{"id":772412,"date":"2023-11-12T05:46:56","date_gmt":"2023-11-12T09:46:56","guid":{"rendered":"http:\/\/spaceweekly.com\/?p=772412"},"modified":"2023-11-12T05:46:56","modified_gmt":"2023-11-12T09:46:56","slug":"and-then-there-were-3","status":"publish","type":"post","link":"https:\/\/spaceweekly.com\/?p=772412","title":{"rendered":"And then there were 3!"},"content":{"rendered":"


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The first images from the Lucy spacecraft of the asteroid Dinkinesh showed 2 asteroids, but newer images from the Lucy spacecraft show that the smaller asteroid is really 2 objects. So Dinkinesh is a 3-asteroid system. Image via NASA\/ Goddard\/ SwRI\/ Johns Hopkins APL.<\/figcaption><\/figure>\n

Update: Dinkinesh is not 2, but 3 asteroids!<\/h3>\n

We got a first closeup look at asteroid Dinkinesh last week, following a flyby from the Lucy spacecraft. We were wowed by finding that Dinkinesh consists of one larger body and one smaller moonlet. Now \u2026 another surprise. On November 7, 2023, NASA shared a new image, showing Dinkinesh as a family of three! It seems Dinkinesh\u2019s smaller moonlet is what\u2019s called a contact binary. That is, the moonlet itself is a double system whose components are so close they appear to touch, or possibly have merged. New views downloaded from the Lucy spacecraft \u2013 from 6 minutes after closest approach \u2013 clearly show the two objects butted up against each other. So Dinkinesh is three objects. And this trio in the main asteroid belt marks the first time we\u2019ve seen a contact binary orbiting with a larger asteroid.<\/p>\n

We know of some stars that are contact binaries, but smaller solar system objects can be, too. For example, there\u2019s Arrokoth, which the New Horizons spacecraft spotted in the Kuiper Belt back in 2019.<\/p>\n

John Spencer of the Southwest Research Institute (SwRI) explained: <\/p>\n

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Contact binaries seem to be fairly common in the solar system. We haven\u2019t seen many up close, and we\u2019ve never seen one orbiting another asteroid. We\u2019d been puzzling over odd variations in Dinkinesh\u2019s brightness that we saw on approach, which gave us a hint that Dinkinesh might have a moon of some sort, but we never suspected anything so bizarre!<\/p>\n<\/blockquote>\n

Hal Levison of SwRI added: <\/p>\n

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It is puzzling, to say the least. I would have never expected a system that looks like this. In particular, I don\u2019t understand why the two components of the satellite have similar sizes. This is going to be fun for the scientific community to figure out.<\/p>\n<\/blockquote>\n

Lucy\u2019s first closeup view of Dinkinesh<\/h3>\n

The first surprise came on November 2, when NASA shared its initial images of the Lucy flyby of Dinkinesh from the day before. While on the way for its mission to study the Trojan asteroids in Jupiter\u2019s orbit, Lucy made a test run past a main-belt asteroid. The plan was to test the spacecraft\u2019s tracking system by imaging a little asteroid named Dinkinesh as it flew past it at 10,000 mph (16,000 km\/h). But Dinkinesh had a surprise waiting. As the spacecraft passed within 270 miles (430 km) of its target, it found that Dinkinesh is really two asteroids, with one larger and one smaller. <\/p>\n

The name Dinkinesh means \u201cmarvelous\u201d in Amharic. Levison said: <\/p>\n

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Dinkinesh really did live up to its name; this is marvelous. When Lucy was originally selected for flight, we planned to fly by seven asteroids. With the addition of Dinkinesh, two Trojan moons, and now this satellite, we\u2019ve turned it up to 11.<\/p>\n<\/blockquote>\n

And now it\u2019s 12 \u2026<\/p>\n

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Ajustando un poco la animaci\u00f3n.#Dinkinesh<\/a> #Lucy<\/a><\/p>\n

NASA\/Goddard\/SwRI\/ASU\/j. Roger pic.twitter.com\/mV1dx3q7Bf<\/a><\/p>\n

\u2014 landru79 (@landru79) November 2, 2023<\/a><\/p>\n<\/blockquote>\n

\"Lucy
When the Lucy spacecraft first encountered asteroid Dinkinesh, it imaged 2 asteroids. Lucy captured this image, showing the smaller satellite slightly behind the main asteroid, at 12:55 p.m. EDT (16:55 UTC) on November 1, 2023. At that time, the moonlet\u2019s position blocked our view of its binary nature. Image via NASA\/ Goddard\/ SwRI\/ Johns Hopkins APL\/ NOAO.<\/figcaption><\/figure>\n

The 2024 lunar calendars are here! Best Christmas gifts in the universe! Check \u2019em out here. <\/p>\n

An early look at Dinkinesh<\/h3>\n

Lucy got a glimpse of its target back in September. As the team continued to get images of Dinkinesh over the next couple of months, they suspected that it could be binary. The tip-off was that the asteroid\u2019s brightness changed with time. That\u2019s much like how astronomers have discovered some planets, by noting stars that change brightness as planets pass in front of them.<\/p>\n

The first images of Dinkinesh show that the parent asteroid is about 0.5 mile (790 m) at its widest, while the moonlet is around 0.15 mile (220 m) in size.<\/p>\n

This successful mini-mission made Dinkinesh and its moon (now moons!) the smallest main-belt asteroids ever well-imaged by a spacecraft. Keith Noll, Lucy project scientist with NASA, said: <\/p>\n

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We knew this was going to be the smallest main belt asteroid ever seen up close. The fact that it is two makes it even more exciting. In some ways these asteroids look similar to the near-Earth asteroid binary Didymos and Dimorphos that DART saw, but there are some really interesting differences that we will be investigating.<\/p>\n<\/blockquote>\n

And the test of the tracking system was a smashing success! As Tom Kennedy, guidance and navigation engineer at Lockheed Martin, said:<\/p>\n

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This is an awesome series of images. They indicate that the terminal tracking system worked as intended, even when the universe presented us with a more difficult target than we expected.<\/p>\n<\/blockquote>\n

Where\u2019s Lucy heading next?<\/h3>\n

What\u2019s next for Lucy? In December 2024, the spacecraft will pass Earth for a second gravity assist. Then it will be off to the orbit of Jupiter where it will meet the Trojan asteroids. The Trojans are asteroids that have been captured by Jupiter\u2019s strong gravity and that have presumably been traveling with Jupiter for billions of years in its orbit around the sun.<\/p>\n

\"Two
The Lucy spacecraft first spied asteroid Dinkinesh in September. Both images show the movement of Dinkinesh from September 2 to 5, 2023, the image at right with Dinkinesh circled to help you find the moving dot. Image via NASA\/ Goddard\/ SwRI\/ Johns Hopkins APL.<\/figcaption><\/figure>\n

The path of the Lucy spacecraft to Dinkinesh<\/h3>\n

Dinkinesh was, in fact, not part of the original plan. Lucy\u2019s original plan was to visit the main-belt asteroid (52246) Donaldjohanson in 2025, followed by a tour of nine Trojan asteroids starting in 2033. However, the team found a small, conveniently located asteroid that Lucy could visit between its first and second gravity assists from Earth. Raphael Marschall of the Nice Observatory in France identified Dinkinesh, which was estimated at that time to be 0.4 miles (700 m) in size. Marschall said:<\/p>\n

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There are millions of asteroids in the main asteroid belt. I selected 500,000 asteroids with well-defined orbits to see if Lucy might be traveling close enough to get a good look at any of them, even from a distance. This asteroid really stood out. Lucy\u2019s trajectory as originally designed will take it within 40,000 miles (64,000 km) of the asteroid, at least three times closer than the next closest asteroid.<\/p>\n<\/blockquote>\n

So, with a slight change of plans and direction, the team brought Lucy even closer to the asteroid. Rather than the original planned distance of 40,000 miles, Lucy buzzed by only 270 miles (430 km) away.<\/p>\n

Lucy\u2019s journey<\/h3>\n

Lucy launched in October 2021. Later, a year after the spacecraft\u2019s launch, Lucy made its first flyby of Earth. Then, on January 24, 2023, Lucy\u2019s team added a new target to its mission: Dinkinesh. With a small maneuver, Lucy was able to get a close look at this asteroid two years ahead of its originally planned rendezvous with a main-belt asteroid.<\/p>\n

Dinkinesh is the Ethiopian (Amharic language) name for the human-ancestor fossil that we know of as Lucy, after which the Lucy mission is named. Dinkinesh means you are marvelous<\/em> in Amharic, and was proposed by the Lucy mission team for the previously unnamed asteroid.<\/p>\n

\"Art
Artist\u2019s concept of the Lucy spacecraft making a close flyby of an asteroid. Image via NASA.<\/figcaption><\/figure>\n

A tracking-system test for the Lucy spacecraft<\/h3>\n

The new target made a good test for the spacecraft\u2019s inventive tracking system. Previously, it\u2019s been difficult to determine just how far a spacecraft is from an asteroid. That makes it hard to know exactly where to point the cameras. Levison said:<\/p>\n

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In the past, most flyby missions have accounted for this uncertainty by taking a lot of images of the region where the asteroid might be, meaning low efficiency and lots of images of blank space. Lucy will be the first flyby mission to employ this innovative and complex system to automatically track the asteroid during the encounter. This novel system will allow the team to take many more images of the target.<\/p>\n<\/blockquote>\n

The angle at which Lucy approached Dinkinesh relative to the sun is similar to what will happen during the Trojan asteroid encounters. As a result, the scientists got to practice under similar conditions years before the main event.<\/p>\n

Bottom line: The Lucy spacecraft has revealed yet another surprise! The moonlet orbiting the larger body of asteroid Dinkinesh is actually two objects, what scientists call a contact binary.<\/p>\n

Via NASA, NASA and NASA<\/p>\n

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Kelly Kizer Whitt<\/h4>\n

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About the Author:<\/h6>\n

Kelly Kizer Whitt has been a science writer specializing in astronomy for more than two decades. She began her career at Astronomy Magazine, and she has made regular contributions to AstronomyToday and the Sierra Club, among other outlets. Her children\u2019s picture book, Solar System Forecast, was published in 2012. She has also written a young adult dystopian novel titled A Different Sky. When she is not reading or writing about astronomy and staring up at the stars, she enjoys traveling to the national parks, creating crossword puzzles, running, tennis, and paddleboarding. Kelly lives in Wisconsin.<\/p>\n<\/p><\/div>\n<\/p><\/div>\n