#52246

This dark, main-belt body was aptly named after American paleoanthropologist Donald Johanson, who discovered the “Lucy” hominid fossil in 1974. Scientists weren’t quite sure what they were going to find in the spacecraft’s photos. Seen as an unresolved point of light from Earth, Donaldjohanson has an unusually variable brightness, hinting that it’s either a binary body or an extremely elongated one.

It turned out to be both. Lucy perfectly framed the asteroid as it flew past, revealing a heavily cratered, lumpy world with two prominent lobes conjoined at a relatively narrow neck. This contact-binary shape is common among small bodies in the solar system. Its rocky, carbon-rich surface is covered with craters of varying crispness with the occasional isolated boulder, and it bears linear features, especially in the neck area, that might have resulted from landslides. Such features have likewise been seen asteroids during close visits in the past, like 243 Ida (which is larger) and 4179 Toutatis (which is smaller).  

But Donaldjohanson held another surprise for the Lucy team: It’s much larger than had been estimated from Earth, about 8 kilometers (5 miles) long at the widest point. All of Lucy’s photos were captured within 30 minutes of its closest approach, and this unexpected breadth made the asteroid spill beyond the frame in most of the images returned so far. But many more photos are in the queue to be returned to Earth over the coming days to weeks.  

The apparent rotation in the animation above is caused by Lucy’s motion past the asteroid. Actually, Donaldjohanson is an unusually slow rotator, taking 251 hours to complete a single spin. It’s one of a family of fragments cleaved off much-larger 163 Erigone during an asteroidal collision roughly 130 million years ago.

The spacecraft came at Donaldjohanson from a direction almost straight away from the Sun, a challenging encounter geometry. Had the spacecraft tracked the asteroid throughout the flyby, its sensitive instruments would have pointed directly back at the Sun. So the spacecraft turned away from its target just before closest approach, abruptly ending its observations.

NASA’s Lucy spacecraft, heading outward toward Jupiter’s orbit, captured a new addition to the menagerie of asteroids visited at close range when it flew within 1,000 kilometers (600 miles) of 52246 Donaldjohanson on Sunday, April 20th. Lucy zipped by at a relative speed of 13.4 kilometers per second (30,000 mph) at 17:51 Universal Time.

This dark, main-belt body was aptly named after American paleoanthropologist Donald Johanson, who discovered the “Lucy” hominid fossil in 1974. Scientists weren’t quite sure what they were going to find in the spacecraft’s photos. Seen as an unresolved point of light from Earth, Donaldjohanson has an unusually variable brightness, hinting that it’s either a binary body or an extremely elongated one.

It turned out to be both. Lucy perfectly framed the asteroid as it flew past, revealing a heavily cratered, lumpy world with two prominent lobes conjoined at a relatively narrow neck. This contact-binary shape is common among small bodies in the solar system. Its rocky, carbon-rich surface is covered with craters of varying crispness with the occasional isolated boulder, and it bears linear features, especially in the neck area, that might have resulted from landslides. Such features have likewise been seen asteroids during close visits in the past, like 243 Ida (which is larger) and 4179 Toutatis (which is smaller).  

But Donaldjohanson held another surprise for the Lucy team: It’s much larger than had been estimated from Earth, about 8 kilometers (5 miles) long at the widest point. All of Lucy’s photos were captured within 30 minutes of its closest approach, and this unexpected breadth made the asteroid spill beyond the frame in most of the images returned so far. But many more photos are in the queue to be returned to Earth over the coming days to weeks.  

The apparent rotation in the animation above is caused by Lucy’s motion past the asteroid. Actually, Donaldjohanson is an unusually slow rotator, taking 251 hours to complete a single spin. It’s one of a family of fragments cleaved off much-larger 163 Erigone during an asteroidal collision roughly 130 million years ago.

The spacecraft came at Donaldjohanson from a direction almost straight away from the Sun, a challenging encounter geometry. Had the spacecraft tracked the asteroid throughout the flyby, its sensitive instruments would have pointed directly back at the Sun. So the spacecraft turned away from its target just before closest approach, abruptly ending its observations.

Now that Lucy has demonstrated that it’s capable of updating its own knowledge of a target object’s position in space well enough to aim its science instruments, its science team knows it can make the most of those upcoming Trojan asteroid encounters without having to waste precious data on empty space.