The moon is shrinking, and future NASA flights could be significantly affected by that new reality. new research claims.
Researchers at the University of Maryland say that as the moon’s metallic core continues to cool since it formed about 4.5 billion years ago, the moon’s less pliable and brittle surface will shrink further, making it more vulnerable to earthquakes. claims. These earthquakes can cause landslides, endangering astronauts on the surface.
“As the manned Artemis mission approaches its launch date, it is critical that we keep our astronauts, equipment, and infrastructure as safe as possible,” said University of Maryland geologist Nicholas Schumer, who helped author the study. Ta. “This research will help us prepare for what awaits us on the moon, whether it’s engineering structures that can withstand the moon’s seismic activity or protecting people from truly dangerous areas.” It’s about doing things.”
NASA plans to launch Artemis III in 2026, marking the first time humans have landed on the moon in more than half a century. The flight is scheduled to land near the moon’s south pole.
“NASA’s Orion spacecraft will be the vehicle that will carry crew members to and from Earth, as well as to and from lunar orbit.” NASA write. “Orion is the only spacecraft capable of returning a crew to Earth at lunar reentry speeds. … Four astronauts depart from Launch Pad 39B at Kennedy Space Center in Florida. Space Launch System (SLS)It is the only rocket powerful enough to send Orion, its crew, and its supplies to the moon in a single launch. ”
“The crew will first be launched into Earth orbit, where they will perform system checks on Orion and adjust its solar panels. Intermediate cryogenic propulsion stage Help Orion Run menstrual ejaculation NASA went on to say that Elon Musk’s SpaceX “will provide a human landing system to transport Artemis III astronauts from lunar orbit in the constellation of Orion to the lunar surface and back.”
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“The lunar south pole region is exposed to global stresses that cause contractional deformation and associated seismic activity,” the study said. “This deformation is mainly expressed by foliated thrust scarps. Examples are distributed around the world, including in the polar regions. One small cluster of foliated scarps is the de Gerrache Rim 2 Artemis III landing. It is within the candidate area.”