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This year\u2019s competition, RepAir: Advancing Aircraft Maintenance, asked teams of postsecondary students to develop innovative systems and practices that could advance commercial aircraft maintenance","title":"NASA Announces Winners in University Aeronautics Competition","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-announces-winners-in-university-aeronautics-competition/","video_url":null},{"author":"Bailey G. 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This year\u2019s competition, RepAir: Advancing Aircraft Maintenance, asked teams of postsecondary students to develop innovative systems and practices that could advance commercial aircraft maintenance","title":"NASA Announces Winners in University Aeronautics Competition","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-announces-winners-in-university-aeronautics-competition/","video_url":null},{"author":"Bailey G. 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This year\u2019s competition, RepAir: Advancing Aircraft Maintenance, asked teams of postsecondary students to develop innovative systems and practices that could advance commercial aircraft maintenance","title":"NASA Announces Winners in University Aeronautics Competition","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-announces-winners-in-university-aeronautics-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/?p=997851|https://www.nasa.gov/aeronautics/nasa-announces-winners-in-university-aeronautics-competition/|NASA Announces Winners in University Aeronautics Competition|Wed, 20 May 2026 20:48:01 +0000","id":3290,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/gateways-2026-sdsu-wingman.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-20T20:48:01","published_at_display":"20 May 2026, 20:48 GMT","sequence_count":4,"sequence_count_label":"4 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","langley","news_releases","recently_published_content"],"source_name":"aeronautics","source_type":"rss","summary":"A South Dakota State University team took first place at NASA\u2019s fifth annual Gateways to Blue Skies Competition, which challenged student teams to address a critical element of U.S. aviation: aircraft maintenance. This year\u2019s competition, RepAir: Advancing Aircraft Maintenance, asked teams of postsecondary students to develop innovative systems and practices that could advance commercial aircraft maintenance","title":"NASA Announces Winners in University Aeronautics Competition","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-announces-winners-in-university-aeronautics-competition/","video_url":null},{"author":"Elyna Niles-Carnes","bundle_variants":[{"author":"Elyna Niles-Carnes","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/05/thumb-for-web-pia26752a-western-selfie-watson-take-6-up.jpg?w=1024"],"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":2790,"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":"aeronautics","item_type_label":"Aeronautics","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":"aeronautics","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. 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":2788,"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":"news_releases","item_type_label":"News Releases","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":"news_releases","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":"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://www.nasa.gov/wp-content/uploads/2026/05/thumb-for-web-pia26752a-western-selfie-watson-take-6-up.jpg?w=1024"],"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":2790,"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":"aeronautics","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":"Dede Dinius","bundle_variants":[{"author":"Dede Dinius","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=994061|https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/|Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research|Thu, 07 May 2026 23:45:41 +0000","id":2579,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-07T23:45:41","published_at_display":"7 May 2026, 23:45 GMT","source_name":"aeronautics","source_type":"rss","summary":"NASA\u2019s home for experimental flight is welcoming more flyers to its already high-performing fleet as it continues to support science and aeronautics test missions \u2013 continuing the legacy of pioneers like Neil Armstrong. NASA\u2019s Armstrong Flight Research Center in Edwards, California, added multiple aircraft this year: two F-15s supersonic jets, a Pilatus PC-12 utility plane,","title":"Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/","video_url":null},{"author":"Dede Dinius","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg","https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994061|https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/|Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research|Thu, 07 May 2026 23:45:41 +0000","id":2581,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg?w=1024","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-07T23:45:41","published_at_display":"7 May 2026, 23:45 GMT","source_name":"news_releases","source_type":"rss","summary":"NASA\u2019s home for experimental flight is welcoming more flyers to its already high-performing fleet as it continues to support science and aeronautics test missions \u2013 continuing the legacy of pioneers like Neil Armstrong. NASA\u2019s Armstrong Flight Research Center in Edwards, California, added multiple aircraft this year: two F-15s supersonic jets, a Pilatus PC-12 utility plane,","title":"Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/","video_url":null},{"author":"Dede Dinius","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=994061|https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/|Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research|Thu, 07 May 2026 23:45:41 +0000","id":2580,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg","is_active":true,"item_type":"armstrong","item_type_label":"Armstrong","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-07T23:45:41","published_at_display":"7 May 2026, 23:45 GMT","source_name":"armstrong","source_type":"rss","summary":"NASA\u2019s home for experimental flight is welcoming more flyers to its already high-performing fleet as it continues to support science and aeronautics test missions \u2013 continuing the legacy of pioneers like Neil Armstrong. NASA\u2019s Armstrong Flight Research Center in Edwards, California, added multiple aircraft this year: two F-15s supersonic jets, a Pilatus PC-12 utility plane,","title":"Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/","video_url":null},{"author":"Dede Dinius","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg","https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=994061|https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/|Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research|Thu, 07 May 2026 23:45:41 +0000","id":2578,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg?w=1024","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":"2026-05-07T23:45:41","published_at_display":"7 May 2026, 23:45 GMT","source_name":"recently_published_content","source_type":"rss","summary":"NASA\u2019s home for experimental flight is welcoming more flyers to its already high-performing fleet as it continues to support science and aeronautics test missions \u2013 continuing the legacy of pioneers like Neil Armstrong. NASA\u2019s Armstrong Flight Research Center in Edwards, California, added multiple aircraft this year: two F-15s supersonic jets, a Pilatus PC-12 utility plane,","title":"Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/","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/?p=994061|https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/|Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research|Thu, 07 May 2026 23:45:41 +0000","id":2579,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/01/afrc2025-0168-030-edit.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-07T23:45:41","published_at_display":"7 May 2026, 23:45 GMT","sequence_count":4,"sequence_count_label":"4 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","armstrong","news_releases","recently_published_content"],"source_name":"aeronautics","source_type":"rss","summary":"NASA\u2019s home for experimental flight is welcoming more flyers to its already high-performing fleet as it continues to support science and aeronautics test missions \u2013 continuing the legacy of pioneers like Neil Armstrong. NASA\u2019s Armstrong Flight Research Center in Edwards, California, added multiple aircraft this year: two F-15s supersonic jets, a Pilatus PC-12 utility plane,","title":"Meet the Fleet: NASA Armstrong Continues Legacy of Flight Research","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/meet-the-fleet-nasa-armstrong-continues-legacy-of-flight-research/","video_url":null},{"author":"Jim Banke","bundle_variants":[{"author":"Jim Banke","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=993414|https://www.nasa.gov/aeronautics/usrc-cornell-drone-safety/|Cornell Students Aid NASA with Drone Safety in Sky|Thu, 07 May 2026 10:00:00 +0000","id":2491,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/05/cornell-drone-05.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-05-07T10:00:00","published_at_display":"7 May 2026, 10:00 GMT","source_name":"aeronautics","source_type":"rss","summary":"A team of Cornell University students are turning heads within industry and the federal government with the results of their research into creating a national air transportation management system in which thousands of drones could safely operate together. 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When engineers need to know how a spacecraft will navigate re-entry or whether a new aircraft wing design will create enough lift, they","title":"NASA Releases Powerful LAVA Software to US Aerospace Industry","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Tara Friesen","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=989192|https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/|NASA Releases Powerful LAVA Software to US Aerospace Industry|Thu, 23 Apr 2026 16:07:30 +0000","id":1887,"image_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg","is_active":true,"item_type":"ames","item_type_label":"Ames","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-23T16:07:30","published_at_display":"23 Apr 2026, 16:07 GMT","source_name":"ames","source_type":"rss","summary":"For years, NASA engineers have turned to a tool called the Launch, Ascent, and Vehicle Aerodynamics (LAVA) framework to solve airflow challenges that could mean the difference between mission success or failure. When engineers need to know how a spacecraft will navigate re-entry or whether a new aircraft wing design will create enough lift, they","title":"NASA Releases Powerful LAVA Software to US Aerospace Industry","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Tara Friesen","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=989192|https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/|NASA Releases Powerful LAVA Software to US Aerospace Industry|Thu, 23 Apr 2026 16:07:30 +0000","id":1885,"image_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg","is_active":true,"item_type":"technology","item_type_label":"Technology","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-23T16:07:30","published_at_display":"23 Apr 2026, 16:07 GMT","source_name":"technology","source_type":"rss","summary":"For years, NASA engineers have turned to a tool called the Launch, Ascent, and Vehicle Aerodynamics (LAVA) framework to solve airflow challenges that could mean the difference between mission success or failure. When engineers need to know how a spacecraft will navigate re-entry or whether a new aircraft wing design will create enough lift, they","title":"NASA Releases Powerful LAVA Software to US Aerospace Industry","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Tara Friesen","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=989192|https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/|NASA Releases Powerful LAVA Software to US Aerospace Industry|Thu, 23 Apr 2026 16:07:30 +0000","id":1883,"image_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg?w=1024","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-23T16:07:30","published_at_display":"23 Apr 2026, 16:07 GMT","source_name":"news_releases","source_type":"rss","summary":"For years, NASA engineers have turned to a tool called the Launch, Ascent, and Vehicle Aerodynamics (LAVA) framework to solve airflow challenges that could mean the difference between mission success or failure. When engineers need to know how a spacecraft will navigate re-entry or whether a new aircraft wing design will create enough lift, they","title":"NASA Releases Powerful LAVA Software to US Aerospace Industry","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Tara Friesen","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=989192|https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/|NASA Releases Powerful LAVA Software to US Aerospace Industry|Thu, 23 Apr 2026 16:07:30 +0000","id":1882,"image_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg?w=1024","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":"2026-04-23T16:07:30","published_at_display":"23 Apr 2026, 16:07 GMT","source_name":"recently_published_content","source_type":"rss","summary":"For years, NASA engineers have turned to a tool called the Launch, Ascent, and Vehicle Aerodynamics (LAVA) framework to solve airflow challenges that could mean the difference between mission success or failure. When engineers need to know how a spacecraft will navigate re-entry or whether a new aircraft wing design will create enough lift, they","title":"NASA Releases Powerful LAVA Software to US Aerospace Industry","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"}],"downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=989192|https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/|NASA Releases Powerful LAVA Software to US Aerospace Industry|Thu, 23 Apr 2026 16:07:30 +0000","id":1886,"image_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-23T16:07:30","published_at_display":"23 Apr 2026, 16:07 GMT","sequence_count":5,"sequence_count_label":"5 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","ames","news_releases","recently_published_content","technology"],"source_name":"aeronautics","source_type":"rss","summary":"For years, NASA engineers have turned to a tool called the Launch, Ascent, and Vehicle Aerodynamics (LAVA) framework to solve airflow challenges that could mean the difference between mission success or failure. When engineers need to know how a spacecraft will navigate re-entry or whether a new aircraft wing design will create enough lift, they","title":"NASA Releases Powerful LAVA Software to US Aerospace Industry","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-releases-powerful-lava-software-to-us-aerospace-industry/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Charles G. Hatfield","bundle_variants":[{"author":"Charles G. 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After a check flight and a three-hour transit from Waco, the aircraft returned to NASA\u2019s Langley Research Center in Hampton, Virginia, on April 22. Since January","title":"NASA\u2019s 777 Aircraft Returns Home with Science Flights on the Horizon","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasas-777-aircraft-returns-home-with-science-flights-on-the-horizon/","video_url":null},{"author":"Charles G. 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After a check flight and a three-hour transit from Waco, the aircraft returned to NASA\u2019s Langley Research Center in Hampton, Virginia, on April 22. Since January","title":"NASA\u2019s 777 Aircraft Returns Home with Science Flights on the Horizon","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasas-777-aircraft-returns-home-with-science-flights-on-the-horizon/","video_url":null},{"author":"Charles G. 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After a check flight and a three-hour transit from Waco, the aircraft returned to NASA\u2019s Langley Research Center in Hampton, Virginia, on April 22. Since January","title":"NASA\u2019s 777 Aircraft Returns Home with Science Flights on the Horizon","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasas-777-aircraft-returns-home-with-science-flights-on-the-horizon/","video_url":null},{"author":"Charles G. 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After a check flight and a three-hour transit from Waco, the aircraft returned to NASA\u2019s Langley Research Center in Hampton, Virginia, on April 22. Since January","title":"NASA\u2019s 777 Aircraft Returns Home with Science Flights on the Horizon","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasas-777-aircraft-returns-home-with-science-flights-on-the-horizon/","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/?p=984871|https://www.nasa.gov/centers-and-facilities/langley/nasas-777-aircraft-returns-home-with-science-flights-on-the-horizon/|NASA\u2019s 777 Aircraft Returns Home with Science Flights on the Horizon|Wed, 22 Apr 2026 20:29:26 +0000","id":2068,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/lrc-2026-ocio-p-00998.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-22T20:29:26","published_at_display":"22 Apr 2026, 20:29 GMT","sequence_count":4,"sequence_count_label":"4 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","langley","news_releases","recently_published_content"],"source_name":"aeronautics","source_type":"rss","summary":"NASA\u2019s Boeing 777 has returned to the agency\u2019s fleet after undergoing heavy structural modifications as it transforms from a giant passenger plane into the agency\u2019s next-generation airborne science laboratory. After a check flight and a three-hour transit from Waco, the aircraft returned to NASA\u2019s Langley Research Center in Hampton, Virginia, on April 22. Since January","title":"NASA\u2019s 777 Aircraft Returns Home with Science Flights on the Horizon","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasas-777-aircraft-returns-home-with-science-flights-on-the-horizon/","video_url":null},{"author":"Joseph Atkinson","bundle_variants":[{"author":"Joseph Atkinson","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=985852|https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/|NASA, Organ Sharing Network UNOS to Study Faster Organ Transport|Tue, 21 Apr 2026 17:56:04 +0000","id":1824,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-21T17:56:04","published_at_display":"21 Apr 2026, 17:56 GMT","source_name":"aeronautics","source_type":"rss","summary":"Editor\u2019s Note: On April 23, we updated this story to acknowledge a change in the type of organ being used for testing. Every second counts in the life-saving world of medical transplants. To help address that urgency, NASA\u2019s Langley Research Center in Hampton, Virginia, is teaming up with the United Network for Organ Sharing (UNOS) to explore faster,","title":"NASA, Organ Sharing Network UNOS to Study Faster Organ Transport","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/","video_url":null},{"author":"Joseph Atkinson","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg","https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=985852|https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/|NASA, Organ Sharing Network UNOS to Study Faster Organ Transport|Tue, 21 Apr 2026 17:56:04 +0000","id":1813,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg?w=1024","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-21T17:56:04","published_at_display":"21 Apr 2026, 17:56 GMT","source_name":"news_releases","source_type":"rss","summary":"Every second counts in the life-saving world of medical transplants. To help address that urgency, NASA\u2019s Langley Research Center in Hampton, Virginia, is teaming up with the United Network for Organ Sharing (UNOS) to explore faster, more reliable ways to transport donor organs using advanced aviation technologies. NASA Langley and UNOS will collaborate under a new Space Act Agreement announced","title":"NASA, Organ Sharing Network UNOS to Study Faster Organ Transport","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/","video_url":null},{"author":"Joseph Atkinson","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=985852|https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/|NASA, Organ Sharing Network UNOS to Study Faster Organ Transport|Tue, 21 Apr 2026 17:56:04 +0000","id":1812,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg","is_active":true,"item_type":"langley","item_type_label":"Langley","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-21T17:56:04","published_at_display":"21 Apr 2026, 17:56 GMT","source_name":"langley","source_type":"rss","summary":"Editor\u2019s Note: On April 23, we updated this story to acknowledge a change in the type of organ being used for testing. Every second counts in the life-saving world of medical transplants. To help address that urgency, NASA\u2019s Langley Research Center in Hampton, Virginia, is teaming up with the United Network for Organ Sharing (UNOS) to explore faster,","title":"NASA, Organ Sharing Network UNOS to Study Faster Organ Transport","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/","video_url":null},{"author":"Joseph Atkinson","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg","https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=985852|https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/|NASA, Organ Sharing Network UNOS to Study Faster Organ Transport|Tue, 21 Apr 2026 17:56:04 +0000","id":1806,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg?w=1024","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":"2026-04-21T17:56:04","published_at_display":"21 Apr 2026, 17:56 GMT","source_name":"recently_published_content","source_type":"rss","summary":"Every second counts in the life-saving world of medical transplants. To help address that urgency, NASA\u2019s Langley Research Center in Hampton, Virginia, is teaming up with the United Network for Organ Sharing (UNOS) to explore faster, more reliable ways to transport donor organs using advanced aviation technologies. NASA Langley and UNOS will collaborate under a new Space Act Agreement announced","title":"NASA, Organ Sharing Network UNOS to Study Faster Organ Transport","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/","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/?p=985852|https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/|NASA, Organ Sharing Network UNOS to Study Faster Organ Transport|Tue, 21 Apr 2026 17:56:04 +0000","id":1824,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/handshake-1.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-21T17:56:04","published_at_display":"21 Apr 2026, 17:56 GMT","sequence_count":4,"sequence_count_label":"4 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","langley","news_releases","recently_published_content"],"source_name":"aeronautics","source_type":"rss","summary":"Editor\u2019s Note: On April 23, we updated this story to acknowledge a change in the type of organ being used for testing. Every second counts in the life-saving world of medical transplants. To help address that urgency, NASA\u2019s Langley Research Center in Hampton, Virginia, is teaming up with the United Network for Organ Sharing (UNOS) to explore faster,","title":"NASA, Organ Sharing Network UNOS to Study Faster Organ Transport","topic":"Langley Research Center","url":"https://www.nasa.gov/centers-and-facilities/langley/nasa-organ-sharing-network-unos-to-study-faster-organ-transport/","video_url":null},{"author":"HQ Web Team","bundle_variants":[{"author":"HQ Web Team","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=image-article&p=985443|https://www.nasa.gov/image-article/wheels-up-for-x-59/|Wheels Up for X-59|Mon, 20 Apr 2026 15:57:54 +0000","id":1758,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-20T15:57:54","published_at_display":"20 Apr 2026, 15:57 GMT","source_name":"aeronautics","source_type":"rss","summary":"NASA\u2019s X-59 quiet supersonic research aircraft flies over the Mojave Desert in California in this April 14, 2026, image. The transition to flying with wheels up is a key milestone and an important step in the experimental aircraft\u2019s test campaign. The X-59 has made its highest and fastest flights so far, expanding its operational range","title":"Wheels Up for X-59","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/wheels-up-for-x-59/","video_url":null},{"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/x-59-flight-9-screen-grab-2/|https://www.nasa.gov/image-detail/x-59-flight-9-screen-grab-2/|Wheels Up for X-59|Mon, 20 Apr 2026 15:59 GMT","id":1761,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp","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":"2026-04-20T15:59:00","published_at_display":"20 Apr 2026, 15:59 GMT","source_name":"image_of_the_day","source_type":"rss","summary":"NASA\u2019s X-59 quiet supersonic research aircraft flies over the Mojave Desert in California on April 14, 2026.","title":"Wheels Up for X-59","topic":null,"url":"https://www.nasa.gov/image-detail/x-59-flight-9-screen-grab-2/","video_url":null},{"author":"Monika Luabeya","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp","https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp?w=2000"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=985443|https://www.nasa.gov/image-article/wheels-up-for-x-59/|Wheels Up for X-59|Mon, 20 Apr 2026 15:57:54 +0000","id":1757,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp?w=2000","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-20T15:57:54","published_at_display":"20 Apr 2026, 15:57 GMT","source_name":"news_releases","source_type":"rss","summary":"NASA\u2019s X-59 quiet supersonic research aircraft flies over the Mojave Desert in California in this April 14, 2026, image. The transition to flying with wheels up is a key milestone and an important step in the experimental aircraft\u2019s test campaign. The X-59 has made its highest and fastest flights so far, expanding its operational range","title":"Wheels Up for X-59","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/wheels-up-for-x-59/","video_url":null},{"author":"Monika Luabeya","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp","https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp?w=2000"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=985443|https://www.nasa.gov/image-article/wheels-up-for-x-59/|Wheels Up for X-59|Mon, 20 Apr 2026 15:57:54 +0000","id":1756,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp?w=2000","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":"2026-04-20T15:57:54","published_at_display":"20 Apr 2026, 15:57 GMT","source_name":"recently_published_content","source_type":"rss","summary":"NASA\u2019s X-59 quiet supersonic research aircraft flies over the Mojave Desert in California in this April 14, 2026, image. The transition to flying with wheels up is a key milestone and an important step in the experimental aircraft\u2019s test campaign. The X-59 has made its highest and fastest flights so far, expanding its operational range","title":"Wheels Up for X-59","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/wheels-up-for-x-59/","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=image-article&p=985443|https://www.nasa.gov/image-article/wheels-up-for-x-59/|Wheels Up for X-59|Mon, 20 Apr 2026 15:57:54 +0000","id":1758,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/x-59-flight-9-screen-grab.webp","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-20T15:57:54","published_at_display":"20 Apr 2026, 15:57 GMT","sequence_count":4,"sequence_count_label":"4 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","image_of_the_day","news_releases","recently_published_content"],"source_name":"aeronautics","source_type":"rss","summary":"NASA\u2019s X-59 quiet supersonic research aircraft flies over the Mojave Desert in California in this April 14, 2026, image. The transition to flying with wheels up is a key milestone and an important step in the experimental aircraft\u2019s test campaign. The X-59 has made its highest and fastest flights so far, expanding its operational range","title":"Wheels Up for X-59","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/wheels-up-for-x-59/","video_url":null},{"author":"Lillian Gipson","bundle_variants":[{"author":"Lillian Gipson","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=984009|https://www.nasa.gov/aeronautics/aeronautics-stem/2025-2026-dwu-winners/|2025-2026 Dream with Us Design Challenge Winners|Tue, 14 Apr 2026 18:44:49 +0000","id":1538,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/dwu-hs-2025-2026.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-14T18:44:49","published_at_display":"14 Apr 2026, 18:44 GMT","source_name":"aeronautics","source_type":"rss","summary":"2025-2026 Dream with Us Winners Congratulation to our 2025-2026 Dream with Us Design Challenge Winners! We are pleased to share this year\u2019s winning projects: Middle School 1st Place: Scout Farm (Varenya D., Aashritha P., and Alvitha P., NJ) 2nd Place: AgriTech (Charlotte W. and Richard F., CA) 3rd Place: AgriVision (Vivaan G. and Yajvin M., CA) High","title":"2025-2026 Dream with Us Design Challenge Winners","topic":"Aeronautics STEM","url":"https://www.nasa.gov/aeronautics/aeronautics-stem/2025-2026-dwu-winners/","video_url":null},{"author":"Lillian Gipson","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/03/dream-with-us-1f.jpg","https://www.nasa.gov/wp-content/uploads/2023/03/dream-with-us-1f.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=984009|https://www.nasa.gov/aeronautics/aeronautics-stem/2025-2026-dwu-winners/|2025-2026 Dream with Us Design Challenge Winners|Tue, 14 Apr 2026 18:44:49 +0000","id":1537,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/dwu-hs-2025-2026.jpg","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-14T18:44:49","published_at_display":"14 Apr 2026, 18:44 GMT","source_name":"news_releases","source_type":"rss","summary":"2025-2026 Dream with Us Winners Congratulation to our 2025-2026 Dream with Us Design Challenge Winners! We are pleased to share this year\u2019s winning projects: Middle School 1st Place: Scout Farm (Varenya D., Aashritha P., and Alvitha P., NJ) 2nd Place: AgriTech (Charlotte W. and Richard F., CA) 3rd Place: AgriDrone (Hasini B. and Kanishka A, TX and","title":"2025-2026 Dream with Us Design Challenge Winners","topic":"Aeronautics STEM","url":"https://www.nasa.gov/aeronautics/aeronautics-stem/2025-2026-dwu-winners/","video_url":null},{"author":"Lillian Gipson","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/03/dream-with-us-1f.jpg","https://www.nasa.gov/wp-content/uploads/2023/03/dream-with-us-1f.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=984009|https://www.nasa.gov/aeronautics/aeronautics-stem/2025-2026-dwu-winners/|2025-2026 Dream with Us Design Challenge Winners|Tue, 14 Apr 2026 18:44:49 +0000","id":1536,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/dwu-hs-2025-2026.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":"2026-04-14T18:44:49","published_at_display":"14 Apr 2026, 18:44 GMT","source_name":"recently_published_content","source_type":"rss","summary":"2025-2026 Dream with Us Winners Congratulation to our 2025-2026 Dream with Us Design Challenge Winners! We are pleased to share this year\u2019s winning projects: Middle School 1st Place: Scout Farm (Varenya D., Aashritha P., and Alvitha P., NJ) 2nd Place: AgriTech (Charlotte W. and Richard F., CA) 3rd Place: AgriDrone (Hasini B. and Kanishka A, TX and","title":"2025-2026 Dream with Us Design Challenge Winners","topic":"Aeronautics STEM","url":"https://www.nasa.gov/aeronautics/aeronautics-stem/2025-2026-dwu-winners/","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/?p=984009|https://www.nasa.gov/aeronautics/aeronautics-stem/2025-2026-dwu-winners/|2025-2026 Dream with Us Design Challenge Winners|Tue, 14 Apr 2026 18:44:49 +0000","id":1538,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/04/dwu-hs-2025-2026.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-14T18:44:49","published_at_display":"14 Apr 2026, 18:44 GMT","sequence_count":3,"sequence_count_label":"3 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","news_releases","recently_published_content"],"source_name":"aeronautics","source_type":"rss","summary":"2025-2026 Dream with Us Winners Congratulation to our 2025-2026 Dream with Us Design Challenge Winners! We are pleased to share this year\u2019s winning projects: Middle School 1st Place: Scout Farm (Varenya D., Aashritha P., and Alvitha P., NJ) 2nd Place: AgriTech (Charlotte W. and Richard F., CA) 3rd Place: AgriVision (Vivaan G. and Yajvin M., CA) High","title":"2025-2026 Dream with Us Design Challenge Winners","topic":"Aeronautics STEM","url":"https://www.nasa.gov/aeronautics/aeronautics-stem/2025-2026-dwu-winners/","video_url":null},{"author":"Suzanne Cisneros","bundle_variants":[{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/general/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)|Thu, 09 Apr 20","id":1815,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"aeronautics","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"General","url":"https://www.nasa.gov/general/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2023/04/heic1006a-jpg.webp"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (N","id":1206,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"news_releases","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (N","id":1204,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"ames","item_type_label":"Ames","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"ames","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2023/04/heic1006a-jpg.webp"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (N","id":1203,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.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":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"recently_published_content","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)|Thu, 09 Ap","id":1197,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"news_releases","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)|Thu, 09 Ap","id":1193,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"aeronautics","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)|Thu, 09 Ap","id":1189,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.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":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"recently_published_content","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=982771|https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research ","id":1205,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"ames","item_type_label":"Ames","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:21:53","published_at_display":"9 Apr 2026, 21:21 GMT","source_name":"ames","source_type":"rss","summary":"WindShaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=982771|https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research ","id":1194,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:21:53","published_at_display":"9 Apr 2026, 21:21 GMT","source_name":"aeronautics","source_type":"rss","summary":"WindShaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2023/04/heic1006a-jpg.webp"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=982771|https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research ","id":1192,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:21:53","published_at_display":"9 Apr 2026, 21:21 GMT","source_name":"news_releases","source_type":"rss","summary":"WindShaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2023/04/heic1006a-jpg.webp"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=982771|https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research ","id":1188,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.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":"2026-04-09T21:21:53","published_at_display":"9 Apr 2026, 21:21 GMT","source_name":"recently_published_content","source_type":"rss","summary":"WindShaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null}],"downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/general/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)|Thu, 09 Apr 20","id":1815,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","sequence_count":11,"sequence_count_label":"11 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","ames","news_releases","recently_published_content"],"source_name":"aeronautics","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"General","url":"https://www.nasa.gov/general/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Dede Dinius","bundle_variants":[{"author":"Dede Dinius","downloadable_assets":["https://assets.science.nasa.gov/dynamicimage/assets/science/missions/tess/news/2026/exoplanets-by-stellar-eclipses/circumbinary_planet_AC.png?w=1024"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=977203|https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/|NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency|Tue, 24 Mar 2026 21:","id":424,"image_url":"https://images-assets.nasa.gov/image/AFRC2026-0025-18/AFRC2026-0025-18~large.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T21:49:35","published_at_display":"24 Mar 2026, 21:49 GMT","source_name":"aeronautics","source_type":"rss","summary":"A NASA Pilatus PC-12 aircraft will now be based at NASA\u2019s Armstrong Flight Research Center in Edwards, California, in order to support flight research efforts across the agency. The PC-12 was acquired in 2022 by NASA\u2019s Glenn Research Center in Cleveland for use in advanced technology development. The PC-12 will continue to support research at","title":"NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/","video_url":null},{"author":"Dede Dinius","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=image-article&p=977203|https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/|NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency|Tue, 24 Mar 2026 21:","id":791,"image_url":"https://images-assets.nasa.gov/image/AFRC2026-0025-18/AFRC2026-0025-18~large.jpg","is_active":true,"item_type":"glenn","item_type_label":"Glenn","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T21:49:35","published_at_display":"24 Mar 2026, 21:49 GMT","source_name":"glenn","source_type":"rss","summary":"A NASA Pilatus PC-12 aircraft will now be based at NASA\u2019s Armstrong Flight Research Center in Edwards, California, in order to support flight research efforts across the agency. The PC-12 was acquired in 2022 by NASA\u2019s Glenn Research Center in Cleveland for use in advanced technology development. The PC-12 will continue to support research at","title":"NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/","video_url":null},{"author":"Dede Dinius","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=image-article&p=977203|https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/|NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency|Tue, 24 Mar 2026 21:","id":782,"image_url":"https://images-assets.nasa.gov/image/AFRC2026-0025-18/AFRC2026-0025-18~large.jpg","is_active":true,"item_type":"armstrong","item_type_label":"Armstrong","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T21:49:35","published_at_display":"24 Mar 2026, 21:49 GMT","source_name":"armstrong","source_type":"rss","summary":"A NASA Pilatus PC-12 aircraft will now be based at NASA\u2019s Armstrong Flight Research Center in Edwards, California, in order to support flight research efforts across the agency. The PC-12 was acquired in 2022 by NASA\u2019s Glenn Research Center in Cleveland for use in advanced technology development. The PC-12 will continue to support research at","title":"NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/","video_url":null}],"downloadable_assets":["https://assets.science.nasa.gov/dynamicimage/assets/science/missions/tess/news/2026/exoplanets-by-stellar-eclipses/circumbinary_planet_AC.png?w=1024"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=977203|https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/|NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency|Tue, 24 Mar 2026 21:","id":424,"image_url":"https://images-assets.nasa.gov/image/AFRC2026-0025-18/AFRC2026-0025-18~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":"2026-03-24T21:49:35","published_at_display":"24 Mar 2026, 21:49 GMT","sequence_count":3,"sequence_count_label":"3 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","armstrong","glenn"],"source_name":"aeronautics","source_type":"rss","summary":"A NASA Pilatus PC-12 aircraft will now be based at NASA\u2019s Armstrong Flight Research Center in Edwards, California, in order to support flight research efforts across the agency. The PC-12 was acquired in 2022 by NASA\u2019s Glenn Research Center in Cleveland for use in advanced technology development. The PC-12 will continue to support research at","title":"NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/","video_url":null},{"author":"Bailey G. Light","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/12/nasainsigniargb150px.png"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=973602|https://www.nasa.gov/aeronautics/nasa-selects-finalists-in-student-aircraft-maintenance-competition/|NASA Selects Finalists in Student Aircraft Maintenance Competition|Tue, 24 Mar 2026 20:30:00 +0000","id":425,"image_url":"https://www.nasa.gov/wp-content/uploads/2020/05/afrc2018-0287-158.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T20:30:00","published_at_display":"24 Mar 2026, 20:30 GMT","source_name":"aeronautics","source_type":"rss","summary":"Editor\u2019s note: This advisory was updated on March 31, 2026, to update the finalists list. NASA has selected eight student teams as finalists in the 2026 Gateways to Blue Skies Competition, giving them the resources to help address a critical challenge for U.S. aviation: aircraft maintenance. Challenges facing the commercial aviation industry include a shortage of qualified maintenance workers and increasing demands to keep complicated aircraft running","title":"NASA Selects Finalists in Student Aircraft Maintenance Competition","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-selects-finalists-in-student-aircraft-maintenance-competition/","video_url":null},{"author":"Jennifer M. Dooren","bundle_variants":[{"author":"Jennifer M. Dooren","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/03/x-592ndflight.jpg","https://www.nasa.gov/wp-content/uploads/2026/03/x-592ndflight.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=976213|https://www.nasa.gov/missions/quesst/nasas-x-59-experimental-supersonic-aircraft-makes-second-flight/|NASA\u2019s X-59 Experimental Supersonic Aircraft Makes Second Flight|Fri, 20 Mar 2026 23:27:18 +0000","id":426,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/x-592ndflight.jpg?w=2048","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T23:27:18","published_at_display":"20 Mar 2026, 23:27 GMT","source_name":"aeronautics","source_type":"rss","summary":"Editor\u2019s note: This article was updated on March 27, 2026 to note that the indicator light seen during the X-59\u2019s second flight was due to a false positive. NASA\u2019s quiet supersonic X-59 aircraft made its second flight on Friday, kicking off a series of dozens of test flights in 2026. Although the flight duration was abbreviated due to a technical issue \u23af which was later","title":"NASA\u2019s X-59 Experimental Supersonic Aircraft Makes Second Flight","topic":"Quesst (X-59)","url":"https://www.nasa.gov/missions/quesst/nasas-x-59-experimental-supersonic-aircraft-makes-second-flight/","video_url":null},{"author":"Jennifer M. Dooren","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=976213|https://www.nasa.gov/missions/quesst/nasas-x-59-experimental-supersonic-aircraft-makes-second-flight/|NASA\u2019s X-59 Experimental Supersonic Aircraft Makes Second Flight|Fri, 20 Mar 2026 23:27:18 +0000","id":783,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/x-592ndflight.jpg","is_active":true,"item_type":"armstrong","item_type_label":"Armstrong","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T23:27:18","published_at_display":"20 Mar 2026, 23:27 GMT","source_name":"armstrong","source_type":"rss","summary":"Editor\u2019s note: This article was updated on March 27, 2026 to note that the indicator light seen during the X-59\u2019s second flight was due to a false positive. NASA\u2019s quiet supersonic X-59 aircraft made its second flight on Friday, kicking off a series of dozens of test flights in 2026. Although the flight duration was abbreviated due to a technical issue \u23af which was later","title":"NASA\u2019s X-59 Experimental Supersonic Aircraft Makes Second Flight","topic":"Quesst (X-59)","url":"https://www.nasa.gov/missions/quesst/nasas-x-59-experimental-supersonic-aircraft-makes-second-flight/","video_url":null}],"downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/03/x-592ndflight.jpg","https://www.nasa.gov/wp-content/uploads/2026/03/x-592ndflight.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=976213|https://www.nasa.gov/missions/quesst/nasas-x-59-experimental-supersonic-aircraft-makes-second-flight/|NASA\u2019s X-59 Experimental Supersonic Aircraft Makes Second Flight|Fri, 20 Mar 2026 23:27:18 +0000","id":426,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/x-592ndflight.jpg?w=2048","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T23:27:18","published_at_display":"20 Mar 2026, 23:27 GMT","sequence_count":2,"sequence_count_label":"2 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","armstrong"],"source_name":"aeronautics","source_type":"rss","summary":"Editor\u2019s note: This article was updated on March 27, 2026 to note that the indicator light seen during the X-59\u2019s second flight was due to a false positive. NASA\u2019s quiet supersonic X-59 aircraft made its second flight on Friday, kicking off a series of dozens of test flights in 2026. Although the flight duration was abbreviated due to a technical issue \u23af which was later","title":"NASA\u2019s X-59 Experimental Supersonic Aircraft Makes Second Flight","topic":"Quesst (X-59)","url":"https://www.nasa.gov/missions/quesst/nasas-x-59-experimental-supersonic-aircraft-makes-second-flight/","video_url":null},{"author":"Lillian Gipson","bundle_variants":[{"author":"Lillian Gipson","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=975372|https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/|NASA Simulations Improve Artemis II Launch Environment|Fri, 20 Mar 2026 14:00:00 +0000","id":427,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/sls-artemis-sim-frame-copy.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T14:00:00","published_at_display":"20 Mar 2026, 14:00 GMT","source_name":"aeronautics","source_type":"rss","summary":"Airflow around rockets as they travel from Earth into space can have a dramatic impact on a mission, which is why NASA used advanced simulations to provide the best possible launch conditions for the Artemis II test flight around the Moon. To better understand the Artemis Space Launch System (SLS) rocket\u2019s flight environment, engineers turned to a NASA-developed tool called the Launch, Ascent, and Vehicle Aerodynamics","title":"NASA Simulations Improve Artemis II Launch Environment","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Lillian Gipson","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=975372|https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/|NASA Simulations Improve Artemis II Launch Environment|Fri, 20 Mar 2026 14:00:00 +0000","id":776,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/sls-artemis-sim-frame-copy.jpg","is_active":true,"item_type":"ames","item_type_label":"Ames","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T14:00:00","published_at_display":"20 Mar 2026, 14:00 GMT","source_name":"ames","source_type":"rss","summary":"Airflow around rockets as they travel from Earth into space can have a dramatic impact on a mission, which is why NASA used advanced simulations to provide the best possible launch conditions for the Artemis II test flight around the Moon. To better understand the Artemis Space Launch System (SLS) rocket\u2019s flight environment, engineers turned to a NASA-developed tool called the Launch, Ascent, and Vehicle Aerodynamics","title":"NASA Simulations Improve Artemis II Launch Environment","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"}],"downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=975372|https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/|NASA Simulations Improve Artemis II Launch Environment|Fri, 20 Mar 2026 14:00:00 +0000","id":427,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/sls-artemis-sim-frame-copy.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T14:00:00","published_at_display":"20 Mar 2026, 14:00 GMT","sequence_count":2,"sequence_count_label":"2 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","ames"],"source_name":"aeronautics","source_type":"rss","summary":"Airflow around rockets as they travel from Earth into space can have a dramatic impact on a mission, which is why NASA used advanced simulations to provide the best possible launch conditions for the Artemis II test flight around the Moon. To better understand the Artemis Space Launch System (SLS) rocket\u2019s flight environment, engineers turned to a NASA-developed tool called the Launch, Ascent, and Vehicle Aerodynamics","title":"NASA Simulations Improve Artemis II Launch Environment","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Dede Dinius","bundle_variants":[{"author":"Dede Dinius","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg","https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=974964|https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/|NASA\u2019s X-59 Prepares for Second Flight|Tue, 17 Mar 2026 20:55:48 +0000","id":428,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg?w=2048","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-17T20:55:48","published_at_display":"17 Mar 2026, 20:55 GMT","source_name":"aeronautics","source_type":"rss","summary":"NASA\u2019s X-59 experimental aircraft is preparing for its second flight, a step that will set the pace for more flight testing in 2026. Over the coming months, NASA will take the quiet supersonic jet faster and higher, while validating safety and performance, a process known as envelope expansion. NASA test pilot Jim \u201cClue\u201d Less will be at the X-59\u2019s","title":"NASA\u2019s X-59 Prepares for Second Flight","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/","video_url":null},{"author":"Dede Dinius","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=974964|https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/|NASA\u2019s X-59 Prepares for Second Flight|Tue, 17 Mar 2026 20:55:48 +0000","id":842,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg","is_active":true,"item_type":"langley","item_type_label":"Langley","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-17T20:55:48","published_at_display":"17 Mar 2026, 20:55 GMT","source_name":"langley","source_type":"rss","summary":"NASA\u2019s X-59 experimental aircraft is preparing for its second flight, a step that will set the pace for more flight testing in 2026. Over the coming months, NASA will take the quiet supersonic jet faster and higher, while validating safety and performance, a process known as envelope expansion. NASA test pilot Jim \u201cClue\u201d Less will be at the X-59\u2019s","title":"NASA\u2019s X-59 Prepares for Second Flight","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/","video_url":null},{"author":"Dede Dinius","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=974964|https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/|NASA\u2019s X-59 Prepares for Second Flight|Tue, 17 Mar 2026 20:55:48 +0000","id":793,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg","is_active":true,"item_type":"glenn","item_type_label":"Glenn","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-17T20:55:48","published_at_display":"17 Mar 2026, 20:55 GMT","source_name":"glenn","source_type":"rss","summary":"NASA\u2019s X-59 experimental aircraft is preparing for its second flight, a step that will set the pace for more flight testing in 2026. Over the coming months, NASA will take the quiet supersonic jet faster and higher, while validating safety and performance, a process known as envelope expansion. NASA test pilot Jim \u201cClue\u201d Less will be at the X-59\u2019s","title":"NASA\u2019s X-59 Prepares for Second Flight","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/","video_url":null},{"author":"Dede Dinius","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=974964|https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/|NASA\u2019s X-59 Prepares for Second Flight|Tue, 17 Mar 2026 20:55:48 +0000","id":784,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg","is_active":true,"item_type":"armstrong","item_type_label":"Armstrong","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-17T20:55:48","published_at_display":"17 Mar 2026, 20:55 GMT","source_name":"armstrong","source_type":"rss","summary":"NASA\u2019s X-59 experimental aircraft is preparing for its second flight, a step that will set the pace for more flight testing in 2026. Over the coming months, NASA will take the quiet supersonic jet faster and higher, while validating safety and performance, a process known as envelope expansion. NASA test pilot Jim \u201cClue\u201d Less will be at the X-59\u2019s","title":"NASA\u2019s X-59 Prepares for Second Flight","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/","video_url":null},{"author":"Dede Dinius","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg","https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=974964|https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/|NASA\u2019s X-59 Prepares for Second Flight|Tue, 17 Mar 2026 20:55:48 +0000","id":777,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg?w=2048","is_active":true,"item_type":"ames","item_type_label":"Ames","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-17T20:55:48","published_at_display":"17 Mar 2026, 20:55 GMT","source_name":"ames","source_type":"rss","summary":"NASA\u2019s X-59 experimental aircraft is preparing for its second flight, a step that will set the pace for more flight testing in 2026. Over the coming months, NASA will take the quiet supersonic jet faster and higher, while validating safety and performance, a process known as envelope expansion. NASA test pilot Jim \u201cClue\u201d Less will be at the X-59\u2019s","title":"NASA\u2019s X-59 Prepares for Second Flight","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/","video_url":null}],"downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg","https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg?w=2048"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=974964|https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/|NASA\u2019s X-59 Prepares for Second Flight|Tue, 17 Mar 2026 20:55:48 +0000","id":428,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/afrc2026-0048-20.jpg?w=2048","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-17T20:55:48","published_at_display":"17 Mar 2026, 20:55 GMT","sequence_count":5,"sequence_count_label":"5 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","ames","armstrong","glenn","langley"],"source_name":"aeronautics","source_type":"rss","summary":"NASA\u2019s X-59 experimental aircraft is preparing for its second flight, a step that will set the pace for more flight testing in 2026. Over the coming months, NASA will take the quiet supersonic jet faster and higher, while validating safety and performance, a process known as envelope expansion. NASA test pilot Jim \u201cClue\u201d Less will be at the X-59\u2019s","title":"NASA\u2019s X-59 Prepares for Second Flight","topic":"Armstrong Flight Research Center","url":"https://www.nasa.gov/centers-and-facilities/armstrong/nasas-x-59-prepares-for-second-flight/","video_url":null}],"next_num":2,"page":1,"pages":2,"per_page":20,"prev_num":null,"total":25}