The Artemis moon program's first mission is underway. Sometimes the third time really is a charm.
With a mighty roar, the most powerful NASA rocket ever built
— the Space Launch System (SLS) — soared into the Florida early morning sky on
the Artemis 1 mission, a risky and long-delayed test flight to send a
next-generation space capsule to the moon and back. Liftoff occurred today
(Nov. 16) at 1:47 a.m. EST (0647 GMT) from NASA's Pad 39B here at Kennedy Space
Center (KSC) in Florida.
Artemis 1 is sending NASA's new Orion spacecraft on an
uncrewed test flight around the moon. This shakedown mission, NASA's first
flight of a crew-capable moon ship in nearly 50 years, serves as the proving
ground to see if SLS and Orion are ready to help return astronauts to the lunar
surface by 2025 under NASA's Artemis program.
"Liftoff of Artemis 1!" NASA commentator Derrol
Nail said during the webcast of this morning's launch. "We rise together,
back to the moon and beyond."
A few minutes later, Artemis launch director Charlie
Blackwell-Thompson addressed her team at mission control.
"This is your moment," she said. "We are all
part of something incredibly special: The first launch of Artemis, the first
step in returning our country to the moon and on to Mars. What you have done
today will inspire generations to come."
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NASA's Artemis 1 moon mission launches from Kennedy Space
Center on Nov. 16, 2022. (Image credit: NASA TV) |
As in previous attempts, this morning's try saw its share of
setbacks. While the SLS upper stage fueling process was underway roughly three
hours prior to launch, an intermittent leak was detected in the liquid hydrogen
replenishment valve on Artemis 1's mobile launch tower. NASA sent a specialized
"Red Crew" to the tower to tighten packing nuts to stop the leak, a
process that took roughly an hour.
Following that fix, a separate issue with an ethernet switch
at a radar site on the U.S. Space Force Eastern Range caused further
uncertainty, prompting a "no-go" on the range until a replacement was
found. The ethernet issue was fixed while the launch countdown was at the
planned T-10 minutes hold.
This was the third launch attempt for Artemis 1. An initial
attempt on Aug. 29 was scrubbed due to a glitch in the cooling process that one
of the rocket's four main engines experienced. A second attempt on Sept. 3 was
also scrubbed when a hydrogen leak was detected during the rocket's lengthy
fueling process. SLS was then rolled back to KSC's Vehicle Assembly Building
for repairs and to shelter it from Hurricane Ian, which slammed into Florida's
Space Coast in late September.
Most recently, the amended target date of Nov. 12 was
delayed to today because of Hurricane Nicole (which was quickly downgraded to a
tropical storm following landfall). High winds produced by the storm tore a
piece of insulative caulking away from the outside of the Orion spacecraft,
prompting Artemis mission teams to study the issue and determine if a Nov. 16
launch was within safety parameters.
Teams here at KSC rapidly assessed the damage in the days
following the storm and reached the conclusion that SLS and Orion were still
good for this morning's launch. "I feel good headed into this attempt on
the 16th," Mike Sarafin, Artemis mission manager at NASA headquarters in
Washington, said during a press briefing on Sunday evening (Nov. 13).
Jeremy Parsons, deputy manager of NASA's Exploration Ground
Systems program at KSC, said during a teleconference on Monday (Nov. 14) that
the work the Artemis mission team has performed in order to get SLS off the
ground following the storm has been incredible. "If you were to ask me a
couple of weeks ago, would we go through a storm like Hurricane Nicole and then
be able to turn around and have cleared the vehicle and be in good shape, I
would have said, hey, chances are probably low. But this team has really just
been firing on all cylinders," Parsons said.
Eight minutes after liftoff this morning, the SLS rocket's
upper stage reached orbit with Orion, with the spacecraft starting to unfurl
its four solar arrays from its service module shortly thereafter. A
spacesuit-clad Snoopy plush toy is aboard to float around in weightlesness
along with a Shaun the Sheep doll from NASA's Orion partner the European Space
Agency, which provided the service module.
If all goes well, the SLS upper stage should fire its single
engine to raise its orbit just under an hour after launch, then fire up again
98 minutes after liftoff to put Orion on course for the moon. While NASA hopes
for success, Artemis 1's test flight nature means something could always go
wrong.
"It is a new creation. It is a new rocket and a new
spacecraft," NASA's Artemis 1 mission manager Mike Sarafin said before
launch. "This is something that has not been done in over 50 years and is
incredibly difficult."
NASA engineers may be on pins and needles for the mission,
but Artemis 1 appears to have captured the public's imagination.
A risky test flight, with science, too
At its core, the Artemis 1 mission aims to show that the SLS
rocket and Orion are ready to fly astronauts to the moon as part of a sustained
program of lunar exploration that will ultimately enable crewed flights to
Mars. NASA wants to use the vehicles to build a Gateway space station around
the moon, then send crews there to use it as a home base for trips to the lunar
south pole and other unexplored realms.
NASA has said that Artemis 1's goals are simple, but hard. A
big priority is to show that Orion's heat shield can survive the scorching-hot
reentry temperatures (up to 5,000 degrees Fahrenheit, or 2,800 degrees Celsius)
caused by returning home from the moon at 25,000 mph (40,000 kph). NASA also
wants Orion to demonstrate that it's ready to keep astronauts alive in lunar
orbit. And the agency aims to successfully recover the capsule so it can be
studied ahead of Artemis 2, the program's first crewed flight around the moon,
which is slated to fly in 2024.
"This first mission is our first test of our deep space
transportation systems before we put crew on them," Jim Free, NASA's
associate administrator for exploration systems development, said before
liftoff. "It is foundational in that sense. We need to learn about the
vehicles before we put crew on them."
Orion should reach the moon around Nov. 22, when it will
approach within 60 miles (96.6 km) during a flyby toward its final orbit. That
path, called a "distant retrograde orbit," will take Orion on a long,
looping route that extends 40,000 miles (64,000 km) beyond the moon at its
farthest point, setting a new distance record for a crew-capable ship. Orion
hits that milestone around day 10 and will spend two weeks in orbit before
preparing for the trip home. The spacecraft will return to Earth on Dec. 11
with a splashdown in the Pacific Ocean off the coast of California.
There are science experiments aboard the Artemis 1 mission,
too. Aboard the SLS rocket, 10 cubesats launched with Artemis 1 and will be
deployed on the way to the moon. Their missions vary widely, with some destined
to orbit the moon and seek out traces of water ice while others will test
exploration technologies. One, called NEA Scout, will use a solar sail to visit
a tiny asteroid.
Inside Orion is a "Moonikin" manikin named
Commander Campos, which is wearing a new, bright orange launch and entry suit
NASA has designed for future astronauts. Two limbless manikins, nicknamed Helga
and Zohar, will test a novel vest called AstroRad designed to protect
astronauts from the harmful radiation of deep space. Still more experiments,
like NASA's Biological Experiment 1, will grow yeast, fungi and more inside
Orion to see how the deep space environment affects genes and DNA.
From Apollo's legacy, Artemis to the moon
NASA's Artemis program is named for the twin sister of
Apollo and aims to land the first woman and first person of color on the moon
during its first lunar landing on the Artemis 3 mission no earlier than 2025.
The SLS rockets and Orion spacecraft are a strange blend of
space history and future promise. Artemis 1 launched from the same pad used by
NASA's Apollo 10 mission in 1969, which sent three astronauts around the moon
months before the first astronaut landing on Apollo 11. (NASA invited Apollo 10
commander Tom Stafford to today's launch.) The SLS rocket is powered by legacy
space shuttle engines and solid rocket booster segments.
The 322-foot-tall (98 meters) SLS rocket is slightly shorter
than the massive Saturn V rockets of Apollo, but the new vehicle is more
powerful, generating 8.8 million pounds of thrust at liftoff, most of it from
its solid rocket boosters.
The Orion spacecraft, too, has advancements. It's 30% larger
than an Apollo capsule and is designed to carry four astronauts, compared to
Apollo's three. Its 16.5-foot-wide (5 m) heat shield is the biggest of its kind
yet to fly in space. Its service module, which provides its power and
propulsion, is built by Airbus and provided by the European Space Agency, which
in turn will fly European astronauts on future Artemis flights.
To reach the moon, NASA has tapped private companies like
SpaceX, Northrop Grumman, Maxar and more to build the crewed lunar landers,
Gateway space station habitats and other components for Artemis. That model,
which itself is based on NASA's commercial space efforts on the International
Space Station, will serve as a template for missions to Mars, too, NASA
Administrator Bill Nelson said. Admittedly, he added, a NASA crewed flight to
Mars isn't likely until at least the late 2030s.
"Our DNA, as an American people now joined by our international
partners, is to explore," Nelson told Space.com of the Artemis program's
goal. "We built this country with a frontier, and that frontier is
upward."
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