An asteroid sample is set to land on Earth Sunday
Amanda Holly
Fri, September 22, 2023
A mission seven years in the making will be fulfilled on Sunday when a sample of an asteroid will land on Earth.
NASA launched a spacecraft OSIRIS-REx in 2016. The spacecraft set its sights on asteroid Bennu. As the spacecraft approached the asteroid in 2020, a robotic arm reached out and took an 8.8-ounce sample of dust and rock off the surface.
The arm tucked the sample safely away into a capsule inside the spacecraft. OSIRIS-REx continued to orbit and study the asteroid for six months before beginning its journey back to Earth in 2021.
On Sunday, as the spacecraft approaches Earth, the capsule containing the sample will be ejected into Earth’s atmosphere. The capsule will deploy parachutes to slow it down and it is expected to safely land in the Utah desert where researchers will be waiting to retrieve it. It will immediately be taken to NASA’s Johnson Space Center in Texas where the sample will be divided among many scientists. It will be extensively studied for years to come.
According to NASA, there is evidence that similar asteroids delivered organic compounds necessary for life to Earth billions of years ago, which is one reason why they picked this asteroid. The other was that it was relatively close to Earth and could be reached in a reasonable amount of time.
The asteroid sample is thought to date back to the early days of the solar system, and is made up of rocks that have been untouched or weathered by a planetary atmosphere. NASA hopes that the pebbles may provide some new scientific insight into that period 4.5 billion years ago.
The spacecraft will then continue on a journey toward a new asteroid, Apophis. It will reach and begin studying Apophis in 2029. This asteroid is expected to make a close fly-by of Earth but will not actually impact Earth.
Amanda Holly
Fri, September 22, 2023
A mission seven years in the making will be fulfilled on Sunday when a sample of an asteroid will land on Earth.
NASA launched a spacecraft OSIRIS-REx in 2016. The spacecraft set its sights on asteroid Bennu. As the spacecraft approached the asteroid in 2020, a robotic arm reached out and took an 8.8-ounce sample of dust and rock off the surface.
The arm tucked the sample safely away into a capsule inside the spacecraft. OSIRIS-REx continued to orbit and study the asteroid for six months before beginning its journey back to Earth in 2021.
On Sunday, as the spacecraft approaches Earth, the capsule containing the sample will be ejected into Earth’s atmosphere. The capsule will deploy parachutes to slow it down and it is expected to safely land in the Utah desert where researchers will be waiting to retrieve it. It will immediately be taken to NASA’s Johnson Space Center in Texas where the sample will be divided among many scientists. It will be extensively studied for years to come.
According to NASA, there is evidence that similar asteroids delivered organic compounds necessary for life to Earth billions of years ago, which is one reason why they picked this asteroid. The other was that it was relatively close to Earth and could be reached in a reasonable amount of time.
The asteroid sample is thought to date back to the early days of the solar system, and is made up of rocks that have been untouched or weathered by a planetary atmosphere. NASA hopes that the pebbles may provide some new scientific insight into that period 4.5 billion years ago.
The spacecraft will then continue on a journey toward a new asteroid, Apophis. It will reach and begin studying Apophis in 2029. This asteroid is expected to make a close fly-by of Earth but will not actually impact Earth.
What time is NASA's OSIRIS-REx asteroid sample return capsule landing on Sept. 24?
Josh Dinner
Fri, September 22, 2023
It's been seven years since the launch of NASA's OSIRIS-REx mission to collect and return samples of asteroid Bennu, and the long wait for the spacecraft's homecoming is nearly over.
OSIRIS-REx, short for Origins-Spectral Interpretation-Resource Identification-Security-Regolith Explorer, launched from NASA's Kennedy Space Center, in Florida, on September 8, 2016. The journey to rendezvous with Bennu took the spacecraft two years to complete, which were followed by another two years of scans while orbiting the asteroid.
The much-anticipated collection of material from Bennu's surface didn't occur until October 20, 2020, and it would be another three years until the spacecraft made its way back to Earth. That time is now, and the asteroid-sand in the hourglass of OSIRIS-REx's mission clock is sprinkling down to zero. The mission's asteroid sample return capsule is currently projected to land on Sunday (Sept. 24) at 8:55 a.m. MDT (10:55 a.m. EDT, 1455 GMT).
Related: Watch it live: OSIRIS-REx's asteroid sample will come down to Earth on Sept. 24.
Read more: How NASA's OSIRIS-REx will bring asteroid samples to Earth in 5 not-so-easy steps
a capsule softly lands in the desert dust.
NASA and the OSIRIS-REx mission team have the spent the past several years monitoring the spacecraft's speed and trajectory, and have calculated its landing down to the minute.
A Sept. 10 firing of OSIRIS-REx's thrusters honed the course for its landing site at the Department of Defense's (DoD) Utah Test and Training Range (UTTR), in the western Utah desert. The remote, 36-mile by 8.5-mile (58-kilometer by 14-kilometer) area of land is bullseye for OSIRIS-REx's asteroid sample return capsule.
After tracking the capsule along its journey through Earth's atmosphere first using infrared cameras and then with radar stations on the ground at UTTR, mission operators will be able to pinpoint OSIRIS-REx's landing coordinates to within 30 feet (9 meters). The OSIRIS-REx return capsule is programed to deploy its main parachute about a mile (1.6 kilometers) above the Utah desert. If the spacecraft and return capsule experience a nominal separation and landing sequence, the capsule is expected to land five minutes after deployment of its main chute.
Slowing the return capsule and its stowed asteroid sample to just 11 miles-per-hour (17.7 kilometers-per-hour), the parachute is scheduled to softly touchdown OSRIS-REx at 8:55 a.m. MDT (10:55 a.m. EDT, 1455 GMT).
a capsule softly lands in the desert dust.
NASA and the OSIRIS-REx mission team have the spent the past several years monitoring the spacecraft's speed and trajectory, and have calculated its landing down to the minute.
A Sept. 10 firing of OSIRIS-REx's thrusters honed the course for its landing site at the Department of Defense's (DoD) Utah Test and Training Range (UTTR), in the western Utah desert. The remote, 36-mile by 8.5-mile (58-kilometer by 14-kilometer) area of land is bullseye for OSIRIS-REx's asteroid sample return capsule.
After tracking the capsule along its journey through Earth's atmosphere first using infrared cameras and then with radar stations on the ground at UTTR, mission operators will be able to pinpoint OSIRIS-REx's landing coordinates to within 30 feet (9 meters). The OSIRIS-REx return capsule is programed to deploy its main parachute about a mile (1.6 kilometers) above the Utah desert. If the spacecraft and return capsule experience a nominal separation and landing sequence, the capsule is expected to land five minutes after deployment of its main chute.
Slowing the return capsule and its stowed asteroid sample to just 11 miles-per-hour (17.7 kilometers-per-hour), the parachute is scheduled to softly touchdown OSRIS-REx at 8:55 a.m. MDT (10:55 a.m. EDT, 1455 GMT).
Once the area is verified safe, ground teams will collect the pod and transport it to a secure temporary cleanroom nearby, and eventual transportation to NASA's Johnson Space Center, in Houston, Texas, for analysis and research.
a map of utah, and a dot indicating the location of the DoD utah test and training range.
Can I watch the OSIRIS-REx landing?
OSIRIS-REx's widespread and remote landing area make catching a view of the return capsule difficult, but not impossible. NASA is providing landing coverage beginning at 10 a.m. EDT (8 a.m. MDT, 1400 GMT), Sunday, Sept. 24 which will be available to stream here, at Space.com.
The space agency is also planning a Spanish-language version of the OSIRIS-REx landing, which will be available on the space agency's social media accounts at X, formerly known as Twitter, Facebook and YouTube. Streaming of the landing is expected to last until the asteroid sample return capsule arrives at the on-site cleanroom facility.
NASA has also scheduled a post-landing press conference to take place following the sample canister's arrival at the temporary cleanroom, which will also be streamed on the space agency's website, beginning at 5 p.m. EDT (3 p.m. MDT, 2100 GMT).
How long will the OSIRIS-REx landing take?
a blue-scale map shows a high altitude view of earth above the edge of utah, where a turquoise region is highlighted to signify the spacecraft landing zone. a white line traces the trajectory of the landing from space.
While live coverage of the landing doesn't begin until 10 a.m. EDT (8 a.m. MDT, 1400 GMT), OSIRIS-REx mission operators will begin their day much earlier. By 4 a.m. EDT or (2:00 a.m. MDT, 0800 GMT), the morning of Sept. 24, teams will be preparing to send final landing commands to the spacecraft, according to OSIRIS-REx's mission implementation systems engineer, Anjani Polit.
A "go/no-go" meeting will be held early Sunday to determine whether to proceed with the morning's landing, and initiate the separation command for OSIRIS-REx to release the sample return capsule. Assuming a unanimous "go" polling from team operators, OSIRIS-REx will release its asteroid sample container at precisely 6:42 a.m. EDT (4:42 a.m. MDT, 1042 GMT). It will be a little over four hours between then and the capsule's touchdown in Utah.
From there, the return pod, which doesn't include any type of maneuver controls, will be on a ballistic trajectory for its landing at UTTR. The OSIRIS-REx spacecraft will continue onward, soon after firing its thrusters to put the probe on course for a new target, the asteroid Apophis. The OSIRIS-REx mission will then change names to OSIRIS-APEX, short for OSIRIS-Apophis Explorer, and the surveyor will begin a six-year journey to Apophis, where it will remain in orbit for up to 18 months.
As for the OSIRIS-REx return capsule, NASA engineers have calculated every second of its return trajectory following spacecraft separation. A minute-by-minute schedule is listed below, including atmospheric reentry times and speeds, as well as drogue and main parachute deployments.
What if the OSIRIS-REx landing is unsuccessful?
Related stories:
— NASA's OSIRIS-REx asteroid sample return to Earth: Live updates
— OSIRIS-REx: A complete guide to the asteroid-sampling mission
— Asteroid Bennu: The squishy space rock that almost swallowed a spacecraft
In the event that Sunday morning's go/no-go meeting results in a "no-go," it won't mean the end of the world for OSIRIS-REx. Should a complication arise with the spacecraft's systems or the readiness status of of mission teams on the ground, the OSIRIS-REx team has a backup plan for landing NASA's asteroid samples.
Should the decision not to separate the OSIRIS-REx spacecraft from its sample pod become necessary, another opportunity to land exists two years from now. "We really don't want to do that," Polit told Space.com during the Sept. 15 episode of the This Week in Space podcast. "The spacecraft will be going closer to the sun than we'd like during that two-year time period," she said, alluding to the deleterious effects increased and extended exposure to the sun's radiation could have on the asteroid sample. "It's better to get it on the ground rather than having it sit in space and get heated up over the next two years."
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