Chinese rocket that slammed onto Moon likely carrying mysterious undisclosed payload
Analysis of crater formed on Moon suggests there was additional undisclosed mass at rocket’s front end, scientists say
Related video: Nasa planning to build ‘human dwellings’ on moon by 2040
An out-of-control rocket booster that crashed onto the Moon in 2022, forming an unusual impact crater, was of Chinese origin and likely carried an undisclosed payload, a new study revealed.
The research, published in the Planetary Science Journal, found that the crater-forming object was a Long March 3C rocket booster from China’s Chang’e 5-T1 mission.
Researchers from the University of Arizona in the US previously suspected the object which crash landed on the Moon in March last year was either debris from a SpaceX Falcon 9 from the DSCOVR mission or from the Chang’e 5-T1 mission.
While later analysis ruled out the possibility that it was a Falcon 9 booster, the Chinese government also disputed claims that it was one of their own spacecraft.
The object is known to have completed several close flybys of the Earth and the Moon in the previous three months, travelling through space at almost 9,600kph (6,000mph) before it crashed and formed a bizarre “double crater”.
“You would expect it to wobble a little bit, particularly when you consider that the rocket body is a big empty shell with a heavy engine on one side....But this was just tumbling end over end, in a very stable way,” study co-author Tanner Campbell said in a statement.
This indicated that the rocket booster likely had a large mass on the top balancing the two engines at the bottom which weighed nearly 550kg (1,200lbs) each without fuel.
However, data disclosed by China notes that the two known instruments on the booster only weighed about 27kg, according to Campbell.
In the new research, scientists assessed data on the trajectory and light emissions from the strange object recorded by ground-based telescopes to “show conclusively” that it was indeed a “Long March 3C rocket body (R/B) from the Chang’e 5-T1 mission.”
“Our trajectory and spectroscopic analyses using ground-based telescope observations show conclusively that WE0913A is in fact the Chang’e 5-T1 R/B,” they wrote in the study.
China’s Chang’e 5-T1 mission was designed to test the strategy planned for the country’s 2017 Chang’e 5 lunar sample return attempt.
The mission consisted of a sample return capsule sent to loop around the Moon and head back to the Earth, simulating a return from the lunar surface after collecting samples.
While the sample return capsule separated and reentered the Earth’s atmosphere, American scientists found that the booster went into a highly elliptical orbit with trajectory calculations showing it may have impacted the far side of the Moon.
Now, researchers not only conclusively know that the Chinese probe crash landed on the Moon, but also that there was an “additional mass” on the front of the rocket body, suggesting the Chinese spacecraft likely carried an undisclosed payload.
Using Nasa’s Lunar Reconnaissance Orbiter (LRO), scientists could image the crater formed on the Moon about 7.5 km from where the probe was predicted to crash land.
They compared images of this Moon region taken by the LRO before and after the impact.
Scientists found that two distinct craters were made, “supporting the hypothesis that there was an additional mass on the rocket body”.
The double crater, according to the researchers, supports the hypothesis that there was additional mass at the front end of the rocket body, opposite the engines.
This mass, they say, is in excess of the disclosed mass of the payload.
“To get those two craters of about the same size, you need two roughly equal masses that are apart from each other,” scientists said.
“Obviously, we have no idea what it might have been – perhaps some extra support structure, or additional instrumentation, or something else. We probably won’t ever know,” they noted.
Subscribe to Independent Premium to bookmark this article
Want to bookmark your favourite articles and stories to read or reference later? Start your Independent Premium subscription today.
Join our commenting forum
Join thought-provoking conversations, follow other Independent readers and see their replies