The Trip to the Far Side of the Moon
When NASA’s new moon rocket lifts off as soon as April 1, its immense core stage will mix 537,000 gallons of liquid hydrogen with 196,000 gallons of liquid oxygen and ignite the propellant in four, eight-foot-wide engines, producing some 1.7 million pounds of thrust. Shortly after these main engines fire, two solid rocket boosters, one on each side, will light their gunpowder-like propellant to add 3.3 million pounds of thrust each.
This immense force will lift the 322-foot-tall rocket, named the Space Launch System (SLS), on the first leg of Artemis II, a more than 600,000-mile journey to the moon and back. “It’s like a whole building lifting up into the air,” says Nathalie Quintero, SLS core stage operations lead at Boeing, which built the central part of the rocket. “Just the sizing of it is huge.”
Read Also: Unplugged No More: A Groundbreaking 5-Year Journey with a Brain Implant
The Mission Objectives
The SLS rocket for Artemis II, a 10-day lunar flyby mission, recently rolled out of the Vehicle Assembly Building (VAB) and was positioned on the launch pad at NASA’s Kennedy Space Center. NASA initially rolled the rocket to the pad in January, but the agency had to bring it back to the VAB to address an issue loading helium onto the upper stage. The mission’s next window to launch is between April 1 and April 6.
Artemis II comes more than three years after Artemis I, the first and only uncrewed test flight of SLS and the Orion spacecraft. That first flight carried two mannequins named Helga and Zohar to measure radiation doses, but this second flight will carry flesh-and-blood astronauts, the first people to make the journey to the moon since Apollo 17 in December 1972.
The Crew
The four-person crew includes commander Reid Wiseman, a Navy pilot who has lived aboard the International Space Station and taken two spacewalks; pilot Victor Glover, also a naval aviator who has lived and worked on the ISS; mission specialist Christina Koch, a field scientist and space instrument engineer who holds the women’s record for longest single spaceflight at 328 days; and mission specialist Jeremy Hansen, a Royal Canadian Air Force pilot who will serve as the first Canadian to ever venture to the moon.
These four will join 24 others as the only people in history to fly all the way to the moon, an average distance of about 240,000 miles. When Artemis II launches, the moon will be near its farthest point, closer to 250,000 miles away. And because the Artemis II astronauts will fly at a higher altitude above the lunar surface than the Apollo astronauts did, they will travel farther from Earth than anyone has before.
The Journey to the Moon
“We will very likely, depending on the launch period that we launch in, see things that no human has ever seen,” Wiseman said during a press conference leading up to launch.
NASA plans to follow Artemis II with Artemis III in mid-2027. That mission will test a lunar lander from SpaceX, Blue Origin, or both in low-Earth orbit, practicing rendezvous and docking maneuvers. Artemis IV, which NASA hopes to launch in 2028, would then land astronauts on the lunar surface. The long-term goal of the Artemis program is to continue with a series of missions to establish a crewed lunar station in preparation for missions to Mars and beyond.
The Orion Spacecraft
The Orion spacecraft for NASA’s Artemis II (right), Artemis III (left), and Artemis IV (center) missions stationed next to each other inside the high bay of the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida on June 22, 2023.
Before NASA can facilitate a grand interplanetary expansion, it needs to do something that hasn’t been done in more than 53 years: successfully fly astronauts to the moon and back. The journey is unique in its extreme distance, a quarter million miles from Earth. The farthest crewed spaceflight that was not to the moon was Polaris Dawn, a private flight on a SpaceX Dragon that carried current NASA administrator Jared Isaacson and three other people 875 miles from Earth. The ISS orbits at about 250 miles.
Risks and Challenges
“Deep space travel is inherently risky,” says Paul Anderson, the deputy program manager for the Orion spacecraft at Lockheed Martin. “[In] low-Earth orbit, you’re a couple hours away from getting home. From the moon, you’re four days from getting home at best.”
The lunar trip will start with the explosive launch of the SLS rocket, which will become the most powerful vehicle that people have ever flown on and only the second rocket to send people to the moon.
The Far Side of the Moon
Five days into the mission, the Artemis II crew will be treated to a sight only two dozen people have seen before: the far side of the moon.
Because the moon’s orbit keeps one side facing Earth at all times, the only way to see the far side is to fly over there and take a look. While the Artemis II astronauts pass behind the moon, they will experience a communications blackout with Earth for between 30 and 50 minutes.
Unlike the Apollo missions, which were flown while the landing sites on the near side were in the daylight, Artemis II will likely see a significant portion of the far side illuminated by the sun. And because Artemis II will fly about 4,600 miles above the lunar surface, much higher than Apollo, the astronauts aboard will see significantly more of the lunar landscape.
Scientific Objectives
“There’s major, major chunks of the far side that have never been seen, including a couple really compelling and interesting lunar features,” says Kelsey Young, a lunar geologist at NASA who works with the astronauts.
Unlike the near side of the moon, which is characterized by large basaltic planes called maria that formed when magma welled up in impact craters, the far side is mostly an ancient crust of feldspar-rich rock called anorthosite. This crust is pocked by some of the oldest and largest impact craters in the solar system, undisturbed for billions of years.
“Apollo taught us that human observation of color, albedo and how illumination affects the surface can actually tease out scientific detail that orbiters cannot,” Young says. “The camera is taking the picture you tell it to take, whereas the human eye is seeing the material as is.”
Future Missions
Ten days into the mission, with the moon left behind, the crew will prepare for the final major event of the flight: entry, descent and landing. The Orion spacecraft will hit Earth’s atmosphere at nearly 25,000 miles per hour and experience temperatures of about 3,000 degrees Fahrenheit.
NASA will then be able to turn to future missions to land on the moon, though “there are some major hurdles ahead that have to be addressed,” says Daniel Dumbacher, an aerospace professor at Purdue University and former NASA engineer on the space shuttle main engines.
Many steps remain, and Artemis II represents the next major leap. With the rocket on the pad and the crew ready to fly, humanity may finally launch again on voyages to other planetary bodies.
“I hope we’re forgotten,” commander Wiseman says. “If we are forgotten, then Artemis has been successful. We have humans on Mars. We have humans out on the moons of Saturn. We are expanding into the solar system.”
Conclusion
The Artemis II mission is a crucial step towards establishing a human presence on the lunar surface and beyond. With its state-of-the-art technology and experienced crew, the mission is poised to make history and pave the way for future space exploration.
The success of Artemis II will depend on the careful execution of each stage of the mission, from launch to lunar flyby and return to Earth. The crew will face numerous challenges, including the extreme distance from Earth and the harsh conditions of space travel.
However, the rewards of the mission will be well worth the risks. The scientific discoveries made during the mission will shed new light on the moon’s composition, geology, and history, and will provide valuable insights into the formation and evolution of the solar system.
As the Artemis II mission prepares to launch, the world watches with bated breath, eager to witness the next great leap for humanity. Will the mission be a success, and will it pave the way for a new era of space exploration? Only time will tell, but one thing is certain: the journey to the far side of the moon will be an unforgettable experience for the crew and for the world.
