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Statement from Secretary of Defense Lloyd J. Austin III on the passage of a continuing resolution
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By Space Force
Buckley Space Force Base is home to one of the Defense Department's only two chemical, biological, radiological and nuclear quadrupedal unmanned ground vehicles.
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By NASA
This image shows nine candidate landing regions for NASA’s Artemis III mission, with each region containing multiple potential sites for the first crewed landing on the Moon in more than 50 years. The background image of the lunar South Pole terrain within the nine regions is a mosaic of LRO (Lunar Reconnaissance Orbiter) WAC (Wide Angle Camera) images.Credit: NASA As NASA prepares for the first crewed Moon landing in more than five decades, the agency has identified an updated set of nine potential landing regions near the lunar South Pole for its Artemis III mission. These areas will be further investigated through scientific and engineering study. NASA will continue to survey potential areas for missions following Artemis III, including areas beyond these nine regions.
“Artemis will return humanity to the Moon and visit unexplored areas. NASA’s selection of these regions shows our commitment to landing crew safely near the lunar South Pole, where they will help uncover new scientific discoveries and learn to live on the lunar surface,” said Lakiesha Hawkins, assistant deputy associate administrator, Moon to Mars Program Office.
NASA’s Cross Agency Site Selection Analysis team, working closely with science and industry partners, added, and excluded potential landing regions, which were assessed for their science value and mission availability.
The refined candidate Artemis III lunar landing regions are, in no priority order:
Peak near Cabeus B Haworth Malapert Massif Mons Mouton Plateau Mons Mouton Nobile Rim 1 Nobile Rim 2 de Gerlache Rim 2 Slater Plain These regions contain diverse geological characteristics and offer flexibility for mission availability. The lunar South Pole has never been explored by a crewed mission and contains permanently shadowed areas that can preserve resources, including water.
“The Moon’s South Pole is a completely different environment than where we landed during the Apollo missions,” said Sarah Noble, Artemis lunar science lead at NASA Headquarters in Washington. “It offers access to some of the Moon’s oldest terrain, as well as cold, shadowed regions that may contain water and other compounds. Any of these landing regions will enable us to do amazing science and make new discoveries.”
To select these landing regions, a multidisciplinary team of scientists and engineers analyzed the lunar South Pole region using data from NASA’s Lunar Reconnaissance Orbiter and a vast body of lunar science research. Factors in the selection process included science potential, launch window availability, terrain suitability, communication capabilities with Earth, and lighting conditions. Additionally, the team assessed the combined trajectory capabilities of NASA’s SLS (Space Launch System) rocket, the Orion spacecraft, and Starship HLS (Human Landing System) to ensure safe and accessible landing sites.
The Artemis III geology team evaluated the landing regions for their scientific promise. Sites within each of the nine identified regions have the potential to provide key new insights into our understanding of rocky planets, lunar resources, and the history of our solar system.
“Artemis III will be the first time that astronauts will land in the south polar region of the Moon. They will be flying on a new lander into a terrain that is unique from our past Apollo experience,” said Jacob Bleacher, NASA’s chief exploration scientist. “Finding the right locations for this historic moment begins with identifying safe places for this first landing, and then trying to match that with opportunities for science from this new place on the Moon.”
NASA’s site assessment team will engage the lunar science community through conferences and workshops to gather data, build geologic maps, and assess the regional geology of eventual landing sites. The team also will continue surveying the entire lunar South Pole region for science value and mission availability for future Artemis missions. This will include planning for expanded science opportunities during Artemis IV, and suitability for the LTV (Lunar Terrain Vehicle) as part of Artemis V.
The agency will select sites within regions for Artemis III after it identifies the mission’s target launch dates, which dictate transfer trajectories, or orbital paths, and surface environment conditions.
Under NASA’s Artemis campaign, the agency will establish the foundation for long-term scientific exploration at the Moon, land the first woman, first person of color, and its first international partner astronaut on the lunar surface, and prepare for human expeditions to Mars for the benefit of all.
For more information on Artemis, visit:
https://www.nasa.gov/specials/artemis
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James Gannon / Molly Wasser
Headquarters, Washington
202-358-1600
james.h.gannon@nasa.gov / molly.l.wasser@nasa.gov
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Last Updated Oct 28, 2024 EditorJessica TaveauLocationNASA Headquarters Related Terms
Artemis Artemis 3 Earth's Moon Exploration Systems Development Mission Directorate Human Landing System Program Humans in Space Space Launch System (SLS) View the full article
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By NASA
Kennedy Space Center Director Janet Petro speaks in March 2022 during the annual State of NASA event at the Florida spaceport. NASA/Kim Shiflett America is returning to the Moon with our sights set on Mars, and NASA is leading the way. Along with our industry and international partners, we’re advancing scientific research, inspiring the next generation of explorers, and ensuring reliable and continuous access to space for our nation.
NASA’s Economic Impact Report for fiscal year (FY) 2023 highlights the nation’s strong return on its investment in NASA. Our missions help unveil the secrets of the universe and our home planet while also benefitting the taxpayers, communities, and industries across the country.
Here at the agency’s Kennedy Space Center in Florida, we are on track for another record-setting year of launches from our Space Coast. Recent NASA missions will tell us more about Earth’s weather and climate, explore Jupiter’s moon Europa for the ingredients of life, and enable more innovative research on the International Space Station. We’re also busy building the Artemis rockets, spacecraft, and technologies that will allow our astronauts to live and work on the Moon.
While exploring the universe for the benefit of all, NASA is also supporting the U.S. economy. During FY23, an investment of less than one-half of 1% of the federal budget, the agency generated $76 billion in total economic output nationwide.
In Florida alone, NASA activities in FY2023 supported 35,685 jobs in the state and $8.2 billion in economic output, resulting in an additional $286.6 million in state tax revenue. NASA Kennedy’s unique facilities, proven technical capabilities, and master plan enable nearly 250 partnerships with 100 private-sector partners. And the dedication and commitment of our workforce means that our spaceport remains the world’s leader in space science, human exploration, and technology development.
As we look toward a future of more exploration and discovery, I invite you to learn more about the impacts that NASA missions may have had in your life. The agency’s technology transfer initiatives transition NASA innovations into private hands, where real impacts are made. And NASA’s STEM engagements encourage research and the study of science, technology, engineering, and math at all ages.
And, of course, I hope you will learn more about the exciting work we’re doing at Earth’s premier spaceport by visiting:
www.nasa.gov/kennedy
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Images of Janet Petro are available from NASA’s image library in vertical and horizontal formats.
Patti Bielling
Kennedy Space Center, Florida
321-501-7575
patricia.a.bielling@nasa.gov
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By NASA
Curiosity Navigation Curiosity Home Mission Overview Where is Curiosity? Mission Updates Science Overview Instruments Highlights Exploration Goals News and Features Multimedia Curiosity Raw Images Images Videos Audio More Resources Mars Missions Mars Sample Return Mars Perseverance Rover Mars Curiosity Rover MAVEN Mars Reconnaissance Orbiter Mars Odyssey More Mars Missions The Solar System The Sun Mercury Venus Earth The Moon Mars Jupiter Saturn Uranus Neptune Pluto & Dwarf Planets Asteroids, Comets & Meteors The Kuiper Belt The Oort Cloud 3 min read
Sols 4329-4330: Continuing Downhill
A post-drive image from NASA’s Mars rover Curiosity showcases the rover’s two front wheels. The right front wheel is parked on top of a rock, which altered the science team’s plan for the day. This image was taken by the Front Hazard Avoidance Camera (Front Hazcam) aboard Curiosity on sol 4328 — Martian day 4,328 of the Mars Science Laboratory mission — on Oct. 9, 2024, at 02:30:55 UTC. NASA/JPL-Caltech Earth planning date: Wednesday, Oct. 9, 2024
Curiosity is continuing to make good progress downhill along the western edge of the Gediz Vallis channel, allowing us to take another look from a different perspective at this area we’ve spent many months exploring. The drive from Monday’s plan executed as expected, positioning us about 30 meters (about 98 feet) north of our last location. Unfortunately, the rover parked with its right front wheel atop an unstable-looking rock, so we decided to keep the arm stowed rather than risk having the wheel slip with the arm unstowed.
As a consequence, our plan today is all remote sensing, kicking off with a LIBS activity on a bedrock target “Sapphire Lake” and long distance RMI mosaics of “Pinnacle Ridge,” which avid readers may remember was a focus of an imaging campaign while we were still in the channel. Mastcam gets its turn on both Sapphire Lake and Pinnacle Ridge, as well as a Mastcam-exclusive target, “Wuksachi,” to document some rover-disturbed regolith and a wheel-scuffed rock surface. This plan’s drive is also in the first sol, which will hopefully bring us nearly 40 meters (about 131 feet) further north, closer to our eventual exit from Gediz Vallis.
The first sol also sees a small collection of environmental science observations, including Navcam images to monitor dust and sand on the rover deck as well as a Navcam movie looking out over the northern horizon to look for clouds. We haven’t been seeing many clouds lately, but we are rapidly approaching the end of the current Mars Year, and the end of the dusty season. (The new year, numbered 38, begins Nov. 12; a Martian year is much longer than one on Earth, taking 687 Earth days to orbit the Sun.) Though the cloudy season won’t really pick up steam until February, the “noctilucent cloud season” will be taking place in December and January, which has produced some spectacular images in the past. Today’s plan also features an “UltraSPENDI,” or “Shunt Prevention ENV Navcam Drop-In.” This activity takes 18 cloud movies and dust devil movies over three hours and serves to prevent the rover’s batteries from remaining fully charged for an extended period of time, which would hurt their long-term health.
The second sol of this plan is pretty simple, featuring a Mastcam tau to measure the amount of dust in the atmosphere, a ChemCam AEGIS activity, some more Navcam deck monitoring, and a 360-degree Navcam survey for dust devils around the rover. As always, REMS, RAD, and DAN will be continuing with their usual activities.
Written by Conor Hayes, graduate student at York University
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Last Updated Oct 11, 2024 Related Terms
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By NASA
“My parents came here from Mexico with the vision of giving us a better life than they had but, times were tough. When I was young, there were many days and nights where we had to get by with what we had. My dad worked his way up in the fabrication industry in Houston and when an opportunity came for him to start his own business, he took it. It was “now or never”. Shortly after, things changed. By the time I was in 5thgrade, our lives took a turn for the better, and going to college all of a sudden became a possibility. But even then, working at NASA felt like it could happen in a dream.
“Growing up here in Houston, you visit Space Center and you look at JSC , and you think, ‘Man, it must be incredible to be a part of NASA and to be a part of one of those amazing missions where you accomplish impossible things and maybe even discover something new about our universe’. I would have never guessed, never predicted, that I would be here. Throughout my career, I just continued to do the best I could and kept learning, striving to get better.
“It took years but it felt like all of the sudden, I was here and everything, the entire time, was preparing me for my role on the OSIRIS-REx mission. Now, I share a place in history next to a Curation team full of the most talented, intelligent and hard-working individuals in the world and all that we have accomplished is, and will be, a part of NASA forever. I can’t even begin to describe what that means to not only me, but for my family, who did everything they could so that this could even be a possibility. For all of us, it is a dream come true.”
—Salvador Martinez III, Lead Astromaterial Curation Engineer, Jacobs Technology, NASA’s Johnson Space Center
Image Credit: NASA/James Blair
Interviewer: NASA/Thalia Patrinos
Check out some of our other Faces of NASA.
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