On Monday (Aug. 29), NASA is set to launch the most powerful rocket ever built on a roughly 40-day trip around the moon and back.
This mission, named Artemis 1, is the first of three planned Artemis missions that will culminate in 2025 with astronauts setting foot on the moon for the first time in 50 years, and will include the first woman and person of color ever to do so.
Ultimately, NASA intends to build a permanent lunar base at the moon’s south pole, serving not only as a residence for moon-bound astronauts, but also as a staging ground for crewed missions to Mars and deep space exploration, Pat Troutman, Strategy and Architectures Liaison for NASA’s Moon to Mars Architecture Development office, told Live Science.
However, every journey of a thousand light-years begins with a single step — and Monday’s premiere launch of the Space Launch System (SLS) rocket (also known as the Mega Moon Rocket) will be totally un-crewed, with only three mannequins riding aboard the Orion Crew Capsule perched atop the rocket’s tip.
“This is the first flight of a major space system,” Troutman said. “It’s a highly integrated, complex system with lots of energy, and typically you want to test those the first time without people too close.”
Phantoms of the moon
What does NASA hope to learn from this un-crewed mission to the moon? According to Troutman, the Artemis I mission will primarily test two things: The performance of the SLS rocket and Orion Crew Capsule, and the safety of the astronauts inside.
For the purposes of this mission, those astronauts will be played by three mannequins — or “moonikins” — riding inside the Orion capsule.
Sitting up front, Commander Moonikin Campos (named after former NASA scientist Arturo Campos, a key figure in the Apollo 13 mission of 1970) will test out NASA’s new space suit, the Orion Crew Survival System flight suit. Behind him will sit Helga and Zohar — two “phantoms,” or limbless mannequins made of “materials that mimic human bones, soft tissues, and organs of an adult female,” according to NASA. (Commander Campos’ name was selected through a public contest; Helga and Zohar were named by the German and Israeli space agencies, who are partners on the mission).
Campos and Zohar will wear special vests to protect them from the intense solar radiation that Earth‘s atmosphere usually blocks; the third mannequin will go vestless to serve as an experimental control (sorry, Helga).
All three mannequins will sit on chairs rigged with sensors to measure the acceleration and vibrations during the spacecraft’s launch and reentry to Earth. By studying the moonikins and their sensor data after the mission concludes, NASA should get a clear picture of the potential bodily strain and radiation exposure that human astronauts can expect to endure during future phases of the Artemis program.
The four “nail-biter” moments
Assessing the durability and functionality of the spacecraft itself is the other crucial objective for Artemis I, Troutman said. And the best tests of the SLS and Orion spacecraft’s abilities will occur during four key “high energy events.”
The first of those events is the SLS launch, when the 322-foot-tall (98 meters) rocket’s four massive RS-25 engines finally ignite, shooting the rocket off of the launchpad at Kennedy Space Center in Florida and upward on an eight-minute climb through Earth’s atmosphere. Should liftoff succeed as planned, the second high-energy event occurs about two minutes later, when the SLS’s two solid rocket boosters detach from the main rocket stage and parachute down into the ocean.
“That’s always a nail-biter, because you have these large moving bodies and they have to come up and separate and clear,” Troutman said. While numerous NASA launches have successfully completed this procedure,ut “it’s still a tricky maneuver to do.”
The third big event is the trans-lunar injection — a critical maneuver that lasts about 20 minutes, wherein the now-booster-free spacecraft fires a smaller RL10 engine to push entirely out of Earth’s orbit and set off on a trajectory for the moon. Five days later, the Orion spacecraft will be on the moon’s doorstep, orbiting within about 62 miles (100 km) of the lunar surface.
After several weeks of orbiting the moon, taking pictures, and running tests on various spacecraft equipment, the Orion capsule will return to Earth. This sets in motion the final high-energy event: the fiery fall through Earth’s atmosphere, during which the spacecraft will endure temperatures of about 5,000 degrees Fahrenheit (2,760 degrees Celsius) — about half as hot as the surface of the sun.
“Orion’s going to come screaming down at 11 kilometers a second [6.8 miles per second],” Troutman said. “This is where we’ll test Orion’s heat shield, which is one of our big objectives for the mission.”
Finally, the capsule will deploy parachutes and splash down into the Pacific Ocean off Baja California, Mexico. How the spacecraft fares through these high-energy events will tell NASA whether the Artemis program is ready to proceed to its second phase. In Artemis II, currently planned for May 2024, a crew of real human astronauts will repeat the journey around the moon that their mannequin colleagues embarked on during Artemis I.
The safety and success of Artemis II hinges on what scientists can learn from Monday’s launch, and from the 40 days that follow.
“This is the first mission of the future,” Troutman said. “We had Apollo, we had ISS [the International Space Station]. The next chapter of the book is Artemis — and this is the first page.”
The two-hour launch window for Artemis I begins on Monday, Aug. 29, at 8:33 a.m. EDT (1233 GMT). You can watch the launch live online on Monday starting at 6:30 a.m. EDT (1030 GMT), courtesy of NASA TV.
Originally published on Live Science.
