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The rock had gotten stuck to the drill on the end of Curiosity\u2019s robotic arm on April 25. Engineers spent several days [\u2026] The post NASA\u2019s Curiosity Takes Close Look at Rock That Got Stuck on Drill appeared first on NASA Science .","title":"NASA\u2019s Curiosity Takes Close Look at Rock That Got Stuck on Drill","topic":"Photojournal","url":"https://science.nasa.gov/photojournal/nasas-curiosity-takes-close-look-at-rock-that-got-stuck-on-drill/","video_url":null},{"author":"Julien De Winter, Sascha Ebeler Text: Keighley Rockcliffe (NASA GSFC, UMBC CSST, CRESST II)","downloadable_assets":[],"embed_url":null,"external_id":"2026-05-12|https://apod.nasa.gov/apod/image/2605/CometR3_Orion.jpg","id":2821,"image_url":"https://apod.nasa.gov/apod/image/2605/CometR3_Orion.jpg","is_active":true,"item_type":"apod","item_type_label":"Apod","live_now":false,"live_status":null,"media_credit":"Julien De Winter, Sascha Ebeler Text: Keighley Rockcliffe (NASA GSFC, UMBC CSST, CRESST II)","published_at":"2026-05-12T00:00:00","published_at_display":"12 May 2026, 00:00 GMT","source_name":"apod","source_type":"api","summary":"Today\u2019s composite image features something old, something new, something borrowed, and something blue! Comet R3 PanSTARRS, streaking across the right of the image, likely originated from the Oort Cloud, meaning it is an old Solar System relic from billions of years ago. It\u2019s bright extended ion tail glows blue as the gas escaping the comet\u2019s core is ionized by sunlight. Astronomers are fascinated by comets for all sorts of reasons: comet compositions are untouched time capsules containing the building blocks of Solar System planets; comets may have delivered water to the young Earth; the behavior of cometary tails shed light on solar wind and radiation interactions. The background mosaic, featuring the Orion Nebula (M42), was taken over two nights of observation with the comet captured on the third night. The Orion Nebula is our nearest stellar nursery and, at about 2 million years old, is our something (relatively) new! Now at around 127.5 million kilometers from Earth, we wave goodbye to the borrowed Comet R3 PanSTARRS as it leaves the Solar System. 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Today, he helps design systems that keep crews safe during missions aboard NASA\u2019s Orion spacecraft, including the successful Artemis II mission around the Moon. After joining NASA as a Pathways intern, Houghton later became a full-time engineer on the Orion Crew Survival Systems (OCSS)","title":"Nicholas Houghton: Engineering Crew Safety for NASA\u2019s Artemis Missions","topic":"Johnson Space Center","url":"https://www.nasa.gov/centers-and-facilities/johnson/nicholas-houghton-engineering-crew-safety-for-artemis-ii/","video_url":null},{"author":"Elyna Niles-Carnes","bundle_variants":[{"author":"Elyna Niles-Carnes","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=press-release&p=994761|https://www.nasa.gov/news-release/nasa-invites-media-to-annual-lunabotics-robotics-competition/|NASA Invites Media to Annual Lunabotics Robotics Competition|Mon, 11 May 2026 19:11:57 +0000","id":2791,"image_url":"https://images-assets.nasa.gov/image/KSC-20220524-PH-KLS01_0086/KSC-20220524-PH-KLS01_0086~large.jpg","is_active":true,"item_type":"kennedy","item_type_label":"Kennedy","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-11T19:11:57","published_at_display":"11 May 2026, 19:11 GMT","source_name":"kennedy","source_type":"rss","summary":"NASA will hold its 2026 Lunabotics Challenge Tuesday, May 19, to Thursday, May 21, at the Astronauts Memorial Foundation\u2019s Center for Space Education at the Kennedy Space Center Visitor Complex in Florida. 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Links to view the Lunabotics competition live can be found on the agency\u2019s Lunabotics page. The competition is slated to run between 8 a.m. and 6 p.m. each day. 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Links to view the Lunabotics competition live can be found on the agency\u2019s Lunabotics page. The competition is slated to run between 8 a.m. and 6 p.m. each day. Media are invited to attend the","title":"NASA Invites Media to Annual Lunabotics Robotics Competition","topic":"STEM Engagement at NASA","url":"https://www.nasa.gov/news-release/nasa-invites-media-to-annual-lunabotics-robotics-competition/","video_url":null},{"author":"Elyna Niles-Carnes","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/joint-guidelines-no-border.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=press-release&p=994761|https://www.nasa.gov/news-release/nasa-invites-media-to-annual-lunabotics-robotics-competition/|NASA Invites Media to Annual Lunabotics Robotics Competition|Mon, 11 May 2026 19:11:57 +0000","id":2786,"image_url":"https://images-assets.nasa.gov/image/KSC-20220524-PH-KLS01_0086/KSC-20220524-PH-KLS01_0086~large.jpg","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-11T19:11:57","published_at_display":"11 May 2026, 19:11 GMT","source_name":"recently_published_content","source_type":"rss","summary":"NASA will hold its 2026 Lunabotics Challenge Tuesday, May 19, to Thursday, May 21, at the Astronauts Memorial Foundation\u2019s Center for Space Education at the Kennedy Space Center Visitor Complex in Florida. Links to view the Lunabotics competition live can be found on the agency\u2019s Lunabotics page. The competition is slated to run between 8 a.m. and 6 p.m. each day. Media are invited to attend the","title":"NASA Invites Media to Annual Lunabotics Robotics Competition","topic":"STEM Engagement at NASA","url":"https://www.nasa.gov/news-release/nasa-invites-media-to-annual-lunabotics-robotics-competition/","video_url":null}],"downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=press-release&p=994761|https://www.nasa.gov/news-release/nasa-invites-media-to-annual-lunabotics-robotics-competition/|NASA Invites Media to Annual Lunabotics Robotics Competition|Mon, 11 May 2026 19:11:57 +0000","id":2791,"image_url":"https://images-assets.nasa.gov/image/KSC-20220524-PH-KLS01_0086/KSC-20220524-PH-KLS01_0086~large.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-11T19:11:57","published_at_display":"11 May 2026, 19:11 GMT","sequence_count":4,"sequence_count_label":"4 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","kennedy","news_releases","recently_published_content"],"source_name":"kennedy","source_type":"rss","summary":"NASA will hold its 2026 Lunabotics Challenge Tuesday, May 19, to Thursday, May 21, at the Astronauts Memorial Foundation\u2019s Center for Space Education at the Kennedy Space Center Visitor Complex in Florida. Links to view the Lunabotics competition live can be found on the agency\u2019s Lunabotics page. The competition is slated to run between 8 a.m. and 6 p.m. each day. Media are invited to attend the","title":"NASA Invites Media to Annual Lunabotics Robotics Competition","topic":"STEM Engagement at NASA","url":"https://www.nasa.gov/news-release/nasa-invites-media-to-annual-lunabotics-robotics-competition/","video_url":null},{"author":null,"bundle_variants":[{"author":null,"downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/joint-guidelines-no-border.jpg"],"embed_url":null,"external_id":"https://science.nasa.gov/science-research/earth-science/joint-earth-observation-mission-quality-assessment-framework-optical-guidelines-documents-released/|https://science.nasa.gov/science-research/earth-science/joint-earth-observation-mission-quality-ass","id":2789,"image_url":"https://science.nasa.gov/wp-content/uploads/2026/05/joint-guidelines-no-border.jpg","is_active":true,"item_type":"news_releases","item_type_label":"News 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Soon, NASA\u2019s Nancy Grace Roman Space Telescope will be the","title":"Hubble Survey Sets Up Roman\u2019s Future Look Near Milky Way\u2019s Center","topic":"Astrophysics","url":"https://science.nasa.gov/missions/roman-space-telescope/hubble-survey-sets-up-romans-future-look-near-milky-ways-center/","video_url":null},{"author":null,"downloadable_assets":["https://assets.science.nasa.gov/content/dam/science/missions/hubble/videos/hubble-banner-animation-mar-2026.gif?w=800&h=450&fit=clip&crop=faces%2Cfocalpoint"],"embed_url":null,"external_id":"https://science.nasa.gov/missions/roman-space-telescope/hubble-survey-sets-up-romans-future-look-near-milky-ways-center/|https://science.nasa.gov/missions/roman-space-telescope/hubble-survey-sets-up-romans-future-look-near-milky-ways-center/|Hubble Survey","id":2776,"image_url":"https://assets.science.nasa.gov/content/dam/science/missions/hubble/releases/2026/05/STScI-01KQZBQ6A6G5BMNZAYZ8CZ6TYB.png/jcr:content/renditions/cq5dam.web.1280.1280.png","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-11T14:00:39","published_at_display":"11 May 2026, 14:00 GMT","source_name":"news_releases","source_type":"rss","summary":"The Milky Way\u2019s galactic bulge, the bulbous region that surrounds the galactic center, contains a dense collection of stars, planets, and other free-floating objects. 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This region has been studied for decades with numerous ground-based and space-based telescopes, including NASA\u2019s Hubble and James Webb space telescopes. Soon, NASA\u2019s Nancy Grace Roman Space Telescope will be the","title":"Hubble Survey Sets Up Roman\u2019s Future Look Near Milky Way\u2019s Center","topic":"Astrophysics","url":"https://science.nasa.gov/missions/roman-space-telescope/hubble-survey-sets-up-romans-future-look-near-milky-ways-center/","video_url":null}],"downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://science.nasa.gov/missions/roman-space-telescope/hubble-survey-sets-up-romans-future-look-near-milky-ways-center/|https://science.nasa.gov/missions/roman-space-telescope/hubble-survey-sets-up-romans-future-look-near-milky-ways-center/|Hubble Survey","id":2779,"image_url":"https://assets.science.nasa.gov/content/dam/science/missions/hubble/releases/2026/05/STScI-01KQZBQ6A6G5BMNZAYZ8CZ6TYB.png/jcr:content/renditions/cq5dam.web.1280.1280.png","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-11T14:00:39","published_at_display":"11 May 2026, 14:00 GMT","sequence_count":3,"sequence_count_label":"3 variants","sequence_kind":"story_bundle","sequence_sources":["goddard","news_releases","recently_published_content"],"source_name":"goddard","source_type":"rss","summary":"The Milky Way\u2019s galactic bulge, the bulbous region that surrounds the galactic center, contains a dense collection of stars, planets, and other free-floating objects. This region has been studied for decades with numerous ground-based and space-based telescopes, including NASA\u2019s Hubble and James Webb space telescopes. Soon, NASA\u2019s Nancy Grace Roman Space Telescope will be the","title":"Hubble Survey Sets Up Roman\u2019s Future Look Near Milky Way\u2019s Center","topic":"Astrophysics","url":"https://science.nasa.gov/missions/roman-space-telescope/hubble-survey-sets-up-romans-future-look-near-milky-ways-center/","video_url":null},{"author":"El Cielo de Canarias","downloadable_assets":[],"embed_url":null,"external_id":"2026-05-11|https://www.youtube.com/embed/afHfMMC-MJE?rel=0","id":2748,"image_url":"None","is_active":true,"item_type":"apod","item_type_label":"Apod","live_now":false,"live_status":null,"media_credit":"El Cielo de Canarias","published_at":"2026-05-11T00:00:00","published_at_display":"11 May 2026, 00:00 GMT","source_name":"apod","source_type":"api","summary":"These people are not in danger. What is coming down from the left is just the Moon, far in the distance. Luna appears so large here because she is being photographed through a telescopic lens. What is moving is mostly the Earth, whose spin causes the Moon to slowly disappear behind Mount Teide, a volcano in the Canary Islands of Spain off the northwest coast of Africa. The people pictured are 16 kilometers away and many are facing the camera because they are watching the Sun rise behind the photographer. It is not a coincidence that a full moon sets just when the Sun rises because the Sun is always on the opposite side of the sky from a full moon. The featured video was made in 2018 during a full Milk Moon. The video is not time-lapse -- this was really how fast the Moon was setting.","title":"Moon Setting Behind Teide Volcano","topic":"astronomy","url":"https://www.youtube.com/embed/afHfMMC-MJE?rel=0","video_url":"https://www.youtube.com/embed/afHfMMC-MJE?rel=0"},{"author":null,"bundle_variants":[{"author":null,"downloadable_assets":[],"embed_url":null,"external_id":"20260510-AL-003|FLR|2026-05-10 13:57:00|FLR","id":2731,"image_url":null,"is_active":true,"item_type":"flr","item_type_label":"Flr","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-10T13:57:00","published_at_display":"10 May 2026, 13:57 GMT","source_name":"donki","source_type":"api","summary":"## Community Coordinated Modeling Center Database Of Notifications, Knowledge, Information ( CCMC DONKI ) ## Message Type: Space Weather Notification - M5.7 Flare ## ## Message Issue Date: 2026-05-10T13:57:29Z ## Message ID: 20260510-AL-003 ## ## Disclaimer: NOAA's Space Weather Prediction Center is the United States Government official source for space weather forecasts. This \"Experimental Research Information\" consists of preliminary NASA research products and should be interpreted and used accordingly. ## Summary: Significant flare detected by GOES. Flare start time: 2026-05-10T13:19Z. Flare peak time: 2026-05-10T13:39Z. Flare intensity: M5.7 class. Source region: N21E65 (Active Region 14436) (based on SDO imagery). Increased energetic proton fluxes possible. Updates on this event will be provided when available. Activity ID: 2026-05-10T13:19:00-FLR-001. ## Notes:","title":"FLR","topic":"space_weather","url":null,"video_url":null},{"author":null,"downloadable_assets":[],"embed_url":null,"external_id":"20260510-AL-002|FLR|2026-05-10 13:40:00|FLR","id":2732,"image_url":null,"is_active":true,"item_type":"flr","item_type_label":"Flr","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-10T13:40:00","published_at_display":"10 May 2026, 13:40 GMT","source_name":"donki","source_type":"api","summary":"## Community Coordinated Modeling Center Database Of Notifications, Knowledge, Information ( CCMC DONKI ) ## Message Type: Auto-generated Space Weather Notification - Flare intensity has crossed the threshold of M5.0 ## ## Message Issue Date: 2026-05-10T13:40:19Z ## Message ID: 20260510-AL-002 ## ## Disclaimer: NOAA's Space Weather Prediction Center is the United States Government official source for space weather forecasts. This \"Experimental Research Information\" consists of preliminary NASA research products and should be interpreted and used accordingly. ## Summary: Significant flare detected by GOES. Flare intensity has crossed the threshold of M5.0. Flare M5.0 crossing time: 2026-05-10T13:36Z. Increased energetic proton fluxes possible. Updates on this event will be provided when available. ## Notes:","title":"FLR","topic":"space_weather","url":null,"video_url":null}],"downloadable_assets":[],"embed_url":null,"external_id":"20260510-AL-003|FLR|2026-05-10 13:57:00|FLR","id":2731,"image_url":null,"is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-10T13:57:00","published_at_display":"10 May 2026, 13:57 GMT","sequence_count":2,"sequence_count_label":"2 variants","sequence_kind":"story_bundle","sequence_sources":["donki"],"source_name":"donki","source_type":"api","summary":"## Community Coordinated Modeling Center Database Of Notifications, Knowledge, Information ( CCMC DONKI ) ## Message Type: Space Weather Notification - M5.7 Flare ## ## Message Issue Date: 2026-05-10T13:57:29Z ## Message ID: 20260510-AL-003 ## ## Disclaimer: NOAA's Space Weather Prediction Center is the United States Government official source for space weather forecasts. This \"Experimental Research Information\" consists of preliminary NASA research products and should be interpreted and used accordingly. ## Summary: Significant flare detected by GOES. Flare start time: 2026-05-10T13:19Z. Flare peak time: 2026-05-10T13:39Z. Flare intensity: M5.7 class. Source region: N21E65 (Active Region 14436) (based on SDO imagery). Increased energetic proton fluxes possible. Updates on this event will be provided when available. Activity ID: 2026-05-10T13:19:00-FLR-001. ## Notes:","title":"FLR","topic":"space_weather","url":null,"video_url":null},{"author":"Luc Perrot (TWAN)","downloadable_assets":[],"embed_url":null,"external_id":"2026-05-10|https://apod.nasa.gov/apod/image/2605/CometOrion_Perrot_960_annotated.jpg","id":2706,"image_url":"https://apod.nasa.gov/apod/image/2605/CometOrion_Perrot_960.jpg","is_active":true,"item_type":"apod","item_type_label":"Apod","live_now":false,"live_status":null,"media_credit":"Luc Perrot (TWAN)","published_at":"2026-05-10T00:00:00","published_at_display":"10 May 2026, 00:00 GMT","source_name":"apod","source_type":"api","summary":"Orion never had a sword like this. As Comet C/2025 R3 (PanSTARRS) heads out of the inner Solar System, it is putting on quite a show for long exposure cameras. Currently seen toward the constellation of Orion the Hunter, the distant Orion Nebula is visible on the upper right. Comet R3 PanSTARRS is now showing two distinct tails: a short dust tail pointing toward the top of the image and a long and wavy ion tail trailing off toward the upper left. The ion tail points away from the Sun and glows blue from excited carbon monoxide. Large particles in the dust tail somewhat resist the radiation pressure that push them away from the Sun and so retain a bit of the comet's orbit. The dust tail shines by reflected sunlight. The featured image was taken a few days ago from France's Reunion Island in the southern Indian Ocean. Growing Gallery: Comet R3 PanSTARRS in 2026","title":"Comet R3 PanSTARRS and Orion","topic":"astronomy","url":"https://apod.nasa.gov/apod/image/2605/CometOrion_Perrot_960_annotated.jpg","video_url":null},{"author":null,"downloadable_assets":[],"embed_url":null,"external_id":"2026-05-09|https://apod.nasa.gov/apod/image/2605/MessierCrater3d_vantuyne1024c.jpg","id":2680,"image_url":"https://apod.nasa.gov/apod/image/2605/MessierCrater3d_vantuyne.jpg","is_active":true,"item_type":"apod","item_type_label":"Apod","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-09T00:00:00","published_at_display":"9 May 2026, 00:00 GMT","source_name":"apod","source_type":"api","summary":"Many bright nebulae and star clusters in planet Earth's sky are associated with the name of astronomer Charles Messier from his famous 18th century catalog. His name is also given to these two large and remarkable craters on the Moon. Standouts in the dark, smooth lunar Sea of Fertility or Mare Fecunditatis, Messier (left) and Messier A have dimensions of 15 by 8 and 16 by 11 kilometers respectively. Their elongated shapes are explained by the extremely shallow-angle trajectory followed by an impactor, moving left to right, that gouged out the craters. The shallow impact also resulted in two bright rays of material extending along the surface to the right, beyond the picture. Intended to be viewed with red/blue glasses (red for the left eye), this striking stereo picture of the crater pair was recently created from high resolution scans of two images (AS11-42-6304, AS11-42-6305) taken during the Apollo 11 mission to the Moon.","title":"Messier Craters in Stereo","topic":"astronomy","url":"https://apod.nasa.gov/apod/image/2605/MessierCrater3d_vantuyne1024c.jpg","video_url":null},{"author":"Joseph Zakrzewski","bundle_variants":[{"author":"Joseph Zakrzewski","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994539|https://www.nasa.gov/general/nasas-spacex-34th-commercial-resupply-mission-overview/|NASA\u2019s SpaceX 34th Commercial Resupply Mission Overview|Fri, 08 May 2026 22:50:03 +0000","id":2679,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/nasa-spacex-crs-34-mission-overview.png","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T22:50:03","published_at_display":"8 May 2026, 22:50 GMT","source_name":"news_releases","source_type":"rss","summary":"NASA and SpaceX are targeting a mid-May launch to deliver scientific investigations, supplies, and equipment to the International Space Station. Loaded with about 6,500 pounds of supplies, the SpaceX Dragon spacecraft will lift off aboard the company\u2019s Falcon 9 rocket from Launch Complex 40 at Cape Canaveral Space Force Station in Florida. Following its arrival to the orbital complex, Dragon will dock autonomously to the forward port of","title":"NASA\u2019s SpaceX 34th Commercial Resupply Mission Overview","topic":"General","url":"https://www.nasa.gov/general/nasas-spacex-34th-commercial-resupply-mission-overview/","video_url":null},{"author":"Joseph Zakrzewski","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994539|https://www.nasa.gov/general/nasas-spacex-34th-commercial-resupply-mission-overview/|NASA\u2019s SpaceX 34th Commercial Resupply Mission Overview|Fri, 08 May 2026 22:50:03 +0000","id":2678,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/nasa-spacex-crs-34-mission-overview.png","is_active":true,"item_type":"space_station","item_type_label":"Space Station","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T22:50:03","published_at_display":"8 May 2026, 22:50 GMT","source_name":"space_station","source_type":"rss","summary":"NASA and SpaceX are targeting a mid-May launch to deliver scientific investigations, supplies, and equipment to the International Space Station. Loaded with about 6,500 pounds of supplies, the SpaceX Dragon spacecraft will lift off aboard the company\u2019s Falcon 9 rocket from Launch Complex 40 at Cape Canaveral Space Force Station in Florida. Following its arrival to the orbital complex, Dragon will dock autonomously to the forward port of","title":"NASA\u2019s SpaceX 34th Commercial Resupply Mission Overview","topic":"General","url":"https://www.nasa.gov/general/nasas-spacex-34th-commercial-resupply-mission-overview/","video_url":null},{"author":"Joseph Zakrzewski","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994539|https://www.nasa.gov/general/nasas-spacex-34th-commercial-resupply-mission-overview/|NASA\u2019s SpaceX 34th Commercial Resupply Mission Overview|Fri, 08 May 2026 22:50:03 +0000","id":2677,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/nasa-spacex-crs-34-mission-overview.png","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T22:50:03","published_at_display":"8 May 2026, 22:50 GMT","source_name":"recently_published_content","source_type":"rss","summary":"NASA and SpaceX are targeting a mid-May launch to deliver scientific investigations, supplies, and equipment to the International Space Station. Loaded with about 6,500 pounds of supplies, the SpaceX Dragon spacecraft will lift off aboard the company\u2019s Falcon 9 rocket from Launch Complex 40 at Cape Canaveral Space Force Station in Florida. Following its arrival to the orbital complex, Dragon will dock autonomously to the forward port of","title":"NASA\u2019s SpaceX 34th Commercial Resupply Mission Overview","topic":"General","url":"https://www.nasa.gov/general/nasas-spacex-34th-commercial-resupply-mission-overview/","video_url":null}],"downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994539|https://www.nasa.gov/general/nasas-spacex-34th-commercial-resupply-mission-overview/|NASA\u2019s SpaceX 34th Commercial Resupply Mission Overview|Fri, 08 May 2026 22:50:03 +0000","id":2679,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/nasa-spacex-crs-34-mission-overview.png","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T22:50:03","published_at_display":"8 May 2026, 22:50 GMT","sequence_count":3,"sequence_count_label":"3 variants","sequence_kind":"story_bundle","sequence_sources":["news_releases","recently_published_content","space_station"],"source_name":"news_releases","source_type":"rss","summary":"NASA and SpaceX are targeting a mid-May launch to deliver scientific investigations, supplies, and equipment to the International Space Station. Loaded with about 6,500 pounds of supplies, the SpaceX Dragon spacecraft will lift off aboard the company\u2019s Falcon 9 rocket from Launch Complex 40 at Cape Canaveral Space Force Station in Florida. Following its arrival to the orbital complex, Dragon will dock autonomously to the forward port of","title":"NASA\u2019s SpaceX 34th Commercial Resupply Mission Overview","topic":"General","url":"https://www.nasa.gov/general/nasas-spacex-34th-commercial-resupply-mission-overview/","video_url":null},{"author":null,"bundle_variants":[{"author":null,"downloadable_assets":["https://assets.science.nasa.gov/dynamicimage/assets/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg?w=1059&h=864&fit=clip&crop=faces%2Cfocalpoint","https://assets.science.nasa.gov/content/dam/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg"],"embed_url":null,"external_id":"https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/|https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/|NASA\u2019s Psyche Mission Captures Mars During Gr","id":2676,"image_url":"https://assets.science.nasa.gov/content/dam/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg/jcr:content/renditions/cq5dam.web.1280.1280.jpeg","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T18:11:39","published_at_display":"8 May 2026, 18:11 GMT","source_name":"news_releases","source_type":"rss","summary":"Description This colorized image of Mars was captured by NASA\u2019s Psyche mission on May 3, 2026, about 3 million miles (4.8 million kilometers) from the planet. The spacecraft is approaching the planet for a gravity assist on May 15 that will give it a boost in speed and adjust its trajectory toward asteroid Psyche for","title":"NASA\u2019s Psyche Mission Captures Mars During Gravity Assist Approach","topic":"Photojournal","url":"https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/","video_url":null},{"author":null,"downloadable_assets":["https://assets.science.nasa.gov/dynamicimage/assets/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg?w=1059&h=864&fit=clip&crop=faces%2Cfocalpoint","https://assets.science.nasa.gov/content/dam/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg"],"embed_url":null,"external_id":"https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/|https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/|NASA\u2019s Psyche Mission Captures Mars During Gr","id":2675,"image_url":"https://assets.science.nasa.gov/content/dam/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg/jcr:content/renditions/cq5dam.web.1280.1280.jpeg","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T18:11:39","published_at_display":"8 May 2026, 18:11 GMT","source_name":"recently_published_content","source_type":"rss","summary":"Description This colorized image of Mars was captured by NASA\u2019s Psyche mission on May 3, 2026, about 3 million miles (4.8 million kilometers) from the planet. The spacecraft is approaching the planet for a gravity assist on May 15 that will give it a boost in speed and adjust its trajectory toward asteroid Psyche for","title":"NASA\u2019s Psyche Mission Captures Mars During Gravity Assist Approach","topic":"Photojournal","url":"https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/","video_url":null}],"downloadable_assets":["https://assets.science.nasa.gov/dynamicimage/assets/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg?w=1059&h=864&fit=clip&crop=faces%2Cfocalpoint","https://assets.science.nasa.gov/content/dam/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg"],"embed_url":null,"external_id":"https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/|https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/|NASA\u2019s Psyche Mission Captures Mars During Gr","id":2676,"image_url":"https://assets.science.nasa.gov/content/dam/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg/jcr:content/renditions/cq5dam.web.1280.1280.jpeg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T18:11:39","published_at_display":"8 May 2026, 18:11 GMT","sequence_count":2,"sequence_count_label":"2 variants","sequence_kind":"story_bundle","sequence_sources":["news_releases","recently_published_content"],"source_name":"news_releases","source_type":"rss","summary":"Description This colorized image of Mars was captured by NASA\u2019s Psyche mission on May 3, 2026, about 3 million miles (4.8 million kilometers) from the planet. The spacecraft is approaching the planet for a gravity assist on May 15 that will give it a boost in speed and adjust its trajectory toward asteroid Psyche for","title":"NASA\u2019s Psyche Mission Captures Mars During Gravity Assist Approach","topic":"Photojournal","url":"https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/","video_url":null},{"author":"Rafael Alanis","downloadable_assets":["https://assets.science.nasa.gov/dynamicimage/assets/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg?w=1059&h=864&fit=clip&crop=faces%2Cfocalpoint","https://assets.science.nasa.gov/content/dam/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg"],"embed_url":null,"external_id":"https://science.nasa.gov/?p=1218399|https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/|NASA\u2019s Psyche Mission Captures Mars During Gravity Assist Approach|Fri, 08 May 2026 18:11:39 +0000","id":2673,"image_url":"https://assets.science.nasa.gov/content/dam/science/psd/photojournal/pia/pia26/pia26750/PIA26750.jpg/jcr:content/renditions/cq5dam.web.1280.1280.jpeg","is_active":true,"item_type":"photojournal","item_type_label":"Photo journal","live_now":false,"live_status":null,"media_credit":"Rafael Alanis","published_at":"2026-05-08T18:11:39","published_at_display":"8 May 2026, 18:11 GMT","sequence_count":14,"sequence_kind":"photojournal","sequence_sources":["photojournal_anaglyph","photojournal_artists_concepts","photojournal_dwarf_planets","photojournal_earth","photojournal_jupiter","photojournal_latest_content","photojournal_mars","photojournal_mercury","photojournal_small_bodies","photojournal_spacecraft_technology","photojournal_sun","photojournal_universe","photojournal_uranus","photojournal_venus"],"source_name":"photojournal","source_type":"rss","summary":"Description This colorized image of Mars was captured by NASA\u2019s Psyche mission on May 3, 2026, about 3 million miles (4.8 million kilometers) from the planet. The spacecraft is approaching the planet for a gravity assist on May 15 that will give it a boost in speed and adjust its trajectory toward asteroid Psyche for [\u2026] The post NASA\u2019s Psyche Mission Captures Mars During Gravity Assist Approach appeared first on NASA Science .","title":"NASA\u2019s Psyche Mission Captures Mars During Gravity Assist Approach","topic":"Photojournal","url":"https://science.nasa.gov/photojournal/nasas-psyche-mission-captures-mars-during-gravity-assist-approach/","video_url":null},{"author":null,"downloadable_assets":[],"embed_url":null,"external_id":"https://www.jpl.nasa.gov/news/nasas-psyche-mission-to-fly-by-mars-for-gravity-assist|https://www.jpl.nasa.gov/news/nasas-psyche-mission-to-fly-by-mars-for-gravity-assist|NASA\u2019s Psyche Mission to Fly by Mars for Gravity Assist|Fri, 08 May 2026 11:00:00 -07","id":2674,"image_url":"https://d2pn8kiwq2w21t.cloudfront.net/images/1-PIA26750_FIG-A_mars-approach.max-800x450.jpg","is_active":true,"item_type":"jpl_news","item_type_label":"Jpl News","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T18:00:00","published_at_display":"8 May 2026, 18:00 GMT","source_name":"jpl_news","source_type":"rss","summary":"The spacecraft is using the Red Planet\u2019s gravity to increase speed and tilt its trajectory on the journey to the metal-rich asteroid Psyche.","title":"NASA\u2019s Psyche Mission to Fly by Mars for Gravity Assist","topic":null,"url":"https://www.jpl.nasa.gov/news/nasas-psyche-mission-to-fly-by-mars-for-gravity-assist","video_url":null},{"author":"Jason Costa","bundle_variants":[{"author":"Jason Costa","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994143|https://www.nasa.gov/missions/artemis/i-am-artemis-anton-kiriwas/|I Am Artemis: Anton Kiriwas|Fri, 08 May 2026 17:36:13 +0000","id":2659,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/ksc-20260508-ph-csh01-0032-e1778260308717.jpg","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:36:13","published_at_display":"8 May 2026, 17:36 GMT","source_name":"news_releases","source_type":"rss","summary":"Listen to this audio excerpt from Anton Kiriwas, senior technical integration manager for NASA\u2019s Exploration Ground Systems Program: When Anton Kiriwas first spotted an image of the Moon and Mars hanging over a job fair booth while in college, it captured his imagination, yet felt like a dream too distant to chase. He had no","title":"I Am Artemis: Anton Kiriwas","topic":"Artemis","url":"https://www.nasa.gov/missions/artemis/i-am-artemis-anton-kiriwas/","video_url":null},{"author":"Jason Costa","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994143|https://www.nasa.gov/missions/artemis/i-am-artemis-anton-kiriwas/|I Am Artemis: Anton Kiriwas|Fri, 08 May 2026 17:36:13 +0000","id":2658,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/ksc-20260508-ph-csh01-0032-e1778260308717.jpg","is_active":true,"item_type":"kennedy","item_type_label":"Kennedy","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:36:13","published_at_display":"8 May 2026, 17:36 GMT","source_name":"kennedy","source_type":"rss","summary":"Listen to this audio excerpt from Anton Kiriwas, senior technical integration manager for NASA\u2019s Exploration Ground Systems Program: When Anton Kiriwas first spotted an image of the Moon and Mars hanging over a job fair booth while in college, it captured his imagination, yet felt like a dream too distant to chase. 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He had no","title":"I Am Artemis: Anton Kiriwas","topic":"Artemis","url":"https://www.nasa.gov/missions/artemis/i-am-artemis-anton-kiriwas/","video_url":null},{"author":"Jason Costa","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994143|https://www.nasa.gov/missions/artemis/i-am-artemis-anton-kiriwas/|I Am Artemis: Anton Kiriwas|Fri, 08 May 2026 17:36:13 +0000","id":2655,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/ksc-20260508-ph-csh01-0032-e1778260308717.jpg","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:36:13","published_at_display":"8 May 2026, 17:36 GMT","source_name":"recently_published_content","source_type":"rss","summary":"Listen to this audio excerpt from Anton Kiriwas, senior technical integration manager for NASA\u2019s Exploration Ground Systems Program: When Anton Kiriwas first spotted an image of the Moon and Mars hanging over a job fair booth while in college, it captured his imagination, yet felt like a dream too distant to chase. He had no","title":"I Am Artemis: Anton Kiriwas","topic":"Artemis","url":"https://www.nasa.gov/missions/artemis/i-am-artemis-anton-kiriwas/","video_url":null}],"downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994143|https://www.nasa.gov/missions/artemis/i-am-artemis-anton-kiriwas/|I Am Artemis: Anton Kiriwas|Fri, 08 May 2026 17:36:13 +0000","id":2659,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/ksc-20260508-ph-csh01-0032-e1778260308717.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:36:13","published_at_display":"8 May 2026, 17:36 GMT","sequence_count":4,"sequence_count_label":"4 variants","sequence_kind":"story_bundle","sequence_sources":["artemis","kennedy","news_releases","recently_published_content"],"source_name":"news_releases","source_type":"rss","summary":"Listen to this audio excerpt from Anton Kiriwas, senior technical integration manager for NASA\u2019s Exploration Ground Systems Program: When Anton Kiriwas first spotted an image of the Moon and Mars hanging over a job fair booth while in college, it captured his imagination, yet felt like a dream too distant to chase. He had no","title":"I Am Artemis: Anton Kiriwas","topic":"Artemis","url":"https://www.nasa.gov/missions/artemis/i-am-artemis-anton-kiriwas/","video_url":null},{"author":"Loura Hall","bundle_variants":[{"author":"Loura Hall","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994033|https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/|NASA, Industry Advance High Performance Spaceflight Computing|Fri, 08 May 2026 17:05:21 +0000","id":2656,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/d2026-0227-rl0028902.jpg","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:05:21","published_at_display":"8 May 2026, 17:05 GMT","source_name":"news_releases","source_type":"rss","summary":"For decades, NASA has advanced on-board spacecraft computer processors that coordinate and execute the functions needed to support mission success. 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Space computing originated in the 1960s with the Apollo Guidance Computers, which were pivotal for guidance, navigation, and control computations during NASA\u2019s first Moon missions. For decades, radiation-hardened processors have been the backbone of the","title":"NASA, Industry Advance High Performance Spaceflight Computing","topic":"Space Technology Mission Directorate","url":"https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/","video_url":null},{"author":"Loura Hall","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994033|https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/|NASA, Industry Advance High Performance Spaceflight Computing|Fri, 08 May 2026 17:05:21 +0000","id":2653,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/d2026-0227-rl0028902.jpg","is_active":true,"item_type":"jpl_center","item_type_label":"Jpl Center","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:05:21","published_at_display":"8 May 2026, 17:05 GMT","source_name":"jpl_center","source_type":"rss","summary":"For decades, NASA has advanced on-board spacecraft computer processors that coordinate and execute the functions needed to support mission success. Space computing originated in the 1960s with the Apollo Guidance Computers, which were pivotal for guidance, navigation, and control computations during NASA\u2019s first Moon missions. For decades, radiation-hardened processors have been the backbone of the","title":"NASA, Industry Advance High Performance Spaceflight Computing","topic":"Space Technology Mission Directorate","url":"https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/","video_url":null},{"author":"Loura Hall","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994033|https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/|NASA, Industry Advance High Performance Spaceflight Computing|Fri, 08 May 2026 17:05:21 +0000","id":2652,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/d2026-0227-rl0028902.jpg","is_active":true,"item_type":"technology","item_type_label":"Technology","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:05:21","published_at_display":"8 May 2026, 17:05 GMT","source_name":"technology","source_type":"rss","summary":"For decades, NASA has advanced on-board spacecraft computer processors that coordinate and execute the functions needed to support mission success. Space computing originated in the 1960s with the Apollo Guidance Computers, which were pivotal for guidance, navigation, and control computations during NASA\u2019s first Moon missions. For decades, radiation-hardened processors have been the backbone of the","title":"NASA, Industry Advance High Performance Spaceflight Computing","topic":"Space Technology Mission Directorate","url":"https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/","video_url":null},{"author":"Loura Hall","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994033|https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/|NASA, Industry Advance High Performance Spaceflight Computing|Fri, 08 May 2026 17:05:21 +0000","id":2651,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/d2026-0227-rl0028902.jpg","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:05:21","published_at_display":"8 May 2026, 17:05 GMT","source_name":"recently_published_content","source_type":"rss","summary":"For decades, NASA has advanced on-board spacecraft computer processors that coordinate and execute the functions needed to support mission success. 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For decades, radiation-hardened processors have been the backbone of the","title":"NASA, Industry Advance High Performance Spaceflight Computing","topic":"Space Technology Mission Directorate","url":"https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/","video_url":null}],"downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994033|https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/|NASA, Industry Advance High Performance Spaceflight Computing|Fri, 08 May 2026 17:05:21 +0000","id":2656,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/d2026-0227-rl0028902.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T17:05:21","published_at_display":"8 May 2026, 17:05 GMT","sequence_count":5,"sequence_count_label":"5 variants","sequence_kind":"story_bundle","sequence_sources":["jpl_center","langley","news_releases","recently_published_content","technology"],"source_name":"news_releases","source_type":"rss","summary":"For decades, NASA has advanced on-board spacecraft computer processors that coordinate and execute the functions needed to support mission success. Space computing originated in the 1960s with the Apollo Guidance Computers, which were pivotal for guidance, navigation, and control computations during NASA\u2019s first Moon missions. For decades, radiation-hardened processors have been the backbone of the","title":"NASA, Industry Advance High Performance Spaceflight Computing","topic":"Space Technology Mission Directorate","url":"https://www.nasa.gov/directorates/stmd/nasa-industry-advance-high-performance-spaceflight-computing/","video_url":null},{"author":null,"bundle_variants":[{"author":null,"downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/image-detail/iss074e0521637/|https://www.nasa.gov/image-detail/iss074e0521637/|Glowing Views from the Space Station|Fri, 08 May 2026 15:23 GMT","id":2649,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/iss074e0521637orig.jpg","is_active":true,"item_type":"image_of_the_day","item_type_label":"Image Of The Day","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T15:23:00","published_at_display":"8 May 2026, 15:23 GMT","source_name":"image_of_the_day","source_type":"rss","summary":"This celestial image captured from a window on a SpaceX Dragon spacecraft docked to the International Space Station highlights the Milky Way rising above Earth's atmospheric glow.","title":"Glowing Views from the Space Station","topic":null,"url":"https://www.nasa.gov/image-detail/iss074e0521637/","video_url":null},{"author":"HQ Web Team","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=993906|https://www.nasa.gov/image-article/glowing-views-from-the-space-station/|Glowing Views from the Space Station|Fri, 08 May 2026 15:21:17 +0000","id":2650,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/iss074e0521637orig.jpg","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T15:21:17","published_at_display":"8 May 2026, 15:21 GMT","source_name":"news_releases","source_type":"rss","summary":"NASA astronaut Chris Williams captured the Milky Way rising above Earth\u2019s atmospheric glow on April 13, 2026, while aboard a SpaceX Dragon docked to the International Space Station. This atmospheric glow is also called airglow. It occurs when atoms and molecules in the upper atmosphere, excited by sunlight, emit light to shed their excess energy.","title":"Glowing Views from the Space Station","topic":"Earth","url":"https://www.nasa.gov/image-article/glowing-views-from-the-space-station/","video_url":null},{"author":"HQ Web Team","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=993906|https://www.nasa.gov/image-article/glowing-views-from-the-space-station/|Glowing Views from the Space Station|Fri, 08 May 2026 15:21:17 +0000","id":2648,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/iss074e0521637orig.jpg","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T15:21:17","published_at_display":"8 May 2026, 15:21 GMT","source_name":"recently_published_content","source_type":"rss","summary":"NASA astronaut Chris Williams captured the Milky Way rising above Earth\u2019s atmospheric glow on April 13, 2026, while aboard a SpaceX Dragon docked to the International Space Station. This atmospheric glow is also called airglow. It occurs when atoms and molecules in the upper atmosphere, excited by sunlight, emit light to shed their excess energy.","title":"Glowing Views from the Space Station","topic":"Earth","url":"https://www.nasa.gov/image-article/glowing-views-from-the-space-station/","video_url":null}],"downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/image-detail/iss074e0521637/|https://www.nasa.gov/image-detail/iss074e0521637/|Glowing Views from the Space Station|Fri, 08 May 2026 15:23 GMT","id":2649,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/iss074e0521637orig.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T15:23:00","published_at_display":"8 May 2026, 15:23 GMT","sequence_count":3,"sequence_count_label":"3 variants","sequence_kind":"story_bundle","sequence_sources":["image_of_the_day","news_releases","recently_published_content"],"source_name":"image_of_the_day","source_type":"rss","summary":"This celestial image captured from a window on a SpaceX Dragon spacecraft docked to the International Space Station highlights the Milky Way rising above Earth's atmospheric glow.","title":"Glowing Views from the Space Station","topic":null,"url":"https://www.nasa.gov/image-detail/iss074e0521637/","video_url":null},{"author":"Cheryl Warner","bundle_variants":[{"author":"Cheryl Warner","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/optical-guidelines-cover.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=press-release&p=994155|https://www.nasa.gov/news-release/nasa-names-brian-hughes-to-launch-operations-role/|NASA Names Brian Hughes to Launch Operations Role|Fri, 08 May 2026 14:00:15 +0000","id":2642,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/nhq202506250014.jpg","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-08T14:00:15","published_at_display":"8 May 2026, 14:00 GMT","source_name":"news_releases","source_type":"rss","summary":"NASA announced Friday that Brian Hughes will return to the agency as senior director of launch operations, based at the agency\u2019s Kennedy Space Center in Florida. In this role, Hughes will provide enterprise-level leadership, strategic direction, and operational oversight for NASA\u2019s launch infrastructure. 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In this role, Hughes will provide enterprise-level leadership, strategic direction, and operational oversight for NASA\u2019s launch infrastructure. 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