Chunks of the moon may blast into space and become near-Earth asteroids, a new study suggests. The finding confirms previous research showing that near-Earth asteroid Kamo’oalewa is a piece of the moon.
That 2021 link to the moon’s history was shocking, as previously only distant asteroids from beyond the orbit of Mars were considered sources of near-Earth asteroids.
The new research, led by University of Arizona planetary scientist Renu Malhotra, offers a mechanism by which moon rocks could be ejected from the lunar surface and become near-Earth asteroids, or space rocks.
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The research also suggests that in addition to Kamo’oalewa, more lunar fragments may be found among Earth asteroids.
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Two unusual properties led researchers from the University of Arizona to study Kamo’oalewa. Firstly, it is an asteroid that is so close to Earth that despite actually orbiting the sun, it appears to orbit Earth, making it a so-called “quasi-satellite.”
Secondly, the asteroid has a strange longevity, with scientists predicting it will remain close to our planet for millions of years. For comparison, other objects in near-Earth orbits stick around our planet for mere decades.
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“We are now establishing that the moon is a more likely source of Kamo’oalewa,” Malhotra said in a university statement Monday (Oct. 23).
The team’s findings could help scientists better understand the population of near-Earth asteroids, which is knowledge that could one day help protect our planet from a strike by such a space rock.
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In 2021, using spectroscopy, which measures the specific wavelengths of light absorbed and emitted by chemical elements, scientists found that the chemistry of Kamo’oalewa closely resembled that of the moon. The asteroid’s composition led scientists back then to suggest Kamo’oalewa may have been ejected from the lunar surface
“We looked at Kamo’oalewa’s spectrum only because it was in an unusual orbit,” Malhotra said. “If it had been a typical near-Earth asteroid, no one would have thought to find its spectrum, and we wouldn’t have known Kamo’oalewa could be a lunar fragment.”
It used to seem implausible that a piece of the moon could be knocked off to reach the orbit of a quai-satellite, based on past research. The moon is covered in craters, which is a “fossil record” of asteroid impacts that would have flung material high above the moon.
Yet most of this launched matter falls back to the lunar surface. On the other hand, some material launched from the moon is ejected with such force that it lands here on Earth.
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Quasi-satellite lunar chunks, by contrast, would need even more kinetic energy to orbit the sun and become near-Earth asteroids.. Malhotra and her team thus set about determining if there was a feasible moon ejection origin for Kamo’oalewa.
Running a simulation, which factored in the gravitational forces of all the planets in the solar system, the crew discovered that a select few lunar fragments could escape the gravity of Earth and the moon and find their way to quasi-satellite orbits around the sun.
That means Kamo’oalewa could be one of those lucky few. The team will now attempt to determine the exact conditions needed to put Kamo’oalewa on its exact orbital pathway. They will also work on deducing the exact age of the quasi-satellite.
