NASA Science Heads to the Moon on First U.S. Private Artemis Robotic Flight| Trending Viral hub

That carries nasa scientific instruments As part of its Commercial Lunar Cargo Services initiative, Astrobotic’s Peregrine lander launched on United Launch Alliance’s (ULA) Vulcan rocket at 2:18 a.m. EST from Launch Complex 41 at the Station. Cape Canaveral Space Force in Florida. Peregrine has a journey of about 46 days to reach the lunar surface.

Once on the Moon, NASA instruments will study the lunar exosphere, the thermal properties of the lunar regolith, the abundance of hydrogen in the soil at the landing site, and track ambient radiation. NASA’s five science and research payloads aboard the lander will help the agency better understand planetary processes and evolution, search for evidence of water and other resources, and support long-term sustainable human exploration.

“The first CLPS launch sent payloads en route to the Moon, a huge leap for humanity as we prepare to return to the lunar surface for the first time in more than half a century,” said NASA Administrator Bill Nelson. “These high-risk missions will not only conduct new science on the Moon, but also support a growing commercial space economy while showcasing the strength of American technology and innovation. “We have a lot of science to learn through the CLPS missions that will help us better understand the evolution of our solar system and shape the future of human exploration for the Artemis Generation.”

For this CLPS flight, NASA research includes:

  • Laser Retroreflector Array: A collection of approximately half-inch (1.25 cm) retroreflectors, a mirror used to measure distance, mounted on the lander. This mirror reflects laser light from other orbiting and landing spacecraft to accurately determine the lander’s position.
  • Neutron spectrometer system: This system will look for indicators of water near the lunar surface by detecting the presence of hydrogen-containing materials at the landing site, as well as determining the general properties of the regolith there.
  • Linear energy transfer spectrometer: This radiation sensor will collect information about the lunar radiation environment and any solar events that may occur during the mission. The instrument is based on flight-proven hardware that flew into space on the maiden uncrewed flight of the Orion spacecraft in 2014.
  • Near Infrared Volatile Spectrometer System: This system will measure surface hydration and volatiles. It will also detect certain minerals using spectroscopy while mapping surface temperature and changes at the landing site.
  • Pilgrim ion trap mass spectrometer: This instrument will study the thin layer of gases on the Moon’s surface, called the lunar exosphere, and any gases present after descent and landing and during the lunar day to understand the release and movement of volatiles. It was previously developed for the ESA (European Space Agency) Rosetta mission.

Peregrine is scheduled to land on the Moon on Friday, February 23, and will spend approximately 10 days collecting valuable scientific data studying Earth’s closest neighbor and helping pave the way for the first woman and first person of color to explore the Moon. under Artemis.

Learn more about NASA’s CLPS initiative at:


Karen Fox / Alise Fisher
Headquarters, Washington
202-358-1600 / 202-358-2546 /

Nilufar Ramji
Johnson Space Center, Houston

Antonia Jaramillo
Kennedy Space Center, Florida

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