NASA Space Science News
NASA's NEAR Shoemaker spacecraft swooped 3 miles above the surface
of 433 Eros on Oct 26th, marking its closest-ever approach to
the tumbling space rock.
Early this morning, NASA's NEAR Shoemaker spacecraft, which has
been in orbit around asteroid 433 Eros since February, swooped
just 3 miles (about 5 km) over the tumbling space rock. The elevation
of the flyby was similar to the cruising altitude of a commuter
jet on Earth. No space probe has ever been so close to a minor
planet.
"Although
NEAR was very close to Eros -- the closest we've been before was
about 35 km in July -- the spacecraft was never in any danger,"
says Andrew Cheng, the NEAR Shoemaker project scientist at Johns
Hopkins University. "We chose to fly over an area of the southern
hemisphere where, if we were off-target, the uneven gravity of
the irregular asteroid would actually kick us back into a higher
orbit." Compared to a commercial airliner flying hundreds of miles
per hour above Earth, NEAR traveled slowly through Eros's weak
gravitational field. Its maximum speed was only 14 miles per hour
(23 kph).
Above:
This image was taken in the early hours of October 26, 2000 as
NEAR Shoemaker was skimming over the surface of Eros. Most of
the 350-meter wide scene is covered in rocks of all sizes and
shapes. The large boulder just below the center of the picture
is about 15 meters (50 feet) wide. The smallest visible rocks
are about 1.4 meters (5 feet) across.
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Facts about
Eros
 Eros circles the Sun once every 1.76
Earth years. It spins on its axis once every 5.27 hours.
 Eros is about 21 by 8 by 8 miles (33
by 13 by 13 kilometers) in size. Its shape has been compared
to a shoe, a battered boat, or a peanut.
 The gravity on Eros is very weak but
enough to hold a spacecraft. A 100-pound (45-kilogram) object
on Earth would weigh about 1 ounce on Eros.
 Eros is "Near-Earth Asteroid" or NEA.
Its next close approach to Earth will come in January 2012,
when it will pass 0.178 AU from our planet. Although Eros
is a NEA, there is no chance that it will collide with Earth
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The Johns
Hopkins University Applied Physics Lab, which manages the NEAR
mission for NASA, announced on Wednesday that the flyover had
gone as lanned and that the spacecraft was heading back to a higher
orbit.
While the
dangers from skimming so close to Eros were slight, the potential
rewards were great.
"One of the
mysteries we've encountered on Eros is a curious deficiency of
small craters," explained Cheng. "Something seems to be obliterating
impact features smaller than a few tens of meters across."
On worlds
that are peppered with impact scars (like the Moon or Mercury)
there are always many small craters for each large one. That's
true on Eros, too, but images of the asteroid collected during
the first 8 months of the NEAR mission reveal fewer small craters
than researchers expected. On Earth small impact scars wear away
because of weather, but there is no weather on airless Eros. Some
other process must be at work and scientists would like to know
what it is.
"The high-resolution
pictures we captured today will show these small scales very clearly,"
says Cheng. "They may give us some hints about what's going on."
While Eros
seems to be running low on diminutive craters, it boasts a surprising
surplus of boulders.
"Clark Chapman
of the Southwest Research Institute has noticed that the surface
of Eros is littered with 10- to 20-meter wide boulders, many more
than we would expect [by simply extrapolating the number of large
boulders to smaller sizes]," continued Cheng. "This is telling
us that there's something funny about Eros's cratering history
in the 'recent' geological past.
Above:
Another image from NEAR Shoemaker's Oct. 26 low-altitude flyover
of Eros. The large boulder near the bottom of the image is about
25 meters (82 feet) across.
"One possibility
is that the cratering rate plummeted a billion or so years ago
when Eros exited the main asteroid belt between Mars and Jupiter
to become a near-Earth asteroid. After that, there may have been
too few impacts to pummel these boulders into smaller pieces.
These close-ups of Eros may tell us if the overabundance of 10-meter
rocks extends to smaller sizes as well -- that would be an important
clue."
Four months
from now, NEAR Shoemaker will be poised to record an even closer
view of Eros. "We're considering landing on the asteroid at the
end of NEAR's one-year mission," says Cheng. "The spacecraft would
touch down near the south pole of Eros where the rotational surface
velocity is low."
Fans of Arthur
C. Clark's science fiction novel "Rendezvous with Rama"
might recall that explorers in that story landed near the pole
of an asteroid-sized cylindrical spaceship, a spinning behemoth
about the same size and shape as Eros. They chose to touch down
near Rama's spin axis for the same reason that NEAR would
settle near Eros's south pole; it's easier to land where the ground
is moving slowly.
 Mission scientists are still reviewing various
end-of-mission scenarios and expect a final decision on whether
the spacecraft will land and how by the first week of December.
"NEAR was
designed to orbit Eros, not to land on it," says Cheng. "Most
of the science instruments won't even work so close to the asteroid's
surface. We want to do this as a proof of concept, to show that
a spacecraft can land on an asteroid." Future missions to explore
and possibly return samples from the minor planets will depend
on maneuvers that NEAR might soon try for the first time.
"Things could
go wrong," Cheng stressed, like crashing into one of Eros's many
boulders. But if NEAR touches down without mishap and can still
communicate with Earth, scientists will enjoy a brief close-up
of Eros that will make today's flyby seem remote by comparison.
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