NASA

This media briefing is a discussion about the report published by the unidentified anomalous phenomena independent study team we commissioned in 2022. The team’s report aims to inform us on what possible data could be collected in the future to shed light on the nature and origin of UAPs. Briefing participants include: · NASA Administrator Bill Nelson · Nicola Fox, associate administrator, Science Mission Directorate, NASA Headquarters in Washington · Dan Evans, assistant deputy associate administrator for research, NASA’s Science Mission Directorate · David Spergel, president, Simons Foundation and chair of NASA’s UAP independent study team The UAP independent study team is a council of 16 community experts across diverse areas on matters relevant to potential methods of study for UAP. We commissioned the nine-month study to examine UAP from a scientific perspective and create a roadmap for how to use data and the tools of science to move our understanding of UAP forward. Right now, the limited high-quality observations of UAP make it impossible to draw scientific conclusions from the data about the nature of such events. Read the report: https://go.nasa.gov/3PED0qv More info on the independent study team, including frequently asked questions: https://science.nasa.gov/uap Credit: NASA #UAP

NASA astronaut Jasmin Moghbeli, ESA (European Space Agency) astronaut Andreas Mogensen, JAXA (Japan Aerospace Exploration Agency) astronaut Satoshi Furukawa, and Roscosmos cosmonaut Konstantin Borisov launched aboard the SpaceX Dragon Endurance spacecraft on Aug. 26 on a Falcon 9 rocket from Launch Complex 39A at the agency’s Kennedy Space Center in Florida. The four crew members are scheduled to arrive at the International Space Station on Aug. 27 where they will conduct a six-month mission living and working aboard the microgravity laboratory to advance scientific knowledge and demonstrate new technologies for future human and robotic exploration missions. Such research benefits people on Earth and lays the groundwork for future human exploration through the agency’s Artemis missions, which will send astronauts to the Moon to prepare for future expeditions to Mars. _______________________________________ FOLLOW THE SPACE STATION! NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the SunNASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun NASA | Fiery Looping Rain on the Sun

NASA’s SpaceX Dragon Endurance spacecraft carrying NASA astronaut Jasmin Mothball, ESA (European Space Agency) astronaut Andreas Mogen Sen, JAXA (Japan Aerospace Exploration Agency) astronaut Satoshi Furukawa, and Roscommon cosmonaut Konstantin Borisov autonomously docked to the space-facing port of the Harmony module of the International Space Station at 9:16 a.m. EDT on Aug. 27 following a launch the day before on the SpaceX Dragon Endurance spacecraft aboard a Falcon 9 rocket from Launch Complex 39A at the agency’s Kennedy Space Center in Florida. Following docking, the quartet opened the hatch and floated onboard the orbital outpost before providing welcoming remarks as their mission aboard the space station began. The four crew members will conduct a long-duration science mission living and working aboard the microgravity laboratory to advance scientific knowledge and demonstrate new technologies for future human and robotic exploration missions. Such research benefits people on Earth and lays the groundwork for future human exploration through the agency’s Artemis missions, which will send astronauts to the Moon to prepare for future expeditions to Mars. _______________________________________ FOLLOW THE SPACE STATION!

Snacktime with NASA digs into the science behind what’s on your plate from a tasty cheese board, to seafood, to fresh produce, to chips and dip. Food can bring us a sense of home, and it connects people all around the world. With observations from space and aircraft, combined with high-end computer modeling, NASA scientists work together with partner agencies, organizations, farmers, ranchers, fishermen, and decision makers to understand the relationship between the Earth system and the environments that provide us food. Music credit: “Happy Accident” from Universal Production Music Credit: NASA's Goddard Space Flight Center Kathleen Gaeta (GSFC AIMMS): Lead Producer Jocelyn Argueta (JPL): Host Dr. Inbal Becker-Reshef (NASA Harvest): Lead Scientist Lauren Ward (GSFC): Lead Writer

Snacktime with NASA digs into the science behind what’s on your plate from a tasty cheese board, to seafood, to fresh produce, to chips and dip. Food can bring us a sense of home, and it connects people all around the world. With observations from space and aircraft, combined with high-end computer modeling, NASA scientists work together with partner agencies, organizations, farmers, ranchers, fishermen, and decision makers to understand the relationship between the Earth system and the environments that provide us food. Music: Cakes & Buns Underscore by Lewis Reed [UPM], Light and Playful Instrumental by Lo Brutto [UPM] Credit: NASA's Goddard Space Flight Center Katie Jepson (KBR): Lead Producer Kathleen Gaeta (AIMM): Host Matt Romney (NASA/KSC): Lead Scientist Christine Lee (JPL): Lead Scientist Katy Merman (KBR): Producer Kathleen Gaeta (AIMM): Producer

Snacktime with NASA digs into the science behind what’s on your plate from a tasty cheese board, to seafood, to fresh produce, to chips and dip. Food can bring us a sense of home, and it connects people all around the world. With observations from space and aircraft, combined with high-end computer modeling, NASA scientists work together with partner agencies, organizations, farmers, ranchers, fishermen, and decision makers to understand the relationship between the Earth system and the environments that provide us food. Music credit: ”Tiny Creatures" and "Cakes & Buns" from Universal Production Music Credit: NASA's Goddard Space Flight Center Katy Merman (KBR): Lead Producer Kathleen Gaeta (AIMM): Host Matthew Rondell (NASA GSFC): Lead Scientist Katie Jepson (KBR): Producer Lauren Ward (KBR): Producer

The Deep Space Network, NASA’s international collection of giant radio antennas used to communicate with spacecraft at the Moon and beyond, helps scientists and engineers use gravity and radio science experiments to learn more about our planetary neighborhood. After reaching a spacecraft reaches its destination, it uses radio antennas to communicate with the Deep Space Network, which in turn transmits radio signals back to the spacecraft. Every spacecraft travels in a predetermined path emitting radio signals as it orbits around its target. Scientists and engineers can infer the spacecraft's location and how fast it's going by measuring changes in the spacecraft's radio signal frequency. This is made possible by the Doppler effect, the same phenomenon that causes a siren to sound different as it travels towards and away from you. The Doppler phenomenon is observed here when the spacecraft and the Deep Space Network antenna move in relation to each other. Differences between the frequency of radio signals sent by the spacecraft as it orbits and signals received on Earth give us details about the gravitational field of a planetary body. For example, if the gravity is slightly stronger, the spacecraft will accelerate slightly more. If gravity is slightly weaker, the spacecraft will accelerate slightly less. By developing a model of the planetary body's gravitational field, which can be mapped as a gravitational shape, scientists and researchers can deduce information about its internal structure. The Deep Space Network was developed by and is managed by NASA’s Jet Propulsion Laboratory (JPL) in Southern California. The antennas of the Deep Space Network are the indispensable link to robotic explorers venturing beyond Earth. They provide the crucial connection for commanding our spacecraft and receiving never-before-seen images and scientific information on Earth, propelling our understanding of the universe, our solar system and ultimately, our place within it. JPL manages the Deep Space Network for the Space Communications and Navigation (Scan) Program, based at NASA Headquarters within the Space Operations Mission Directorate.

**To watch with English captions, select the Settings button and select English (United States).** Snacktime with NASA digs into the science behind what’s on your plate from a tasty cheese board, to seafood, to fresh produce, to chips and dip. Food can bring us a sense of home, and it connects people all around the world. With observations from space and aircraft, combined with high-end computer modeling, NASA scientists work together with partner agencies, organizations, farmers, ranchers, fishermen, and decision makers to understand the relationship between the Earth system and the environments that provide us food. Music credit: “Tea on the Lawn Underscore” by Paul Reeves [PRS], UPM "Sunlight's and Coconuts" by Damien Desha yes [SACEM], UPM "Cheeky Chops" by Matthew Anderson [PRS] and Florian Monks [GEMA], UPM "Creatures of the Deep" by Sam Dodson [PRS], UPM Credit: NASA’s Goddard Space Flight Center Kathleen Gaeta (GSFC AIMMS): Lead Producer Katherine Jepson (GSFC KBR): Lead Producer Jocelyn Argueta (JPL): Host Dr. Laura Lorenzen (NASA): Lead Scientist Jefferson Beck (GSFC KBR): Lead Editor 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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