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How an ancient asteroid strike carved out 2 grand canyons on the moon

That's good news for NASA, which is looking to land astronauts at the south pole on the near, Earth-facing side later this decade
By MARCIA DUNN, AP Aerospace Writer
How an ancient asteroid strike carved out 2 grand canyons on the moon

That's good news for NASA, which is looking to land astronauts at the south pole on the near, Earth-facing side later this decade

So we studied an impact crater on the far side of the moon near the South Pole, not too far from where NASA's astronauts will be landing in the next few years. And what we, in particular, we're examining was the debris thrown out of this impact crater. And that debris was remarkable in that it actually carved two canyons, nearly 300 kilometers long. 20 to 25 kilometers wide and 2.5 kilometers deep. From *** scientific point of view, how they're formed is fascinating. Um, we can actually calculate the path of debris that produced these canyons. In this case, we're talking about streams of rock, not streams of water, and these streams of rock carve these canyons in about 10 minutes. So this was *** very violent, very dramatic geologic process. For the Artemis exploration program, these results are interesting because they indicate that most of the debris that was ejected out of this basin was thrown away from the South Pole, away from where the astronauts are going to be landing. That means that the landing sites for the Artemis astronauts will not be blanketed with *** large amount of this debris. Which means they'll be able to access even older rocks from the earliest epic of lunar history.
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How an ancient asteroid strike carved out 2 grand canyons on the moon

That's good news for NASA, which is looking to land astronauts at the south pole on the near, Earth-facing side later this decade
By MARCIA DUNN, AP Aerospace Writer
New research shows that when an asteroid slammed into the moon billions of years ago, it carved out a pair of grand canyons on the lunar far side.See the story in the video aboveThat's good news for scientists and the National Aeronautics and Space Administration, which is looking to land astronauts at the south pole on the near, Earth-facing side, untouched by that impact and containing older rocks in their original condition.U.S. and British scientists used photos and data from NASA's Lunar Reconnaissance Orbiter to map the area and calculate the path of debris that produced these canyons about 3.8 billion years ago. They reported their findings Tuesday in the journal Nature Communications.The incoming space rock passed over the lunar south pole before hitting, creating a huge basin and sending streams of boulders hurtling at a speed of nearly 1 mile a second (1 kilometer a second). The debris landed like missiles, digging out two canyons comparable in size to Arizona's Grand Canyon in barely 10 minutes. The latter, by comparison, took millions of years to form."This was a very violent, a very dramatic geologic process," said lead author David Kring of the Lunar and Planetary Institute in Houston.Kring and his team estimate the asteroid was 15 miles (25 kilometers) across and that the energy needed to create these two canyons would have been more than 130 times that in the world's current inventory of nuclear weapons.Most of the ejected debris was thrown in a direction away from the south pole, Kring said.That means NASA's targeted exploration zone around the pole, mostly on the moon's near side, won't be buried under debris, keeping older rocks from 4 billion plus years ago exposed for collection by moonwalkers. These older rocks can help shed light not only on the moon's origins, but also Earth's.Kring said it's unclear whether these two canyons are permanently shadowed like some of the craters at the moon's south pole. "That is something that we're clearly going to be reexamining," he said.Permanently shadowed areas at the bottom of the moon are thought to hold considerable ice, which could be turned into rocket fuel and drinking water by future moonwalkers.NASA's Artemis program, the successor to Apollo, aims to return astronauts to the moon this decade. The plan is to send astronauts around the moon next year, followed a year or so later by the first lunar touchdown by astronauts since Apollo.___The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Science and Educational Media Group and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.
CAPE CANAVERAL, Fla. (AP) —

New research shows that when an asteroid slammed into the moon billions of years ago, it carved out a pair of grand canyons on the lunar far side.

See the story in the video above

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That's good news for scientists and the National Aeronautics and Space Administration, which is looking to land astronauts at the south pole on the near, Earth-facing side, untouched by that impact and containing older rocks in their original condition.

U.S. and British scientists used photos and data from NASA's Lunar Reconnaissance Orbiter to map the area and calculate the path of debris that produced these canyons about 3.8 billion years ago. They reported their findings Tuesday in the journal Nature Communications.

The incoming space rock passed over the lunar south pole before hitting, creating a huge basin and sending streams of boulders hurtling at a speed of nearly 1 mile a second (1 kilometer a second). The debris landed like missiles, digging out two canyons comparable in size to Arizona's Grand Canyon in barely 10 minutes. The latter, by comparison, took millions of years to form.

"This was a very violent, a very dramatic geologic process," said lead author David Kring of the Lunar and Planetary Institute in Houston.

Kring and his team estimate the asteroid was 15 miles (25 kilometers) across and that the energy needed to create these two canyons would have been more than 130 times that in the world's current inventory of nuclear weapons.

Most of the ejected debris was thrown in a direction away from the south pole, Kring said.

That means NASA's targeted exploration zone around the pole, mostly on the moon's near side, won't be buried under debris, keeping older rocks from 4 billion plus years ago exposed for collection by moonwalkers. These older rocks can help shed light not only on the moon's origins, but also Earth's.

Kring said it's unclear whether these two canyons are permanently shadowed like some of the craters at the moon's south pole. "That is something that we're clearly going to be reexamining," he said.

Permanently shadowed areas at the bottom of the moon are thought to hold considerable ice, which could be turned into rocket fuel and drinking water by future moonwalkers.

NASA's Artemis program, the successor to Apollo, aims to return astronauts to the moon this decade. The plan is to send astronauts around the moon next year, followed a year or so later by the first lunar touchdown by astronauts since Apollo.

___

The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Science and Educational Media Group and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.


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