#mu69

Things to know about #MU69:

• Red

• Contact binary object; halves are at 1:3 ratio

• Rotation 15 hours; albedo at 13% on the brightest parts, 6% on the darkest

• not a food; definitely a snowman

New Horizons Successfully Explores Ultima Thule

NASA's New Horizons spacecraft flew past Ultima Thule, the most distant target in history, in the early hours of New Year's Day, ushering in the era of exploration from the enigmatic Kuiper Belt, a region of primordial objects that holds keys to understanding the origins of the solar system.

THE WOODLANDS, Texas — Ultima Thule’s history may be written in the sum of its parts.

New analyses suggest that the tiny space rock formed from a rotating cloud of even smaller rocks that collapsed into two individual objects. Those objects then gently collided in the early days of the solar system, creating the distant double-lobed world studied by the passing New Horizons spacecraft, researchers reported March 18 at the Lunar and Planetary Science Conference.

NASA’s New Horizons flew by Ultima Thule, officially known as MU69, on January 1 (SN Online: 12/30/18). The first images that the spacecraft sent back suggested a snowman-shaped world, with a larger lobe that the team dubbed “Ultima” and a slightly smaller bulb called “Thule” (SN: 2/2/19, p. 7). But subsequent images showed that the lobes look more like flat pancakes or hamburgers than jolly snowballs (SN: 3/16/19, p. 15).

The first map of the space rock’s geology may help explain that flatness. The map shows distinct mounds on both lobes whose borders are still visible today, planetary scientist Jeff Moore said at the meeting. Moore, of NASA’s Ames Research Center in Moffett Field, Calif., and his colleagues think that those mounds represent small or medium-sized rocks that organized themselves into a rotating disk before merging into two separate lobes that then collided. That rotation could have spread out material in a lobe, flattening it. “The disk was spinning … and that’s why we have the hamburger shape,” Moore said.

Planetary scientist William McKinnon of Washington University in St. Louis agrees, although he adds that “this has not been proven.” McKinnon also presented computer simulations of the final collision between Ultima and Thule that showed that the two must have been moving at about 2 meters per second when they collided. That’s about as fast as a person walking into a wall at a brisk pace, McKinnon said.

FRANKENSTEIN’S MONSTER

This preliminary map of Ultima Thule’s geology shows how the space rock could have come together from many distinct objects. Each color represents a different possible section of the final body (a few examples highlighted with arrows), each of which could have been a separate smaller rock billions of years ago. CREDIT: NASA, JHU APPLIED PHYSICS LABORATORY, SOUTHWEST RESEARCH INSTITUTE, ESA

That gentle crash, plus the Frankenstein body, suggests that planetesimals like Ultima Thule form from clouds of dust and rock clumping together under the force of their own gravity. Before New Horizons, it wasn’t clear if these proto-planets formed from cloud collapse or from small rocks slowly sticking together to form larger rocks over time.

“I think it's plausible” that clouds of rotating pebbles could have coalesced into Ultima Thule's two lobes, says planetary scientist David Nesvorny of the Southwest Research Institute in Boulder, Colo. He and colleagues suggested in a 2010 study that collapsing clouds of small rocks in the Kuiper Belt — the distant zone of cold, primitive space rocks beyond Neptune’s orbit where Ultima Thule lives — could form close pairs of objects.

NASA’s New Horizons Mission successfully completed its second flyby of its journey through the Kuiper Belt (the first being Pluto in the summer of 2015). This time, its target was Ultima Thule, aka 2014 MU69. The flyby happened in the wee small hours of the morning here on the east coast, just after the new year rang in, but it wasn’t until just before noon that scientists received confirmation from the spacecraft, including the pixelated image above. 

You can show your love for the New Horizons mission and all of space exploration with these earring sets by Pretty Little Earth (top) and Jabebo (middle) or with this choker necklace by Space Bling (bottom). All of which will also be available at our AAS233 BOOTHtique starting on Monday! 

Previous post featuring: New Horizons, Pluto, Pretty Little Earth, Jabebo, and SpaceBling.