extraterrestrial celestial body sampling and return mission. The launch window time of the Long March 5 Yaowu rocket is based on comprehensive consideration of the earth-moon position relationship and other factors, and the best launch time is selected after orbital design…..

During the early morning crowds from all over China travelled and gathered all around the view placements locations with the best views of the launching of the Change 5 with the Long March –Chang Zheng 5 Carrier Rocket..

the Belt and Road Initiative Lunar Change5 return sample planned landing zone is Mons Rumker in Oceanus Procellarum, located in the northwest region of the near side of the Moon…… The location is a large, elevated volcanic mound 70 km in diameter that features a strong spectroscopic signature of basaltic lunar mare material.

The mission is reported to consist of four modules or elements: the lander would collect about 2 kg of samples from 2 metres below the surface and place them in an attached ascent vehicle that will be launched into lunar orbit. The ascent vehicle will make an automatic rendezvous and docking with an orbiter that would transfer the samples into a sample-return capsule for their delivery to Earth…. Change5 lunar lander equipment payload composite off…. The lander will carry landing cameras, a panoramic camera, a spectrometer to determine mineral composition, a soil gas analytical instrument, a soil composition analytical instrument, a sampling sectional thermo-detector, and a ground-penetrating radar…….. For acquiring samples, it will be equipped with a robotic arm, a rotary-percussive drill, a scoop for sampling, and separation tubes to isolate individual samples……

After the Long March 5 Yaowu carrier rocket was launched into space, it carried out four separations, including booster separation, fairing separation, primary and secondary separation, and rocket separation. The Chang’e-5 probe consists of four parts: the orbiter, the returner, the lander, and the ascender. After the earth-moon transfer, near-moon braking, and circumlunar flight, the lander and ascender combination will be combined with the orbiter and return The orbiter assembly is separated, the orbiter carries the returner to stay in orbit, and the lander carries the ascender to choose an opportunity to implement a soft landing on the lunar front preselected area, and carry out follow-up work such as automatic lunar surface sampling as planned.

According to the China National Space Administration, the Chang’e-5 mission plans to achieve three major engineering goals: First, breakthrough key technologies such as narrow window multi-orbit binding launch, automatic lunar surface sampling and packaging, lunar take-off, lunar orbital rendezvous and docking, and lunar sample storage. Improve the level of China’s aerospace technology; the second is to realize China’s first automatic sampling and return of extraterrestrial celestial bodies to promote major progress in China’s science and technology; the third is to improve the lunar exploration engineering system and accumulate important talents for China’s future manned moon landings and deep-space exploration Technology and material basis.

The scientific goals of the Chang’e-5 mission are mainly to carry out the landform area detection and geological background survey, obtain the on-site analysis data related to the lunar samples, establish the connection between the on-site exploration data and the laboratory analysis data; carry out the system of the lunar samples , Long-term laboratory research to analyse the structure, physical properties, and material composition of the lunar soil, and deepen the research on the origin and evolution of the moon.

China’s lunar exploration project is a national key science and technology special landmark project clearly defined in the “National Medium and Long-term Science and Technology Development Plan (2006-2020)”. It is a major project to promote the development of aerospace industry, promote scientific and technological progress and innovation, and improve comprehensive national strength. Strategic decision. Since the project was established and officially launched in January 2004, five missions including Chang’e 1, Chang’e 2, Chang’e 3, re-entry flight test and Chang’e 4 have been successfully implemented. This launch mission is the 353rd flight of the Long March series of carrier rockets.

 Images and visuals are from Weibo..

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #November2020 | #WenchangSpacecraftLaunchCenter #文昌航天發射場 #嫦娥五号 Does a Second course correction towards the #Moon with #Change5 LunarLander landing on #MonsRumker #LunaExploration after its International Launch from the International Iconic #LongMarch5 – #ChangZheng5 #CarrierRocket..

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At 22:6 on November 25 Wednesday 2020, the two 150N engines of the Chang’e-5 probe worked for about 6 seconds, successfully completing the second orbit correction……As of the second orbit correction, the Chang’e-5 probe has been in orbit for about 41 hours, about 270,000 kilometers from the earth, and the probe systems are in good condition….. As The flight time of the Chang’e 5 Earth-Moon transfer segment is about 112 hours. As of the second orbit correction, it has been flying in orbit for about 41 hours, leaving about 71 hours to reach the moon… into on November 24th 2020

​11月25日22时6分,嫦娥五号探测器2台150N发动机工作约6秒,顺利完成第二次轨道修正。…….截至第二次轨道修正,嫦娥五号探测器已在轨飞行约41小时,距离地球约27万公里,探测器各系统状态良好。

Previously Onto 22 hours and six minutes into on November 24th 2020, the 3000N engine of the Chang’e-5 probe worked for more than 2 seconds, successfully completed the first orbit correction, and continued to fly to the moon. As of the first orbit correction, the systems of the Chang’e-5 probe were in good condition and had been in orbit for about 17 hours, about 160,000 kilometers away from the earth.

​​​​ During the flight of the Chang’e-5 probe, affected by various factors, it will produce orbit deviation. It is necessary to determine the deviation between the actual flight orbit of the probe and the designed orbit, and complete the corresponding orbit control to ensure that the probe is always flying in the proper on track.

The Chang’e-5 mission launched into orbit with high accuracy, and the orbit correction is very small this time.

 11月24日22时6分,嫦娥五号探测器3000N发动机工作2秒多,顺利完成第一次轨道修正,继续飞向月球。截至第一次轨道修正时,嫦娥五号探测器各系统状态良好,已在轨飞行约17个小时,距离地球约16万公里。

嫦娥五号探测器在飞行过程中,受各种因素影响,会产生轨道偏差,需要测定探测器实际飞行轨道与设计轨道之间的偏差,完成对应的轨道控制,确保探测器始终飞行在适当的轨道上。

嫦娥五号任务发射入轨精度很高,本次轨道修正量很小。

In which On early  24th November 2020 on a very mid early morning Tuesday  of 0530 Hong Kong- Beijing Time in which successfully launched the CNSA –CLEP China National Space Administration- China Lunar Exploration – Belt and Road initiative Lunar Mission ….. Launching from Wenchang Spacecraft launch center – Hainan Province – China- People’s Republic of China... the previous day the Staff of Wenchang about 18:30 on November 23, 2020, the Long March 5 Yaowu carrier rocket began to refill liquid oxygen and liquid hydrogen cryogenic propellant, and it is planned to be implemented at 4 am to 5 am on the 24th. Launch mission. This is the second applied launch of the Long March 5 series of carrier rockets, which will transport the lunar exploration project Chang’e 5 probe to the Earth-Moon transfer orbit, and implement my country’s first extraterrestrial celestial body sampling and return mission. The launch window time of the Long March 5 Yaowu rocket is based on comprehensive consideration of the earth-moon position relationship and other factors, and the best launch time is selected after orbital design…..

During the early morning crowds from all over China travelled and gathered all around the view placements locations with the best views of the launching of the Change 5 with the Long March –Chang Zheng 5 Carrier Rocket..

the Belt and Road Initiative Lunar Change5 return sample planned landing zone is Mons Rumker in Oceanus Procellarum, located in the northwest region of the near side of the Moon…… The location is a large, elevated volcanic mound 70 km in diameter that features a strong spectroscopic signature of basaltic lunar mare material.

The mission is reported to consist of four modules or elements: the lander would collect about 2 kg of samples from 2 metres below the surface and place them in an attached ascent vehicle that will be launched into lunar orbit. The ascent vehicle will make an automatic rendezvous and docking with an orbiter that would transfer the samples into a sample-return capsule for their delivery to Earth…. Change5 lunar lander equipment payload composite off…. The lander will carry landing cameras, a panoramic camera, a spectrometer to determine mineral composition, a soil gas analytical instrument, a soil composition analytical instrument, a sampling sectional thermo-detector, and a ground-penetrating radar…….. For acquiring samples, it will be equipped with a robotic arm, a rotary-percussive drill, a scoop for sampling, and separation tubes to isolate individual samples……

After the Long March 5 Yaowu carrier rocket was launched into space, it carried out four separations, including booster separation, fairing separation, primary and secondary separation, and rocket separation. The Chang’e-5 probe consists of four parts: the orbiter, the returner, the lander, and the ascender. After the earth-moon transfer, near-moon braking, and circumlunar flight, the lander and ascender combination will be combined with the orbiter and return The orbiter assembly is separated, the orbiter carries the returner to stay in orbit, and the lander carries the ascender to choose an opportunity to implement a soft landing on the lunar front preselected area, and carry out follow-up work such as automatic lunar surface sampling as planned….

According to the China National Space Administration, the Chang’e-5 mission plans to achieve three major engineering goals: First, breakthrough key technologies such as narrow window multi-orbit binding launch, automatic lunar surface sampling and packaging, lunar take-off, lunar orbital rendezvous and docking, and lunar sample storage. Improve the level of China’s aerospace technology; the second is to realize China’s first automatic sampling and return of extraterrestrial celestial bodies to promote major progress in China’s science and technology; the third is to improve the lunar exploration engineering system and accumulate important talents for China’s future manned moon landings and deep-space exploration Technology and material basis.

The scientific goals of the Chang’e-5 mission are mainly to carry out the landform area detection and geological background survey, obtain the on-site analysis data related to the lunar samples, establish the connection between the on-site exploration data and the laboratory analysis data; carry out the system of the lunar samples , Long-term laboratory research to analyse the structure, physical properties, and material composition of the lunar soil, and deepen the research on the origin and evolution of the moon.

China’s lunar exploration project is a national key science and technology special landmark project clearly defined in the “National Medium and Long-term Science and Technology Development Plan (2006-2020)”. It is a major project to promote the development of aerospace industry, promote scientific and technological progress and innovation, and improve comprehensive national strength. Strategic decision. Since the project was established and officially launched in January 2004, five missions including Chang’e 1, Chang’e 2, Chang’e 3, re-entry flight test and Chang’e 4 have been successfully implemented. This launch mission is the 353rd flight of the Long March series of carrier rockets.

 Images and visuals are from Weibo..

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #November2020 | #WenchangSpacecraftLaunchCenter #文昌航天發射場 #嫦娥五号 Does a course correction towards the #Moon with #Change5 LunarLander landing on #MonsRumker #LunaExploration after its International Launch from the International Iconic #LongMarch5 – #ChangZheng5 #CarrierRocket..

kevinjamesngLeave a comment

 

Onto 22 hours and six minutes into on November 24th 2020, the 3000N engine of the Chang’e-5 probe worked for more than 2 seconds, successfully completed the first orbit correction, and continued to fly to the moon. As of the first orbit correction, the systems of the Chang’e-5 probe were in good condition and had been in orbit for about 17 hours, about 160,000 kilometers away from the earth.

​​​​ During the flight of the Chang’e-5 probe, affected by various factors, it will produce orbit deviation. It is necessary to determine the deviation between the actual flight orbit of the probe and the designed orbit, and complete the corresponding orbit control to ensure that the probe is always flying in the proper on track.

The Chang’e-5 mission launched into orbit with high accuracy, and the orbit correction is very small this time.

 11月24日22时6分,嫦娥五号探测器3000N发动机工作2秒多,顺利完成第一次轨道修正,继续飞向月球。截至第一次轨道修正时,嫦娥五号探测器各系统状态良好,已在轨飞行约17个小时,距离地球约16万公里。

嫦娥五号探测器在飞行过程中,受各种因素影响,会产生轨道偏差,需要测定探测器实际飞行轨道与设计轨道之间的偏差,完成对应的轨道控制,确保探测器始终飞行在适当的轨道上。

嫦娥五号任务发射入轨精度很高,本次轨道修正量很小。

In which On early  24th November 2020 on a very mid early morning Tuesday  of 0530 Hong Kong- Beijing Time in which successfully  launched the CNSA –CLEP China National Space Administration- China Lunar Exploration – Belt and Road initiative Lunar Mission ….. Launching from Wenchang Spacecraft launch center – Hainan Province – China- People’s Republic of China… the previous day the Staff of Wenchang about 18:30 on November 23, 2020, the Long March 5 Yaowu carrier rocket began to refill liquid oxygen and liquid hydrogen cryogenic propellant, and it is planned to be implemented at 4 am to 5 am on the 24th. Launch mission. This is the second applied launch of the Long March 5 series of carrier rockets, which will transport the lunar exploration project Chang’e 5 probe to the Earth-Moon transfer orbit, and implement my country’s first extraterrestrial celestial body sampling and return mission. The launch window time of the Long March 5 Yaowu rocket is based on comprehensive consideration of the earth-moon position relationship and other factors, and the best launch time is selected after orbital design…..

During the early morning crowds from all over China travelled and gathered all around the view placements locations with the best views of the launching of the Change 5 with the Long March –Chang Zheng 5 Carrier Rocket..

the Belt and Road Initiative Lunar Change5 return sample planned landing zone is Mons Rumker in Oceanus Procellarum, located in the northwest region of the near side of the Moon…… The location is a large, elevated volcanic mound 70 km in diameter that features a strong spectroscopic signature of basaltic lunar mare material.

The mission is reported to consist of four modules or elements: the lander would collect about 2 kg of samples from 2 metres below the surface and place them in an attached ascent vehicle that will be launched into lunar orbit. The ascent vehicle will make an automatic rendezvous and docking with an orbiter that would transfer the samples into a sample-return capsule for their delivery to Earth…. Change5 lunar lander equipment payload composite off…. The lander will carry landing cameras, a panoramic camera, a spectrometer to determine mineral composition, a soil gas analytical instrument, a soil composition analytical instrument, a sampling sectional thermo-detector, and a ground-penetrating radar…….. For acquiring samples, it will be equipped with a robotic arm, a rotary-percussive drill, a scoop for sampling, and separation tubes to isolate individual samples……

After the Long March 5 Yaowu carrier rocket was launched into space, it carried out four separations, including booster separation, fairing separation, primary and secondary separation, and rocket separation. The Chang’e-5 probe consists of four parts: the orbiter, the returner, the lander, and the ascender. After the earth-moon transfer, near-moon braking, and circumlunar flight, the lander and ascender combination will be combined with the orbiter and return The orbiter assembly is separated, the orbiter carries the returner to stay in orbit, and the lander carries the ascender to choose an opportunity to implement a soft landing on the lunar front preselected area, and carry out follow-up work such as automatic lunar surface sampling as planned.

According to the China National Space Administration, the Chang’e-5 mission plans to achieve three major engineering goals: First, breakthrough key technologies such as narrow window multi-orbit binding launch, automatic lunar surface sampling and packaging, lunar take-off, lunar orbital rendezvous and docking, and lunar sample storage. Improve the level of China’s aerospace technology; the second is to realize China’s first automatic sampling and return of extraterrestrial celestial bodies to promote major progress in China’s science and technology; the third is to improve the lunar exploration engineering system and accumulate important talents for China’s future manned moon landings and deep-space exploration Technology and material basis.

The scientific goals of the Chang’e-5 mission are mainly to carry out the landform area detection and geological background survey, obtain the on-site analysis data related to the lunar samples, establish the connection between the on-site exploration data and the laboratory analysis data; carry out the system of the lunar samples , Long-term laboratory research to analyze the structure, physical properties, and material composition of the lunar soil, and deepen the research on the origin and evolution of the moon.

China’s lunar exploration project is a national key science and technology special landmark project clearly defined in the “National Medium and Long-term Science and Technology Development Plan (2006-2020)”. It is a major project to promote the development of aerospace industry, promote scientific and technological progress and innovation, and improve comprehensive national strength. Strategic decision. Since the project was established and officially launched in January 2004, five missions including Chang’e 1, Chang’e 2, Chang’e 3, re-entry flight test and Chang’e 4 have been successfully implemented. This launch mission is the 353rd flight of the Long March series of carrier rockets.

 Images and visuals are from Weibo..

#CNSA China National Space Administration #國家航天局 | #BeltAndRoadinitiative – Lunar Rover – Moon Goddess #Chang’e – Chang’e-4 is currently looking for a nickname…

kevinjamesngLeave a comment

 

On 15th August 2018 Beijing, CNSA – China National Space Administration, currently launched a naming competition to name its upcoming Lunar Rover in which based on CNSA- CAST China Academy of Space Technology Chang’e four unmanned probe …… in which the Chang’e four Lunar Rover will be sent towards the dark side of the moon on December 2018 launch schedule The naming contest, is only selected from numerous of institutes and universities that are associated with the Chang’e four Lunar rover project..

In which an established communications network has been ready few months ago On 0528 Spring morning Beijing Time…  21st  May 2018 at the XiChang Satellite Launch Center in South West China, CNSA-China National Space Administration launched an reliable Long March 4C configuration Carrier Rocket in which is in preparations towards a later mission to Launch Chang’e 4 Lunar Probe that would land on the Dark Side of the moon in which Earth’s Moon Luna is Tidally Lock one side is constant facing Earth the other side is not due to the Earth’s history it slowly gradually stop the Moons rotation..

Ming Dynasty Era (1368–1644 AD) redention of her – Chang’e -the moon goddess….

The Launching towards the Dark side of the moon in which to establishment of communication with Queqiao- Known as the Magpie Bridge in which namely relating to the Jin Dynasty story with Cowhearder and Weaver girl in which the Magpie forms a Milky way bridge to  have the lovers to meet together …..  In which is the same way for making that communications relay point with the other side of the moon with Earth… in which Chang’e is the name of the Luna goddess in which relates towards the Mid-Autumn festival…..  in which related to a time in Imperial China History where there was massive famine where it was the weather environment was so unbearable to live in which it relates to it was so hot it felt like ten suns had heated up on Middle Kingdom –China in which a General whom Archery skills where unmatched that he fired his arrows towards nine suns therefore reducing the hot environment…after the events the Archer General Hou Yi was given the  elixir of immortality in which apparent someone was tempting to steal the elixir then Hou Yi wife intervene by eating the pill then she ascend towards the night sky toward the moon with.. in Hou Yi paid tribute to his wife with many offerings to her during the Mid-Autumn festival..

It is the first time that CNSA has sent a lunar rover towards the other side of the moon, also it’s the first time a Space agency has done so… Chang’e four Lunar Rover is the advance version of also its was currently a backup rover to its older sisters… Landing on the far side of the moon, is the proposal Von Karman Crater, with the flat basin Chang’e four mission profile is to measure the lunar surface temperature over during its mission duration, to measure the various chemicals and material compositions on that side of the moon… also the rover acts like a radio astronomy in low frequencies also cosmic ray structure identification  or solar weather Coronal Mass Ejection observation between the Sun and Earth..

CNSA- China National Space Administration 2016 | its next generation Long March five carrier rocket systems. – The Ice Rocket – have launched…

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On 3rd of November 2016 Wednesday, The CNSA- China National Space Administration, has launched it largest Long March five rocket yet.. From Wenchang Space Launch center on a night time launch. Launching on from a newly developed vertical assembly buildings from launch pad number one, launching from Wenchang coastal line,  with new tooling’s to assemble the CNSA- Long March five from a recently build up towards PROC China’s CNSA- China National Space Administration rocket launching systems programme in heading towards CNSA’s launch complex in Hainan Province from a this year launch calendar, as they recently announce the new CNSA’s Martian rover concept design in which its launch date is 2020 also with the construction extension of addition of more modules to the CNSA’s space station in which is fashion like the Russian’s Mir Space Station..  The Long March five series rocket is presumably the various options in lifting heavy payloads into orbit with as been the PROC’s largest Carrier rocket to date, in which is heading out from trials at Wenchang from its Tianjin construction yard on various modified transportation systems to the vertical assembly building……also it’s yet comparative to least the Boeing’s Delta four rocket carrier systems..

Having its main large fuselage (CZ-5-500) with five meters in diameter with a total length of sixty two meters with four main separation boosters (CZ-5-300) launch with a payload weight of to low earth orbit of twenty five tonnes, with Geo stationary orbit of fourteen tonnes as its main stage engines is fuel by super cold liquid Hydrogen and Oxygen… it has two stages in sum in which one main stage with secondary stage ( CZ-5-HO) to provide the addition of option of a tertiary stage ( Yuanzheng 2) for extended higher attitude orbit….. There has been numerous learnt modifications, two hundred new technologies components learning from the previous generation…  it should be interesting to see whether this is the one that going to be used for the proposed CNSA’s Martian Rover learnt from NASA’s Martian Exploration rovers…. In which is going to be launching Change-5 Lunar Probe in 2017 calendar year…..