SWOT: Earth Science Satellite Will Help Communities Plan for a Better Future
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Description
SWOT: Earth Science Satellite Will Help Communities Plan for a Better Future
NASA Jet Propulsion Laboratory
467
Likes
44,614
Views
Oct 28
2022
A new Earth science mission, led by NASA and the French space agency Centre National d’Études Spatiales (CNES), will help communities plan for a better future by surveying the planet’s salt and freshwater bodies. The Surface Water and Ocean Topography (SWOT) mission will measure the height of water in lakes, rivers, reservoirs, and the oceans.
As climate change accelerates the water cycle, more communities around the world will be inundated with water while others won’t have enough. SWOT data will be used to improve flood forecasts and monitor drought conditions, providing essential information to water management agencies, civil engineers, universities, the U.S. Department of Defense, disaster preparedness agencies, and others who need to track water in their local areas. In this video, examples of how SWOT data will be used in these communities are shared by a National Weather Service representative in Oregon, an Alaska Department of Transportation engineer, researchers from the University of Oregon and University of North Carolina, a NASA Jet Propulsion Laboratory scientist working with the Department of Defense, and a JPL scientist working with the Louisiana Coastal Protection and Restoration Agency.
:30 - Flood Watches & Warnings - Portland, Oregon
1:08 - Water Management - Fern Ridge Lake, Oregon
2:05 - Protecting Infrastructure - Alaska
2:54 - National Security - Department of Defense
3:24 - Coastal Protection - Mississippi River Delta
SWOT is expected to launch from Vandenberg Space Force Base in California in December 2022.
The mission is a collaboration between NASA and CNES, with contributions from the Canadian Space Agency and UK Space Agency. JPL, which is managed for NASA by Caltech in Pasadena, California, leads the U.S. component of the project.
To learn more about the mission, visit: https://swot.jpl.nasa.gov/
Credit: NASA/JPL-Caltech/CNES/Thales Alenia Space
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133 Days on the Sun
133 Days on the Sun
NASA Goddard
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This video chronicles solar activity from Aug. 12 to Dec. 22, 2022, as captured by NASA’s Solar Dynamics Observatory (SDO). From its orbit in space around Earth, SDO has steadily imaged the Sun in 4K x 4K resolution for nearly 13 years. This information has enabled countless new discoveries about the workings of our closest star and how it influences the solar system.
With a triad of instruments, SDO captures an image of the Sun every 0.75 seconds. The Atmospheric Imaging Assembly (AIA) instrument alone captures images every 12 seconds at 10 different wavelengths of light. This 133-day time lapse showcases photos taken at a wavelength of 17.1 nanometers, which is an extreme-ultraviolet wavelength that shows the Sun’s outermost atmospheric layer: the corona. Compiling images taken 108 seconds apart, the movie condenses 133 days, or about four months, of solar observations into 59 minutes. The video shows bright active regions passing across the face of the Sun as it rotates. The Sun rotates approximately once every 27 days. The loops extending above the bright regions are magnetic fields that have trapped hot, glowing plasma. These bright regions are also the source of solar flares, which appear as bright flashes as magnetic fields snap together in a process called magnetic reconnection.
While SDO has kept an unblinking eye pointed toward the Sun, there have been a few moments it missed. Some of the dark frames in the video are caused by Earth or the Moon eclipsing SDO as they pass between the spacecraft and the Sun. Other blackouts are caused by instrumentation being down or data errors. SDO transmits 1.4 terabytes of data to the ground every day. The images where the Sun is off-center were observed when SDO was calibrating its instruments.
SDO and other NASA missions will continue to watch our Sun in the years to come, providing further insights about our place in space and information to keep our astronauts and assets safe.
The music is a continuous mix from Lars Leonhard’s “Geometric Shapes” album, courtesy of the artist.
Credit: NASA's Goddard Space Flight Center
Scott Wiessinger (PAO): Lead Producer
Tom Bridgman (SVS): Lead Visualizer
Scott Wiessinger (PAO): Editor
This video can be freely shared and downloaded at https://svs.gsfc.nasa.gov/14263. While the video in its entirety can be shared without permission, the music and some individual imagery may have been obtained through permission and may not be excised or remixed in other products. Specific details on such imagery may be found here: https://svs.gsfc.nasa.gov/14263. For more information on NASA’s media guidelines, visit https://nasa.gov/multimedia/guidelines.
Video Description:
On the left side of the frame is the full circle of the Sun. It appears in a golden yellow color, but splotchy and with thin yellow wisps extending from the surface. Some areas are very bright and others almost black. The whole Sun rotates steadily, with one full rotation taking 12 minutes in this time lapse. There are usually only a few bright regions visible at a time and they shift and flash like small fires. From these regions there are wispy loops reaching up above the surface that rapidly change shape and size.
On the right side of the frame are two white-outlined squares with enlargements of interesting regions of the Sun.
If you liked this video, subscribe to the NASA Goddard YouTube channel:
/ nasagoddard
Follow NASA’s Goddard Space Flight Center
· Instagram http://www.instagram.com/nasagoddard
· Twitter http://twitter.com/NASAGoddard
· Twitter http://twitter.com/NASAGoddardPix
· Facebook: http://www.facebook.com/NASAGoddard
· Flickr http://www.flickr.com/photos/gsfc
NASA Goddard
4.9K
Likes
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This video chronicles solar activity from Aug. 12 to Dec. 22, 2022, as captured by NASA’s Solar Dynamics Observatory (SDO). From its orbit in space around Earth, SDO has steadily imaged the Sun in 4K x 4K resolution for nearly 13 years. This information has enabled countless new discoveries about the workings of our closest star and how it influences the solar system.
With a triad of instruments, SDO captures an image of the Sun every 0.75 seconds. The Atmospheric Imaging Assembly (AIA) instrument alone captures images every 12 seconds at 10 different wavelengths of light. This 133-day time lapse showcases photos taken at a wavelength of 17.1 nanometers, which is an extreme-ultraviolet wavelength that shows the Sun’s outermost atmospheric layer: the corona. Compiling images taken 108 seconds apart, the movie condenses 133 days, or about four months, of solar observations into 59 minutes. The video shows bright active regions passing across the face of the Sun as it rotates. The Sun rotates approximately once every 27 days. The loops extending above the bright regions are magnetic fields that have trapped hot, glowing plasma. These bright regions are also the source of solar flares, which appear as bright flashes as magnetic fields snap together in a process called magnetic reconnection.
While SDO has kept an unblinking eye pointed toward the Sun, there have been a few moments it missed. Some of the dark frames in the video are caused by Earth or the Moon eclipsing SDO as they pass between the spacecraft and the Sun. Other blackouts are caused by instrumentation being down or data errors. SDO transmits 1.4 terabytes of data to the ground every day. The images where the Sun is off-center were observed when SDO was calibrating its instruments.
SDO and other NASA missions will continue to watch our Sun in the years to come, providing further insights about our place in space and information to keep our astronauts and assets safe.
The music is a continuous mix from Lars Leonhard’s “Geometric Shapes” album, courtesy of the artist.
Credit: NASA's Goddard Space Flight Center
Scott Wiessinger (PAO): Lead Producer
Tom Bridgman (SVS): Lead Visualizer
Scott Wiessinger (PAO): Editor
This video can be freely shared and downloaded at https://svs.gsfc.nasa.gov/14263. While the video in its entirety can be shared without permission, the music and some individual imagery may have been obtained through permission and may not be excised or remixed in other products. Specific details on such imagery may be found here: https://svs.gsfc.nasa.gov/14263. For more information on NASA’s media guidelines, visit https://nasa.gov/multimedia/guidelines.
Video Description:
On the left side of the frame is the full circle of the Sun. It appears in a golden yellow color, but splotchy and with thin yellow wisps extending from the surface. Some areas are very bright and others almost black. The whole Sun rotates steadily, with one full rotation taking 12 minutes in this time lapse. There are usually only a few bright regions visible at a time and they shift and flash like small fires. From these regions there are wispy loops reaching up above the surface that rapidly change shape and size.
On the right side of the frame are two white-outlined squares with enlargements of interesting regions of the Sun.
If you liked this video, subscribe to the NASA Goddard YouTube channel:
/ nasagoddard
Follow NASA’s Goddard Space Flight Center
· Instagram http://www.instagram.com/nasagoddard
· Twitter http://twitter.com/NASAGoddard
· Twitter http://twitter.com/NASAGoddardPix
· Facebook: http://www.facebook.com/NASAGoddard
· Flickr http://www.flickr.com/photos/gsfc
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Warthog Adventure! The Sly Warthog Fights Alone And Knock Down Africa's Deadliest Predators
Warthog Adventure! The Sly Warthog Fights Alone And Knock Down Africa's Deadliest Predators
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NASA’s SpaceX Crew-7 Training Footage Resource Reel
NASA’s SpaceX Crew-7 Training Footage Resource Reel
NASA Video
173
Likes
5,471
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Jul 25
2023
NASA’s SpaceX Crew-7 mission will carry NASA astronaut Jasmin Moghbeli, ESA (European Space Agency) astronaut Andreas Mogensen, JAXA (Japan Aerospace Exploration Agency) astronaut Satoshi Furukawa, and Konstantin Borisov of Roscosmos to the International Space Station. A SpaceX Falcon 9 rocket and Dragon spacecraft will launch from Launch Complex 39A at NASA’s Kennedy Space Center in Florida on the company’s seventh crew rotation mission for NASA. This is Moghbeli’s first trip into space since her selection as a NASA astronaut in 2017. The New York native earned a bachelor’s degree in aerospace engineering with information technology at the Massachusetts Institute of Technology in Cambridge, Massachusetts, and a Master of Science in aerospace engineering from the Naval Postgraduate School in Monterey, California. Moghbeli, a helicopter and Marine Corps test pilot, has more than 150 combat missions and 2,000 hours of flight time in over 25 different aircraft. She also is a graduate of the U.S. Naval Test Pilot School in Patuxent River, Maryland. As mission commander, she will be responsible for all phases of flight, from launch to re-entry. She will serve as an Expedition 69/70 flight engineer aboard the station. Mogensen was selected as an ESA astronaut in 2009 and became the first Danish citizen in space after launching aboard a Soyuz for a 10-day mission to the space station in 2015. As pilot on Crew-7, he will be responsible for spacecraft systems and performance. Aboard the station, he will serve as an Expedition 69/70 flight engineer. Mogensen is from Copenhagen, Denmark. He completed undergraduate studies and received a master’s degree in aeronautical engineering from Imperial College London in England before gaining his doctorate in aerospace engineering from the University of Texas at Austin. Furukawa will be making his second trip to space, having spent 165 days aboard the space station as part of Expeditions 28/29 in 2011. Furukawa is from Kanagawa, Japan, and was selected as a JAXA astronaut in 1999. He is a physician and received his medical degree from the University of Tokyo, and later a doctorate in medical science from the same university. Aboard the station, he will become a flight engineer for Expedition 69/70. will be making his first trip to space, and will also serve as a mission specialist, working to monitor the spacecraft during the dynamic launch and entry phases of flight. He entered the Roscosmos Cosmonaut Corps as a test cosmonaut candidate in 2018 and will serve as a flight engineer for Expedition 69/70.
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SCaN Internship Project Promo (NASA Goddard)
Are you interested in advancing the future of NASA’s space communications and navigation? Join the SCaN Internship Project. Apply today by searching for the keyword ‘SCaN’ at
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