China’s Chang’e-5 lunar probe has successfully carried out a remote-controlled rendezvous and docking manoeuvre in lunar orbit, according to the China National Space Administration.
In the first such manoeuvre ever carried out by a Chinese spacecraft, Chang’e-5’s ascender on Sunday transferred samples collected on the moon to the orbiter-returner combination in lunar orbit.
Afterwards, the spacecraft separated from the ascender and is to continue orbiting the moon awaiting the right moment to return to Earth. It is expected to land mid-December somewhere in Inner Mongolia.
About 2kg (4.4 pounds) of lunar rock set to be returned to Earth were safely stowed in the return capsule.
Researchers hope the samples, the first to be returned to Earth in 44 years, will provide new information about volcanic activity on the moon.
This is the first time a docking manoeuvre in orbit has been successful without an astronaut present since the United States and the former Soviet Union’s moon landings in the 1960s and 1970s, when the two nations collected the last samples from the moon.
“The Moon is a big place with differences in terrain. Returning samples from different areas helps us to understand the formation and structure of the Moon,” Australian space expert Morris Jones told DPA news agency.
“This mission also helps China in its long-term goal of landing astronauts on the Moon,” Jones added.
A Long March-5 rocket carrying the Chang’e 5 lunar mission lifts off at the Wenchang Space Launch Center in Wenchang in southern China’s Hainan province [L Mark Schiefelbein/AP Photo]Chang’e 5, named after the Chinese goddess of the moon, was launched in late November from the spaceport in Wenchang on the southern Chinese island of Hainan.
The space module landed on the moon on Tuesday and started to collect rock samples on Wednesday, leaving the moon the following day.
The moon mission is another important step in China’s ambitious space programme that also includes building its own space station by 2022 and sending an exploration mission to Jupiter by 2029.