NASA's first asteroid sample on track for Sunday parachute landing in
Utah
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 [September 23, 2023]
By Steve Gorman
LOS ANGELES (Reuters) - A NASA space capsule carrying a sample of rocky
material plucked from the surface of an asteroid three years ago hurtled
toward Earth this weekend headed for a fiery plunge through the
atmosphere and a parachute landing in the Utah desert on Sunday.
Weather forecasts were favorable and the robotic spacecraft OSIRIS-REx
was on course to release the sample-return capsule for final descent as
planned, with no further adjustments to its flight path needed, NASA
officials said at a news briefing on Friday.
Mission managers are expecting a "spot-on" touchdown on the U.S.
military's vast Utah Test and Training range, west of Salt Lake City,
said Sandra Freund, program manager at Lockheed Martin, which designed
and built the spacecraft.
The round, gumdrop-shaped capsule is scheduled to land by parachute at
10:55 a.m. EDT (1455 GMT), about 13 minutes after streaking into the top
of the atmosphere at roughly 35 times the speed of sound, capping a
seven-year voyage.
If successful, the OSIRIS-REx mission, a joint effort between NASA and
scientists at the University of Arizona, would mark the third asteroid
sample, and by far the largest, ever returned to Earth for analysis,
following two similar missions by Japan's space agency over the past 13
years.
OSIRIS-REx collected its specimen from Bennu, a carbon-rich asteroid
discovered in 1999 and classified as a "near-Earth object" because it
passes relatively close to our planet every six years. Scientists put
the odds of it striking Earth at 1-in-2,700 in the late 22nd century.
Bennu is small as asteroids go, measuring just 1,600 feet (500 meters)
in diameter - slightly wider than the Empire State Building is tall but
tiny compared with the cataclysmic Chicxulub asteroid that struck Earth
some 66 million years ago, wiping out the dinosaurs.
Like other asteroids, Bennu is a primordial relic of the early solar
system whose present-day chemistry and mineralogy are virtually
unchanged since it formed some 4.5 billion years ago. It thus holds
valuable clues to the origins and development of rocky planets such as
Earth, and may even contain organic molecules similar to those necessary
for life to evolve.
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This mosaic image of asteroid Bennu, composed of 12 PolyCam images
collected on December 2, 2018 by the OSIRIS-REx spacecraft from a
range of 15 miles (24 km). NASA/Goddard/University of
Arizona/Handout via REUTERS/File Photo
"We're literally looking at geologic materials that formed before
Earth even existed," Dante Lauretta, principal investigator for the
mission at the University of Arizona, Tucson, told reporters last
month.
OSIRIS-REx launched in September 2016 and reached Bennu in 2018,
then spent nearly two years orbiting the asteroid before venturing
close enough to sink its robot arm into the loose surface on Oct.
20, 2020, in a grab-and-go maneuver.
The spacecraft embarked on a 1.2-billion-mile cruise back to Earth
in May 2021.
The Bennu sample is estimated at 250 grams (8.8 ounces), far
surpassing the amount of material carried back from asteroid Ryugu
in 2020 and asteroid Itokawa in 2010.
On arrival, the new sample will be flown by helicopter to a "clean
room" set up at the Utah test range for initial examination, then
transported to NASA's Johnson Space Center in Houston, to be
parceled into smaller specimens promised to some 200 scientists in
60 laboratories around the world.
The main portion of the OSIRIS-REx spacecraft, meanwhile, is
expected to sail on to explore yet another near-Earth asteroid.
(Reporting by Steve Gorman in Los Angeles, Editing by Rosalba
O'Brien)
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