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Category: asteroids

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  • China extends its reach into the Solar System with launch of asteroid mission

    A Chinese spacecraft built to collect specimens from an unexplored asteroid and return them to Earth successfully launched Wednesday from a military-run spaceport in the country’s mountainous interior.

    Liftoff aboard a Long March 3B rocket at 1:31 pm EDT (17:31 UTC) from the Xichang launch base kicked off the second mission in a series of Chinese probes to explore the Solar System. This mission, designated Tianwen-2, follows the Tianwen-1 mission, which became the first Chinese spacecraft to land on Mars in 2021.

    Chinese officials confirmed the 2.1-metric ton Tianwen-2 spacecraft unfurled its fan-shaped solar arrays shortly after launch, marking an auspicious start to a decade-long tour of the Solar System.

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  • Have we finally solved mystery of magnetic moon rocks?

    NASA’s Apollo missions brought back moon rock samples for scientists to study. We’ve learned a great deal over the ensuing decades, but one enduring mystery remains. Many of those lunar samples show signs of exposure to strong magnetic fields comparable to Earth’s, yet the Moon doesn’t have such a field today. So, how did the moon rocks get their magnetism?

    There have been many attempts to explain this anomaly. The latest comes from MIT scientists, who argue in a new paper published in the journal Science Advances that a large asteroid impact briefly boosted the Moon’s early weak magnetic field—and that this spike is what is recorded in some lunar samples.

    Evidence gleaned from orbiting spacecraft observations, as well as results announced earlier this year from China’s Chang’e 5 and Chang’e 6 missions, is largely consistent with the existence of at least a weak magnetic field on the early Moon. But where did this field come from? These usually form in planetary bodies as a result of a dynamo, in which molten metals in the core start to convect thanks to slowly dissipating heat. The problem is that the early Moon’s small core had a mantle that wasn’t much cooler than its core, so there would not have been significant convection to produce a sufficiently strong dynamo.

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  • NASA debuts free documentary on the race to stop killer asteroids

    NASA has just premiered Planetary Defenders, a fascinating documentary looking at the high-stakes work geared toward protecting Earth from large asteroids spotted coming our way. 

    The 75-minute production (above) features the astronomers and scientists who are working tirelessly to identify and monitor asteroids considered a potential threat — including, briefly, this one that made headlines earlier this year.

    Planetary Defenders captures “the intricate and collaborative efforts of these unsung heroes, blending cutting-edge science with personal stories to reveal the human spirit behind this critical global endeavor,” NASA said, adding: “Witness the drama, the challenges, and the triumphs of those on the front lines of planetary defense.”

    The documentary’s trailer should certainly be enough to whet your appetite. It’s full of contributors offering some pretty dramatic takes on the issue of incoming asteroids. 

    “Those objects are big enough to cause what we would call truly global devastation, meaning that they could cause global extinction events,” says one. “The good news is that we’ve found more than about 95% of them. When we get down to smaller objects, things that are larger than, let’s say, about 100 meters across or so, the picture is not so rosy.” 

    Another helpfully points out: “The dinosaurs went extinct because they didn’t have a space program. We do have one.”

    But then someone else pipes up: “The day is coming when the Earth will get impacted.”

    Another contributor adds: “There’s almost certainly a decent-sized astroid out there that is going to pose an impact threat to the planet. We’re just trying to find it right now.”

    Rest assured, some smarts minds are tackling the issue not only of finding potentially hazardous objects, but also how we might prevent them from slamming into Earth and ruining our day. 

    An example of this impressive work was NASA’s Double Asteroid Redirection Test (DART), which became the first mission to successfully demonstrate the ability to redirect an asteroid as a method of planetary defense. 

    Launched in 2021, DART targeted Dimorphos, a small moonlet orbiting the larger asteroid Didymos — neither of which posed a threat to Earth. The spacecraft, about the size of a small car, intentionally collided with Dimorphos in September 2022, with the impact altering Dimorphos’ orbit around Didymos, proving that it is possible to change the course of an asteroid. 

    DART’s success means that humanity now has a proven, scalable technology for asteroid deflection, and the technical foundation to develop more robust planetary defense systems in the future. Let’s just hope they can nail the technology before a biggie comes along.