Posted on by Nancy Atkinson

Low Gravity Simulator Lets You Jump Around in Lunar Gravity

A participant uses the MoLo facility in Milan, Italy which simulates lunar gravity. Credit: ESA.

When the Apollo astronauts landed on the Moon, they had to perform tasks in 1/6th of Earth’s gravity. At first, walking and working in this low gravity environment posed some challenges. However, the astronauts soon adapted and figured out that hopping like a bunny made it easier to get around.

The Artemis astronauts will also need to adapt to life on the Moon, and to that end, ESA has built a unique facility in a 17-meter (55 ft.) refurbished ventilation shaft.  

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Posted on by Matt Williams

Artemis II is Literally Coming Together

The core stage of the Artemis II rocket at NASA's MIchoud Assembly Facility. Credit: NASA/Michael DeMocker

In November 2024, NASA’s Artemis II mission will launch from Cape Canaveral, carrying a crew of four astronauts around the Moon before returning home. This will be the first crewed mission of the program, paving the way for Artemis III and the long-awaited return to the Moon in 2025. These missions will rely on the Orion spacecraft and the Space Launch System (SLS) super-heavy launch vehicle. At NASA’s Michoud Assembly Facility in New Orleans, teams of engineers have just finished integrating all five major structures that make up the core stage of the Artemis II rocket.

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Posted on by Carolyn Collins Petersen

Don’t Take Batteries to the Moon or Mars, 3D Print Them When you Get There

Artist's impression of astronauts on the lunar surface, as part of the Artemis Program. How will they store power on the Moon? 3D printed batteries could help. Credit: NASA
Artist's impression of astronauts on the lunar surface, as part of the Artemis Program. How will they store power on the Moon? 3D printed batteries could help. Credit: NASA

When the Artemis astronauts and future explorers go to the Moon and Mars, they’ll need power. Lots of it. Of course, they’ll use solar panels to generate the juice they need for habitats, experiments, rovers, and so on. But, they’ll need batteries for power storage. Those things weigh a lot and cost a fortune to send up from Earth. So, why not simply 3D print their own when they get there?

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Posted on by Nancy Atkinson

Here’s Where Artemis III Might Land. It Looks… Inviting

Malapert massif (informal name) is thought to be a remnant of the South Pole - Aitken basin rim, which formed more than 4 billion years ago. More recently, this magnificent peak (lower left) was selected as an Artemis 3 candidate landing region. Image is 25 kilometers wide in the center, Narrow Angle Camera M1432398306LR (NASA/GSFC/Arizona State University).

Where on the Moon will the first crewed Artemis mission Land? While NASA is still deliberating on the exact location, they’ve chosen several candidate landing sites near the lunar south pole. This new image captured by the Lunar Reconnaissance Orbiter reveals what the astronauts might see out the window as they approach their destination.

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Posted on by Nancy Atkinson

NASA and Axiom Space Do a Partial Reveal of the Spacesuit That Will be Worn on the Moon

A partial reveal of the new spacesuit that will be used for the first crewed Artemis mission to the Moon, created by NASA and Axiom Space. The actual suits will be white, not dark. Credit: Axiom Space.

NASA and Axiom Space Inc. provided a first, limited look at the new spacesuits that will be worn by the next astronauts to land on the Moon. The Axiom Extravehicular Mobility Unit (AxEMU) spacesuit that will be worn for the Artemis missions was only partially revealed at an event at Johnson Space Center in Houston, in order not to give away any proprietary information about the suit.

“Since a spacesuit worn on the Moon must be white to reflect heat and protect astronauts from extreme high temperatures,” Axiom Space said in a press release, “a cover layer is currently being used for display purposes only to conceal the suit’s proprietary design.”

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Posted on by Evan Gough

Want Artemis to Succeed? Virtual Reality Can Help

Artist's impression of astronauts on the lunar surface, as part of the Artemis Program. How will they store power on the Moon? 3D printed batteries could help. Credit: NASA
Artist's impression of astronauts on the lunar surface, as part of the Artemis Program. How will they store power on the Moon? 3D printed batteries could help. Credit: NASA

Artemis astronauts are returning to the Moon, and they’ll be following in Apollo’s footsteps when they go. But things are different this time. Not only is technology far more advanced, but so is the way we think about technology and how we design it.

A new paper shows how two of modern technology’s offspring— virtual reality (VR) and user-centred design (UCD)—can be brought to bear on the Artemis Program.

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Posted on by Nancy Atkinson

NASA has Simulated a Tiny Part of the Moon Here on Earth

Using the Lunar Lab and Regolith Testbeds at NASA’s Ames Research Center, a team created this simulated lunar environment to study lighting conditions experienced at the unexplored poles of the Moon. Credit: NASA/Uland Wong.

Before going to the Moon, the Apollo astronauts trained at various sites on Earth that best approximated the lunar surface, such as the volcanic regions Iceland and Hawaii and deserts in the US Southwest.  To help prepare for upcoming robotic and human Artemis missions, a newly upgraded “mini-Moon” lunar testbed will allow astronauts and robots to test out realistic conditions on the Moon including rough terrain and unusual sunlight.

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Posted on by Matt Williams

Study Shows How Cells Could Help Artemis Astronauts Exercise

NASA’s Orion spacecraft will carry astronauts further into space than ever before using a module based on Europe’s Automated Transfer Vehicles (ATV). Credit: NASA

In 2033, NASA and China plan to send the first crewed missions to Mars. These missions will launch every two years when Earth and Mars are at the closest points in their orbits (Mars Opposition). It will take these missions six to nine months to reach the Red Planet using conventional technology. This means that astronauts could spend up to a year and a half in microgravity, followed by months of surface operations in Martian gravity (roughly 40% of Earth gravity). This could have drastic consequences for astronaut health, including muscle atrophy, bone density loss, and psychological effects.

Aboard the International Space Station (ISS), astronauts maintain a strict exercise regimen to mitigate these effects. However, astronauts will not have the same option while in transit to Mars since their vehicles (the Orion spacecraft) have significantly less volume. To address this challenge, Professor Marni Boppart and her colleagues at the Beckman Institute for Advanced Science and Technology are developing a process using regenerative cells. This work could help ensure that astronauts arrive at Mars healthy, hearty, and ready to explore!

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Posted on by Evan Gough

One Day There Could be a Pipeline of Oxygen Flowing From the Moon’s South Pole

Graphic depiction of the Lunar South Pole Oxygen Pipeline. Credits: Peter Curreri

The Artemis program intends to put humans on the Moon for the first time since NASA’s Apollo missions. But Artemis has a larger scope than just landing people there, setting up some science experiments, gathering Moon rocks, playing a little golf, then leaving. The intent is to establish a consistent presence.

That will require resources, and one of those critical resources is oxygen.

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Posted on by Matt Williams

“To Boldy Go”: The Nichelle Nichols Foundation Continues Actress’ Legacy of Inspiration

The Nichelle Nichols Foundation carries on the actress' legacy of inspiring young women and people of color to reach for the stars! Credit: Nichelle Nichols Foundation

“Science is not a boy’s game, it’s not a girl’s game. It’s everyone’s game. It’s about where we are and where we’re going. Space travel benefits us here on Earth. And we ain’t stopped yet. There’s more exploration to come.”

Nichelle Nichols (1932-2022)

This past summer, the world said goodbye to Nichelle Nichols, the famous actress, activist, and musician who portrayed Lt. Nyota Uhura in the Star Trek franchise. This iconic role was one she popularized in the original series (1966 to 1969), six feature films (1979 to 1991), and multiple television specials. But for those familiar with the life and times of Nichols, her legacy as an activist and inspirational figure are what many will truly remember her for. In honor of her tireless work and advocacy, her family, friends, and fans have come together to launch the Nichelle Nichols Foundation (NNF).

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