NASA Selects Two Missions to Explore the Early Solar System

Scott Manley posted a video a few hours ago about the landing of the sample-return capsule:


NASA's OSIRIS REx spacecraft completed its primary mission by returning a large sample from the asteroid Bennu to Earth over the weekend, dropping its sample return capsule neatly onto a test range in Utah after giving the engineers some concern that it might crash.
Now the material has been recovered it'll be sent to labs to be analyzed using technologies and instrumentation which could never fly on a spacecraft.Meanwhile the parent spacecraft is renamed OSIRIS APEX and is headed toward a rendezvous with Apophis.
 
It will be very interesting see what scientific-analysis of the regolith sample will reveal. On another note Anton Petrov has put out an interesting video concerning the OSIRIS-REx sample return mission along with several precursor sample-return missions from other space-probes:


Hello and welcome! My name is Anton and in this video, we will talk about a brief history of sample return missions

0:00 Osiris rex capsule retrieval
1:20 Samples are here, but we don't know much yet
2:00 Perfect landing
2:40 First mission - Stardust
3:15 Major discoveries from comet Wild 2
4:05 JAXA launches a mission to an asteroid
5:00 Major findings from a strange asteroid
6:05 Genesis mission and its unusual landing
6:35 Ryugu retrieval and incredible success by Japan...again
7:30 Strange discoveries
9:15 Weird bubbly surface on Bennu
10:00 Water?! and strange liquids inside crystals
11:30 Bennu samples are more exciting
 
This video concerning the OSIRIS-REx mission and the return of the sample-capsule was uploaded the other day after NASA opened the container:


NASA finally opened the space capsule containing the largest asteroid sample ever collected by a space mission. The sample came from Bennu, a potentially hazardous asteroid that's like a time capsule from the early solar system. On 26 September 2023, scientists at NASA's Johnson Space Center in Houston opened the lid on the sample return canister from the OSIRIS-REx mission, which had returned to Earth two days earlier with a sample from the asteroid. As the lid was lifted, scientists gasped at what they saw: a layer of black dust and debris on the avionics deck of the canister. Also, the sample weighed 100 grams more than what was collected at Bennu. This was unexpected, as the sample was safely stored in a sealed container all along the way.
So, how did this happen in the first place? What's the source of the unexpected black dust on the avionics deck of the canister? Finally, and most importantly, what do scientists expect to find in the detailed analysis of the largest asteroid sample that has ever returned to Earth?
The 74th episode of the Sunday Discovery Series answers all these questions in detail.
 
It will be interesting to see what the main will reveal, from TheSpaceBucket:


It’s been over 7 years since NASA launched a spacecraft intended to retrieve samples from an Asteroid. A few weeks ago the sample successfully landed in the Utah desert and was just partially opened by NASA scientists. Inside is the largest asteroid sample ever returned to Earth. Initial scientific returns are promising, showing that Bennu is rich in both water and carbon-containing compounds.
When NASA picked Asteroid Bennu, they were hoping that it would contain these exact features. Interestingly, when the spacecraft first made contact, it actually grabbed more rocks and dust than expected. Now NASA is able to figure out exactly how much was extracted and the quality of the sample.
Even though the capsule landed a few weeks ago, NASA is taking its time and doing everything in its power to ensure the samples are not contaminated. This way they can be sure that whatever features and compounds shown are from the asteroid and not Earth. Here I will go more in-depth into the initial results, why they are so important, plans for the future, and more.
 
According to a NASA blog post, the curation team that's been processing the samples says it has removed and collected 70.3 grams (2.48 ounces) of Bennu material from the capsule so far — and it hasn't even actually been opened yet. Those 70.3 grams come from just the area on the outside (and part of the inside) of the sample collector's head.

"After multiple attempts at removal, the team discovered two of the 35 fasteners on the TAGSAM head could not be removed with the current tools approved for use in the OSIRIS-REx glovebox," it says. "The team has been working to develop and implement new approaches to extract the material inside the head, while continuing to keep the sample safe and pristine."

Basically, the OSIRIS-REx scientists have many regulations in place for how to deal with the sample because it's very important they don't interfere with its preservation. For instance, the blog post says, all curation work is performed inside a special glove box that has a constant flow of nitrogen. Without that flow, the sample might be exposed to Earth's atmosphere.
 
NASA Asteroid Sampling Mission Renamed OSIRIS-APEX for New Journey


View: https://youtu.be/hjJIyZKbHqc


This animation depicts the orbital trajectory of asteroid 99942 Apophis as it zooms safely past Earth on April 13, 2029. Earth’s gravity will slightly deflect the trajectory as the 1,100-foot-wide (340-meter-wide) near-Earth object comes within 20,000 miles (32,000 kilometers) of our planet’s surface. The motion has been sped up 2,000 times.
Credit: NASA/JPL-Caltech
 
  • Early analysis of the asteroid Bennu sample returned by NASA’s OSIRIS-REx mission has revealed dust rich in carbon, nitrogen, and organic compounds, all of which are essential components for life as we know it. Dominated by clay minerals, particularly serpentine, the sample mirrors the type of rock found at mid-ocean ridges on Earth.
  • The magnesium-sodium phosphate found in the sample hints that the asteroid could have splintered off from an ancient, small, primitive ocean world. The phosphate was a surprise to the team because the mineral had not been detected by the OSIRIS-REx spacecraft while at Bennu.
  • While a similar phosphate was found in the asteroid Ryugu sample delivered by JAXA’s (Japan Aerospace Exploration Agency) Hayabusa2 mission in 2020, the magnesium-sodium phosphate detected in the Bennu sample stands out for its purity (that is, the lack of other materials included in the mineral) and the size of its grains, unprecedented in any meteorite sample.
 

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