Satakleytingo

Methane Hot Spots Methane hot sposts on different tropic regions of earth and at different earth location mostly behing the lakes of different countries

#nisar #trackingearth #space #ISRO #NISAR #nasa #earthexploration #spaceexploration #earthaquatic #polarregion #earthandspace #jetpropulsion #propulsion #laboratries #spacemission #wolfchamp NISAR: Tracking Earth’s Changes From Space (Mission Overview) NASA and ISRO (Indian Space Research Organisation) have teamed up to create a powerful new space mission that will track our changing Earth in fine detail. The satellite, called NISAR, will use an advanced radar system to deepen our understanding of deforestation, shrinking glaciers and sea ice loss, natural hazards, climate change, and other global vital signs. Short for NASA-ISRO Synthetic Aperture Radar, NISAR features two radar instruments: one from ISRO, and one built at NASA’s Jet Propulsion Laboratory in Southern California. Peering through cloud cover and vegetation, the satellite will bounce radar signals off nearly all the planet’s land and ice twice every 12 days, monitoring motions of the surface down to fractions of an inch along with changes in other characteristics. NISAR is undergoing final integration and testing at ISRO’s satellite facility in Bengaluru, India, and will launch from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. Launch is expected in early 2024; the specific date will be announced by ISRO. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: NASA/JPL-Caltech/ISRO NISAR: Tracking Earth’s Changes From Space (Mission Overview) NASA and ISRO (Indian Space Research Organisation) have teamed up to create a powerful new space mission that will track our changing Earth in fine detail. The satellite, called NISAR, will use an advanced radar system to deepen our understanding of deforestation, shrinking glaciers and sea ice loss, natural hazards, climate change, and other global vital signs. Short for NASA-ISRO Synthetic Aperture Radar, NISAR features two radar instruments: one from ISRO, and one built at NASA’s Jet Propulsion Laboratory in Southern California. Peering through cloud cover and vegetation, the satellite will bounce radar signals off nearly all the planet’s land and ice twice every 12 days, monitoring motions of the surface down to fractions of an inch along with changes in other characteristics. NISAR is undergoing final integration and testing at ISRO’s satellite facility in Bengaluru, India, and will launch from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. Launch is expected in early 2024; the specific date will be announced by ISRO. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: NASA/JPL-Caltech/ISRO NISAR: Tracking Earth’s Changes From Space (Mission Overview) NASA and ISRO (Indian Space Research Organisation) have teamed up to create a powerful new space mission that will track our changing Earth in fine detail. The satellite, called NISAR, will use an advanced radar system to deepen our understanding of deforestation, shrinking glaciers and sea ice loss, natural hazards, climate change, and other global vital signs. Short for NASA-ISRO Synthetic Aperture Radar, NISAR features two radar instruments: one from ISRO, and one built at NASA’s Jet Propulsion Laboratory in Southern California. Peering through cloud cover and vegetation, the satellite will bounce radar signals off nearly all the planet’s land and ice twice every 12 days, monitoring motions of the surface down to fractions of an inch along with changes in other characteristics. NISAR is undergoing final integration and testing at ISRO’s satellite facility in Bengaluru, India, and will launch from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. Launch is expected in early 2024; the specific date will be announced by ISRO. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: NASA/JPL-Caltech/ISRO NISAR: Tracking Earth’s Changes From Space (Mission Overview) NASA and ISRO (Indian Space Research Organisation) have teamed up to create a powerful new space mission that will track our changing Earth in fine detail. The satellite, called NISAR, will use an advanced radar system to deepen our understanding of deforestation, shrinking glaciers and sea ice loss, natural hazards, climate change, and other global vital signs. Short for NASA-ISRO Synthetic Aperture Radar, NISAR features two radar instruments: one from ISRO, and one built at NASA’s Jet Propulsion Laboratory in Southern California. Peering through cloud cover and vegetation, the satellite will bounce radar signals off nearly all the planet’s land and ice twice every 12 days, monitoring motions of the surface down to fractions of an inch along with changes in other characteristics. NISAR is undergoing final integration and testing at ISRO’s satellite facility in Bengaluru, India, and will launch from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. Launch is expected in early 2024; the specific date will be announced by ISRO. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: NASA/JPL-Caltech/ISRO NISAR: Tracking Earth’s Changes From Space (Mission Overview) NASA and ISRO (Indian Space Research Organisation) have teamed up to create a powerful new space mission that will track our changing Earth in fine detail. The satellite, called NISAR, will use an advanced radar system to deepen our understanding of deforestation, shrinking glaciers and sea ice loss, natural hazards, climate change, and other global vital signs. Short for NASA-ISRO Synthetic Aperture Radar, NISAR features two radar instruments: one from ISRO, and one built at NASA’s Jet Propulsion Laboratory in Southern California. Peering through cloud cover and vegetation, the satellite will bounce radar signals off nearly all the planet’s land and ice twice every 12 days, monitoring motions of the surface down to fractions of an inch along with changes in other characteristics. NISAR is undergoing final integration and testing at ISRO’s satellite facility in Bengaluru, India, and will launch from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. Launch is expected in early 2024; the specific date will be announced by ISRO. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: NASA/JPL-Caltech/ISRO NISAR: Tracking Earth’s Changes From Space (Mission Overview) NASA and ISRO (Indian Space Research Organisation) have teamed up to create a powerful new space mission that will track our changing Earth in fine detail. The satellite, called NISAR, will use an advanced radar system to deepen our understanding of deforestation, shrinking glaciers and sea ice loss, natural hazards, climate change, and other global vital signs. Short for NASA-ISRO Synthetic Aperture Radar, NISAR features two radar instruments: one from ISRO, and one built at NASA’s Jet Propulsion Laboratory in Southern California. Peering through cloud cover and vegetation, the satellite will bounce radar signals off nearly all the planet’s land and ice twice every 12 days, monitoring motions of the surface down to fractions of an inch along with changes in other characteristics. NISAR is undergoing final integration and testing at ISRO’s satellite facility in Bengaluru, India, and will launch from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. Launch is expected in early 2024; the specific date will be announced by ISRO. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: NASA/JPL-Caltech/ISRO

#nasa #amazon #fieldwork #climate #climatescience #science #NISAR #travelogue #nasamission #nasaclimatescience #earthexploration #solar #solarsystem #moon #nisarmission #satellite #satellitemission #spacemission #earth #wolfchamp How Fieldwork in the Amazon Is Supporting NASA Climate Science – NISAR Mission Travelogue A joint U.S.-India satellite mission called NISAR – the NASA-ISRO Synthetic Aperture Radar (NISAR) mission – will soon set out with new tools to better understand climate change. As a way to validate the satellite’s global, space-based observations, NASA scientists went to the Peruvian Amazon to install a network of sensors that will help calibrate measurements from the NISAR spacecraft. Why the Amazon? In tropical wetlands, changes in seasonal flooding cycles can lead to increased production of greenhouse gases like methane and carbon dioxide. A collaboration between NASA and ISRO (Indian Space Research Organisation), NISAR will use a sophisticated radar system to track wetland inundation and other changes to Earth’s surface. The satellite is expected to launch in early 2024 from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: Video production and NISAR animations: NASA/JPL-Caltech; Methane animations: NASA’s Scientific Visualization Studio; Amazon field work footage courtesy of A. Pruna How Fieldwork in the Amazon Is Supporting NASA Climate Science – NISAR Mission Travelogue A joint U.S.-India satellite mission called NISAR – the NASA-ISRO Synthetic Aperture Radar (NISAR) mission – will soon set out with new tools to better understand climate change. As a way to validate the satellite’s global, space-based observations, NASA scientists went to the Peruvian Amazon to install a network of sensors that will help calibrate measurements from the NISAR spacecraft. Why the Amazon? In tropical wetlands, changes in seasonal flooding cycles can lead to increased production of greenhouse gases like methane and carbon dioxide. A collaboration between NASA and ISRO (Indian Space Research Organisation), NISAR will use a sophisticated radar system to track wetland inundation and other changes to Earth’s surface. The satellite is expected to launch in early 2024 from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: Video production and NISAR animations: NASA/JPL-Caltech; Methane animations: NASA’s Scientific Visualization Studio; Amazon field work footage courtesy of A. Pruna How Fieldwork in the Amazon Is Supporting NASA Climate Science – NISAR Mission Travelogue A joint U.S.-India satellite mission called NISAR – the NASA-ISRO Synthetic Aperture Radar (NISAR) mission – will soon set out with new tools to better understand climate change. As a way to validate the satellite’s global, space-based observations, NASA scientists went to the Peruvian Amazon to install a network of sensors that will help calibrate measurements from the NISAR spacecraft. Why the Amazon? In tropical wetlands, changes in seasonal flooding cycles can lead to increased production of greenhouse gases like methane and carbon dioxide. A collaboration between NASA and ISRO (Indian Space Research Organisation), NISAR will use a sophisticated radar system to track wetland inundation and other changes to Earth’s surface. The satellite is expected to launch in early 2024 from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: Video production and NISAR animations: NASA/JPL-Caltech; Methane animations: NASA’s Scientific Visualization Studio; Amazon field work footage courtesy of A. Pruna How Fieldwork in the Amazon Is Supporting NASA Climate Science – NISAR Mission Travelogue A joint U.S.-India satellite mission called NISAR – the NASA-ISRO Synthetic Aperture Radar (NISAR) mission – will soon set out with new tools to better understand climate change. As a way to validate the satellite’s global, space-based observations, NASA scientists went to the Peruvian Amazon to install a network of sensors that will help calibrate measurements from the NISAR spacecraft. Why the Amazon? In tropical wetlands, changes in seasonal flooding cycles can lead to increased production of greenhouse gases like methane and carbon dioxide. A collaboration between NASA and ISRO (Indian Space Research Organisation), NISAR will use a sophisticated radar system to track wetland inundation and other changes to Earth’s surface. The satellite is expected to launch in early 2024 from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: Video production and NISAR animations: NASA/JPL-Caltech; Methane animations: NASA’s Scientific Visualization Studio; Amazon field work footage courtesy of A. Pruna How Fieldwork in the Amazon Is Supporting NASA Climate Science – NISAR Mission Travelogue A joint U.S.-India satellite mission called NISAR – the NASA-ISRO Synthetic Aperture Radar (NISAR) mission – will soon set out with new tools to better understand climate change. As a way to validate the satellite’s global, space-based observations, NASA scientists went to the Peruvian Amazon to install a network of sensors that will help calibrate measurements from the NISAR spacecraft. Why the Amazon? In tropical wetlands, changes in seasonal flooding cycles can lead to increased production of greenhouse gases like methane and carbon dioxide. A collaboration between NASA and ISRO (Indian Space Research Organisation), NISAR will use a sophisticated radar system to track wetland inundation and other changes to Earth’s surface. The satellite is expected to launch in early 2024 from ISRO’s Satish Dhawan Space Centre in Sriharikota, India. For more information on the NISAR mission, visit: https://nisar.jpl.nasa.gov/. Credit: Video production and NISAR animations: NASA/JPL-Caltech; Methane animations: NASA’s Scientific Visualization Studio; Amazon field work footage courtesy of A. Pruna

#nasa #NASAprefiremission #prefire #earth #earthexploration #climate #climatechange #globalregion #polar #polarregion #polarenergy #FarInfrared#experiment #ractic #antarictic #tropics #tropicregion #sunenergy #wolfchamp A Mission to Better Understand Earth’s Polar Regions (Mission Overview) NASA’s PREFIRE mission aims to improve global climate change predictions by expanding our understanding of heat loss at the polar regions. The Polar Radiant Energy in the Far-InfraRed Experiment (PREFIRE) will send two shoebox-size satellites into space to study the Arctic and Antarctic. They’ll be the first to systematically measure heat in the form of far-infrared radiation emitted from those regions. Earth absorbs much of the Sun’s energy at the tropics. Weather and ocean currents then move that heat toward the poles, which help regulate Earth’s climate by radiating that heat back into space. But the Arctic is warming about three times faster than anywhere else on Earth, and that’s leading to increased ice sheet melt and sea level rise in coastal communities. The data from PREFIRE will help scientists better understand how Earth’s polar regions respond to climate change and what that might mean for the future. For more information: https://science.nasa.gov/mission/prefire Credit: NASA/JPL-Caltech/University of Wisconsin A Mission to Better Understand Earth’s Polar Regions (Mission Overview) NASA’s PREFIRE mission aims to improve global climate change predictions by expanding our understanding of heat loss at the polar regions. The Polar Radiant Energy in the Far-InfraRed Experiment (PREFIRE) will send two shoebox-size satellites into space to study the Arctic and Antarctic. They’ll be the first to systematically measure heat in the form of far-infrared radiation emitted from those regions. Earth absorbs much of the Sun’s energy at the tropics. Weather and ocean currents then move that heat toward the poles, which help regulate Earth’s climate by radiating that heat back into space. But the Arctic is warming about three times faster than anywhere else on Earth, and that’s leading to increased ice sheet melt and sea level rise in coastal communities. The data from PREFIRE will help scientists better understand how Earth’s polar regions respond to climate change and what that might mean for the future. For more information: https://science.nasa.gov/mission/prefire Credit: NASA/JPL-Caltech/University of Wisconsin A Mission to Better Understand Earth’s Polar Regions (Mission Overview) NASA’s PREFIRE mission aims to improve global climate change predictions by expanding our understanding of heat loss at the polar regions. The Polar Radiant Energy in the Far-InfraRed Experiment (PREFIRE) will send two shoebox-size satellites into space to study the Arctic and Antarctic. They’ll be the first to systematically measure heat in the form of far-infrared radiation emitted from those regions. Earth absorbs much of the Sun’s energy at the tropics. Weather and ocean currents then move that heat toward the poles, which help regulate Earth’s climate by radiating that heat back into space. But the Arctic is warming about three times faster than anywhere else on Earth, and that’s leading to increased ice sheet melt and sea level rise in coastal communities. The data from PREFIRE will help scientists better understand how Earth’s polar regions respond to climate change and what that might mean for the future. For more information: https://science.nasa.gov/mission/prefire Credit: NASA/JPL-Caltech/University of Wisconsin A Mission to Better Understand Earth’s Polar Regions (Mission Overview) NASA’s PREFIRE mission aims to improve global climate change predictions by expanding our understanding of heat loss at the polar regions. The Polar Radiant Energy in the Far-InfraRed Experiment (PREFIRE) will send two shoebox-size satellites into space to study the Arctic and Antarctic. They’ll be the first to systematically measure heat in the form of far-infrared radiation emitted from those regions. Earth absorbs much of the Sun’s energy at the tropics. Weather and ocean currents then move that heat toward the poles, which help regulate Earth’s climate by radiating that heat back into space. But the Arctic is warming about three times faster than anywhere else on Earth, and that’s leading to increased ice sheet melt and sea level rise in coastal communities. The data from PREFIRE will help scientists better understand how Earth’s polar regions respond to climate change and what that might mean for the future. For more information: https://science.nasa.gov/mission/prefire Credit: NASA/JPL-Caltech/University of Wisconsin A Mission to Better Understand Earth’s Polar Regions (Mission Overview) NASA’s PREFIRE mission aims to improve global climate change predictions by expanding our understanding of heat loss at the polar regions. The Polar Radiant Energy in the Far-InfraRed Experiment (PREFIRE) will send two shoebox-size satellites into space to study the Arctic and Antarctic. They’ll be the first to systematically measure heat in the form of far-infrared radiation emitted from those regions. Earth absorbs much of the Sun’s energy at the tropics. Weather and ocean currents then move that heat toward the poles, which help regulate Earth’s climate by radiating that heat back into space. But the Arctic is warming about three times faster than anywhere else on Earth, and that’s leading to increased ice sheet melt and sea level rise in coastal communities. The data from PREFIRE will help scientists better understand how Earth’s polar regions respond to climate change and what that might mean for the future. For more information: https://science.nasa.gov/mission/prefire Credit: NASA/JPL-Caltech/University of Wisconsin

#europa #spacecraft #spaceship #galaxies #planets #mars #jupiter #moon #nasa #nasamission #europaclipper #earth #spaceexploration #lunarexploration #wolfchamp Spacecraft Makers: Simulating Space to Test Europa Clipper How did the team working on NASA’s Europa Clipper spacecraft test whether the spacecraft will work properly in outer space? They put the spacecraft in a special chamber that mimics the kind of sunlight and airless environment the spacecraft will experience when it’s in outer space. In this video, Tony Licari - a mechanical systems engineer at NASA's Jet Propulsion Laboratory in Southern California - shows how the team moved the main body of the largest spacecraft NASA has ever built for a planetary mission into JPL's historic 85-foot-tall, 25-foot-wide (26-meter-by-8-meter) thermal vacuum chamber. Inside the chamber, the team simulated the kinds of conditions the spacecraft will experience while flying through space, and practiced deploying instruments. Europa Clipper successfully completed those tests in March 2024. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore Jupiter’s icy moon Europa to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter, and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Spacecraft Makers: Simulating Space to Test Europa Clipper How did the team working on NASA’s Europa Clipper spacecraft test whether the spacecraft will work properly in outer space? They put the spacecraft in a special chamber that mimics the kind of sunlight and airless environment the spacecraft will experience when it’s in outer space. In this video, Tony Licari - a mechanical systems engineer at NASA's Jet Propulsion Laboratory in Southern California - shows how the team moved the main body of the largest spacecraft NASA has ever built for a planetary mission into JPL's historic 85-foot-tall, 25-foot-wide (26-meter-by-8-meter) thermal vacuum chamber. Inside the chamber, the team simulated the kinds of conditions the spacecraft will experience while flying through space, and practiced deploying instruments. Europa Clipper successfully completed those tests in March 2024. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore Jupiter’s icy moon Europa to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter, and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Spacecraft Makers: Simulating Space to Test Europa Clipper How did the team working on NASA’s Europa Clipper spacecraft test whether the spacecraft will work properly in outer space? They put the spacecraft in a special chamber that mimics the kind of sunlight and airless environment the spacecraft will experience when it’s in outer space. In this video, Tony Licari - a mechanical systems engineer at NASA's Jet Propulsion Laboratory in Southern California - shows how the team moved the main body of the largest spacecraft NASA has ever built for a planetary mission into JPL's historic 85-foot-tall, 25-foot-wide (26-meter-by-8-meter) thermal vacuum chamber. Inside the chamber, the team simulated the kinds of conditions the spacecraft will experience while flying through space, and practiced deploying instruments. Europa Clipper successfully completed those tests in March 2024. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore Jupiter’s icy moon Europa to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter, and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Spacecraft Makers: Simulating Space to Test Europa Clipper How did the team working on NASA’s Europa Clipper spacecraft test whether the spacecraft will work properly in outer space? They put the spacecraft in a special chamber that mimics the kind of sunlight and airless environment the spacecraft will experience when it’s in outer space. In this video, Tony Licari - a mechanical systems engineer at NASA's Jet Propulsion Laboratory in Southern California - shows how the team moved the main body of the largest spacecraft NASA has ever built for a planetary mission into JPL's historic 85-foot-tall, 25-foot-wide (26-meter-by-8-meter) thermal vacuum chamber. Inside the chamber, the team simulated the kinds of conditions the spacecraft will experience while flying through space, and practiced deploying instruments. Europa Clipper successfully completed those tests in March 2024. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore Jupiter’s icy moon Europa to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter, and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Spacecraft Makers: Simulating Space to Test Europa Clipper How did the team working on NASA’s Europa Clipper spacecraft test whether the spacecraft will work properly in outer space? They put the spacecraft in a special chamber that mimics the kind of sunlight and airless environment the spacecraft will experience when it’s in outer space. In this video, Tony Licari - a mechanical systems engineer at NASA's Jet Propulsion Laboratory in Southern California - shows how the team moved the main body of the largest spacecraft NASA has ever built for a planetary mission into JPL's historic 85-foot-tall, 25-foot-wide (26-meter-by-8-meter) thermal vacuum chamber. Inside the chamber, the team simulated the kinds of conditions the spacecraft will experience while flying through space, and practiced deploying instruments. Europa Clipper successfully completed those tests in March 2024. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore Jupiter’s icy moon Europa to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter, and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Spacecraft Makers: Simulating Space to Test Europa Clipper How did the team working on NASA’s Europa Clipper spacecraft test whether the spacecraft will work properly in outer space? They put the spacecraft in a special chamber that mimics the kind of sunlight and airless environment the spacecraft will experience when it’s in outer space. In this video, Tony Licari - a mechanical systems engineer at NASA's Jet Propulsion Laboratory in Southern California - shows how the team moved the main body of the largest spacecraft NASA has ever built for a planetary mission into JPL's historic 85-foot-tall, 25-foot-wide (26-meter-by-8-meter) thermal vacuum chamber. Inside the chamber, the team simulated the kinds of conditions the spacecraft will experience while flying through space, and practiced deploying instruments. Europa Clipper successfully completed those tests in March 2024. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore Jupiter’s icy moon Europa to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter, and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Spacecraft Makers: Simulating Space to Test Europa Clipper How did the team working on NASA’s Europa Clipper spacecraft test whether the spacecraft will work properly in outer space? They put the spacecraft in a special chamber that mimics the kind of sunlight and airless environment the spacecraft will experience when it’s in outer space. In this video, Tony Licari - a mechanical systems engineer at NASA's Jet Propulsion Laboratory in Southern California - shows how the team moved the main body of the largest spacecraft NASA has ever built for a planetary mission into JPL's historic 85-foot-tall, 25-foot-wide (26-meter-by-8-meter) thermal vacuum chamber. Inside the chamber, the team simulated the kinds of conditions the spacecraft will experience while flying through space, and practiced deploying instruments. Europa Clipper successfully completed those tests in March 2024. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore Jupiter’s icy moon Europa to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter, and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech

#europa #clipper #science #europaclipper #nasa #jupitersocean #nasaexploration #jupiterwater #nasamission #earthwater #europascience #nasascience #spacetechnology #spaceexploration #jupiter #overview #viral #trending #follow #foryou #views #rumblevideo #nasavideos Why Does NASA Want to Explore Jupiter’s Ocean Moon? (Europa Clipper Science Overview) Everywhere there’s water on Earth, there’s life. Does that hold true elsewhere in our solar system? NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. While Europa Clipper isn’t a life-detection mission, it will be the first to conduct a detailed survey of this icy moon to answer questions about Europa’s potential habitability and composition. The mission’s main goals are to determine the thickness of Europa’s icy shell; confirm the presence of an ocean; investigate the make-up of that ocean; and characterize the geology of the surface. The spacecraft will orbit Jupiter and make approximately 50 flybys of Europa. It’s equipped with a powerful suite of instruments that will work in sync to gather measurements and high-resolution images. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. It will arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/APL Why Does NASA Want to Explore Jupiter’s Ocean Moon? (Europa Clipper Science Overview) Everywhere there’s water on Earth, there’s life. Does that hold true elsewhere in our solar system? NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. While Europa Clipper isn’t a life-detection mission, it will be the first to conduct a detailed survey of this icy moon to answer questions about Europa’s potential habitability and composition. The mission’s main goals are to determine the thickness of Europa’s icy shell; confirm the presence of an ocean; investigate the make-up of that ocean; and characterize the geology of the surface. The spacecraft will orbit Jupiter and make approximately 50 flybys of Europa. It’s equipped with a powerful suite of instruments that will work in sync to gather measurements and high-resolution images. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. It will arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/APL Why Does NASA Want to Explore Jupiter’s Ocean Moon? (Europa Clipper Science Overview) Everywhere there’s water on Earth, there’s life. Does that hold true elsewhere in our solar system? NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. While Europa Clipper isn’t a life-detection mission, it will be the first to conduct a detailed survey of this icy moon to answer questions about Europa’s potential habitability and composition. The mission’s main goals are to determine the thickness of Europa’s icy shell; confirm the presence of an ocean; investigate the make-up of that ocean; and characterize the geology of the surface. The spacecraft will orbit Jupiter and make approximately 50 flybys of Europa. It’s equipped with a powerful suite of instruments that will work in sync to gather measurements and high-resolution images. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. It will arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/APL Why Does NASA Want to Explore Jupiter’s Ocean Moon? (Europa Clipper Science Overview) Everywhere there’s water on Earth, there’s life. Does that hold true elsewhere in our solar system? NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. While Europa Clipper isn’t a life-detection mission, it will be the first to conduct a detailed survey of this icy moon to answer questions about Europa’s potential habitability and composition. The mission’s main goals are to determine the thickness of Europa’s icy shell; confirm the presence of an ocean; investigate the make-up of that ocean; and characterize the geology of the surface. The spacecraft will orbit Jupiter and make approximately 50 flybys of Europa. It’s equipped with a powerful suite of instruments that will work in sync to gather measurements and high-resolution images. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. It will arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/APL Why Does NASA Want to Explore Jupiter’s Ocean Moon? (Europa Clipper Science Overview) Everywhere there’s water on Earth, there’s life. Does that hold true elsewhere in our solar system? NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. While Europa Clipper isn’t a life-detection mission, it will be the first to conduct a detailed survey of this icy moon to answer questions about Europa’s potential habitability and composition. The mission’s main goals are to determine the thickness of Europa’s icy shell; confirm the presence of an ocean; investigate the make-up of that ocean; and characterize the geology of the surface. The spacecraft will orbit Jupiter and make approximately 50 flybys of Europa. It’s equipped with a powerful suite of instruments that will work in sync to gather measurements and high-resolution images. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. It will arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/APL Why Does NASA Want to Explore Jupiter’s Ocean Moon? (Europa Clipper Science Overview) Everywhere there’s water on Earth, there’s life. Does that hold true elsewhere in our solar system? NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. While Europa Clipper isn’t a life-detection mission, it will be the first to conduct a detailed survey of this icy moon to answer questions about Europa’s potential habitability and composition. The mission’s main goals are to determine the thickness of Europa’s icy shell; confirm the presence of an ocean; investigate the make-up of that ocean; and characterize the geology of the surface. The spacecraft will orbit Jupiter and make approximately 50 flybys of Europa. It’s equipped with a powerful suite of instruments that will work in sync to gather measurements and high-resolution images. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. It will arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/APL Why Does NASA Want to Explore Jupiter’s Ocean Moon? (Europa Clipper Science Overview) Everywhere there’s water on Earth, there’s life. Does that hold true elsewhere in our solar system? NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. While Europa Clipper isn’t a life-detection mission, it will be the first to conduct a detailed survey of this icy moon to answer questions about Europa’s potential habitability and composition. The mission’s main goals are to determine the thickness of Europa’s icy shell; confirm the presence of an ocean; investigate the make-up of that ocean; and characterize the geology of the surface. The spacecraft will orbit Jupiter and make approximately 50 flybys of Europa. It’s equipped with a powerful suite of instruments that will work in sync to gather measurements and high-resolution images. Europa Clipper is expected to launch in October 2024 from NASA’s Kennedy Space Center in Florida. It will arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/APL

#spacecraft #nasa #spacecrafttransport #transportation #nasaspacemission #spacemission #satakleytingo #wolfchamp #space #mars #jupiter #pluto #naptune #moon #sun #earth #spacerocket How Do You Deliver a 7,000-Pound Spacecraft? How was NASA’s Europa Clipper spacecraft packed and shipped from the agency’s Jet Propulsion Laboratory in Southern California to Kennedy Space Center in Florida? The mission’s lead engineer Kobie Boykins explains how the team made sure the 7,000-pound spacecraft would be safe while it traveled first on a semitruck then flew to Florida on a United States Air Force C-17 Globemaster III. The Europa Clipper team also shipped enough ground support equipment to fill 14 semitrailers. NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. The spacecraft is expected to launch in October 2024 from Kennedy and arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/KSC How Do You Deliver a 7,000-Pound Spacecraft? How was NASA’s Europa Clipper spacecraft packed and shipped from the agency’s Jet Propulsion Laboratory in Southern California to Kennedy Space Center in Florida? The mission’s lead engineer Kobie Boykins explains how the team made sure the 7,000-pound spacecraft would be safe while it traveled first on a semitruck then flew to Florida on a United States Air Force C-17 Globemaster III. The Europa Clipper team also shipped enough ground support equipment to fill 14 semitrailers. NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. The spacecraft is expected to launch in October 2024 from Kennedy and arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/KSC How Do You Deliver a 7,000-Pound Spacecraft? How was NASA’s Europa Clipper spacecraft packed and shipped from the agency’s Jet Propulsion Laboratory in Southern California to Kennedy Space Center in Florida? The mission’s lead engineer Kobie Boykins explains how the team made sure the 7,000-pound spacecraft would be safe while it traveled first on a semitruck then flew to Florida on a United States Air Force C-17 Globemaster III. The Europa Clipper team also shipped enough ground support equipment to fill 14 semitrailers. NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. The spacecraft is expected to launch in October 2024 from Kennedy and arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/KSC How Do You Deliver a 7,000-Pound Spacecraft? How was NASA’s Europa Clipper spacecraft packed and shipped from the agency’s Jet Propulsion Laboratory in Southern California to Kennedy Space Center in Florida? The mission’s lead engineer Kobie Boykins explains how the team made sure the 7,000-pound spacecraft would be safe while it traveled first on a semitruck then flew to Florida on a United States Air Force C-17 Globemaster III. The Europa Clipper team also shipped enough ground support equipment to fill 14 semitrailers. NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. The spacecraft is expected to launch in October 2024 from Kennedy and arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/KSC How Do You Deliver a 7,000-Pound Spacecraft? How was NASA’s Europa Clipper spacecraft packed and shipped from the agency’s Jet Propulsion Laboratory in Southern California to Kennedy Space Center in Florida? The mission’s lead engineer Kobie Boykins explains how the team made sure the 7,000-pound spacecraft would be safe while it traveled first on a semitruck then flew to Florida on a United States Air Force C-17 Globemaster III. The Europa Clipper team also shipped enough ground support equipment to fill 14 semitrailers. NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. The spacecraft is expected to launch in October 2024 from Kennedy and arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/KSC How Do You Deliver a 7,000-Pound Spacecraft? How was NASA’s Europa Clipper spacecraft packed and shipped from the agency’s Jet Propulsion Laboratory in Southern California to Kennedy Space Center in Florida? The mission’s lead engineer Kobie Boykins explains how the team made sure the 7,000-pound spacecraft would be safe while it traveled first on a semitruck then flew to Florida on a United States Air Force C-17 Globemaster III. The Europa Clipper team also shipped enough ground support equipment to fill 14 semitrailers. NASA’s Europa Clipper mission will investigate Jupiter’s icy moon Europa, which — with its subsurface ocean — is one of the most promising places in our solar system to find environments capable of supporting life. The spacecraft is expected to launch in October 2024 from Kennedy and arrive at the Jupiter system in 2030. For more information on the mission go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech/KSC

NASA's Mars 2020 Perseverance Rover is heading to the Red Planet to search for signs of ancient life, collect samples for future return to Earth and help pave the way for human exploration. The rover will carry with it several technology demonstrations including a helicopter, which will attempt humanity's first powered flight on another planet. Perseverance has a new set of science instruments and the ability to “self-drive” on the Martian surface. The Perseverance rover is scheduled to launch from Space Launch Complex 41 at NASA’s Kennedy Space Center as early as July 30. It is set to land at Mars' Jezero Crater on Feb. 18, 2021. For more information on Mars 2020, visit: https://www.nasa.gov/perseverance and https://mars.nasa.gov/perseverance Credit: NASA/JPL-Caltech

#nasa #nasamission #mars #marsexploration #spaceexploration #nasalaunch #roverlaunch #astrology #astronauts #spaceship #planet #marsjourney #wolfchamp NASA's Perseverance Rover Launches to Mars NASA’s Perseverance Rover began its long journey to Mars today by successfully launching from Cape Canaveral Air Force Station on a ULA Atlas V rocket. It now begins its seven-month journey to the Red Planet, landing there on Feb. 18, 2021.

#nasa #landpreseverance #nasapreparation #nasapreservation #rocklaunch #launpad #space #nasaland #landpreparation #nasaresearch #spacetechnology #spaceshuttle #wolfchamp NASA Preparing to Land Perseverance To prepare the Perseverance rover for its date with Mars, NASA’s Mars 2020 mission team conducted a wide array of tests to help ensure a successful entry, descent and landing at the Red Planet. From parachute verification in the world’s largest wind tunnel, to hazard avoidance practice in Death Valley, California, to wheel drop testing at NASA’s Jet Propulsion Laboratory and much more, every system was put through its paces to get ready for the big day. The Perseverance rover is scheduled to land on Mars on February 18, 2021. Learn more: https://mars.nasa.gov/mars2020 Credit: NASA/JPL-Caltech

#nasa #nasamission #nasaspacemission #spacecraft #europaclipper #spacemision #spacecraftmakers #jupiter #space #spaceexploration #mars #moon #satellite #rocketlaunch #wolfchamp Spacecraft Makers: Introducing Europa Clipper Join team members from NASA’s Europa Clipper mission behind the scenes in a clean room at NASA’s Jet Propulsion Laboratory to learn about the design of this spacecraft that will visit Europa, an icy moon of Jupiter. Europa Clipper Project Manager Jordan Evans and Deputy Science Manager Trina Ray explain how scientists’ questions translate into hardware, and they provide an update on the build in JPL’s clean room, pointing out hardware that will connect the spacecraft to the rocket, the main communication antenna, and cameras. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Cape Canaveral, Florida. Viewers also can watch a 24-hour live feed of the spacecraft in the clean room here. For more information on the mission go to: https://europa.nasa.gov/. Spacecraft Makers: Introducing Europa Clipper Join team members from NASA’s Europa Clipper mission behind the scenes in a clean room at NASA’s Jet Propulsion Laboratory to learn about the design of this spacecraft that will visit Europa, an icy moon of Jupiter. Europa Clipper Project Manager Jordan Evans and Deputy Science Manager Trina Ray explain how scientists’ questions translate into hardware, and they provide an update on the build in JPL’s clean room, pointing out hardware that will connect the spacecraft to the rocket, the main communication antenna, and cameras. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Cape Canaveral, Florida. Viewers also can watch a 24-hour live feed of the spacecraft in the clean room here. For more information on the mission go to: https://europa.nasa.gov/. Spacecraft Makers: Introducing Europa Clipper Join team members from NASA’s Europa Clipper mission behind the scenes in a clean room at NASA’s Jet Propulsion Laboratory to learn about the design of this spacecraft that will visit Europa, an icy moon of Jupiter. Europa Clipper Project Manager Jordan Evans and Deputy Science Manager Trina Ray explain how scientists’ questions translate into hardware, and they provide an update on the build in JPL’s clean room, pointing out hardware that will connect the spacecraft to the rocket, the main communication antenna, and cameras. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Cape Canaveral, Florida. Viewers also can watch a 24-hour live feed of the spacecraft in the clean room here. For more information on the mission go to: https://europa.nasa.gov/. Spacecraft Makers: Introducing Europa Clipper Join team members from NASA’s Europa Clipper mission behind the scenes in a clean room at NASA’s Jet Propulsion Laboratory to learn about the design of this spacecraft that will visit Europa, an icy moon of Jupiter. Europa Clipper Project Manager Jordan Evans and Deputy Science Manager Trina Ray explain how scientists’ questions translate into hardware, and they provide an update on the build in JPL’s clean room, pointing out hardware that will connect the spacecraft to the rocket, the main communication antenna, and cameras. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Cape Canaveral, Florida. Viewers also can watch a 24-hour live feed of the spacecraft in the clean room here. For more information on the mission go to: https://europa.nasa.gov/. Spacecraft Makers: Introducing Europa Clipper Join team members from NASA’s Europa Clipper mission behind the scenes in a clean room at NASA’s Jet Propulsion Laboratory to learn about the design of this spacecraft that will visit Europa, an icy moon of Jupiter. Europa Clipper Project Manager Jordan Evans and Deputy Science Manager Trina Ray explain how scientists’ questions translate into hardware, and they provide an update on the build in JPL’s clean room, pointing out hardware that will connect the spacecraft to the rocket, the main communication antenna, and cameras. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Cape Canaveral, Florida. Viewers also can watch a 24-hour live feed of the spacecraft in the clean room here. For more information on the mission go to: https://europa.nasa.gov/.

#spacecraft #spacecraftmakers #testingeuropaclippers #europaclippers #magnetometer #nasa #nasaspacemission #nasa2030 #spacecraft2030 #jetpropulsion #launch #jupiter #jupiterexploration #jupiterjourney #spaceexploration #wc1 #wolfchamp Spacecraft Makers: Testing Europa Clipper’s Magnetometer Join team members from NASA’s Europa Clipper mission in a clean room at NASA’s Jet Propulsion Laboratory to learn about testing of the spacecraft’s magnetometer, which will help scientists answer the question, “Does Europa have an ocean?” The magnetometer is made up of a long, 28-foot (6.5-meter) boom and three fluxgate sensors, which are compressed in a canister on the side of the spacecraft until the boom is deployed after launch. The electronics for the instrument are contained in the vault of the spacecraft, along with electronics for the other science instruments. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. Scientists have evidence that a global ocean lies under the moon’s surface, and the mission aims to confirm the existence of the ocean. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. Spacecraft Makers: Testing Europa Clipper’s Magnetometer Join team members from NASA’s Europa Clipper mission in a clean room at NASA’s Jet Propulsion Laboratory to learn about testing of the spacecraft’s magnetometer, which will help scientists answer the question, “Does Europa have an ocean?” The magnetometer is made up of a long, 28-foot (6.5-meter) boom and three fluxgate sensors, which are compressed in a canister on the side of the spacecraft until the boom is deployed after launch. The electronics for the instrument are contained in the vault of the spacecraft, along with electronics for the other science instruments. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. Scientists have evidence that a global ocean lies under the moon’s surface, and the mission aims to confirm the existence of the ocean. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. Spacecraft Makers: Testing Europa Clipper’s Magnetometer Join team members from NASA’s Europa Clipper mission in a clean room at NASA’s Jet Propulsion Laboratory to learn about testing of the spacecraft’s magnetometer, which will help scientists answer the question, “Does Europa have an ocean?” The magnetometer is made up of a long, 28-foot (6.5-meter) boom and three fluxgate sensors, which are compressed in a canister on the side of the spacecraft until the boom is deployed after launch. The electronics for the instrument are contained in the vault of the spacecraft, along with electronics for the other science instruments. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. Scientists have evidence that a global ocean lies under the moon’s surface, and the mission aims to confirm the existence of the ocean. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. Spacecraft Makers: Testing Europa Clipper’s Magnetometer Join team members from NASA’s Europa Clipper mission in a clean room at NASA’s Jet Propulsion Laboratory to learn about testing of the spacecraft’s magnetometer, which will help scientists answer the question, “Does Europa have an ocean?” The magnetometer is made up of a long, 28-foot (6.5-meter) boom and three fluxgate sensors, which are compressed in a canister on the side of the spacecraft until the boom is deployed after launch. The electronics for the instrument are contained in the vault of the spacecraft, along with electronics for the other science instruments. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. Scientists have evidence that a global ocean lies under the moon’s surface, and the mission aims to confirm the existence of the ocean. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. Spacecraft Makers: Testing Europa Clipper’s Magnetometer Join team members from NASA’s Europa Clipper mission in a clean room at NASA’s Jet Propulsion Laboratory to learn about testing of the spacecraft’s magnetometer, which will help scientists answer the question, “Does Europa have an ocean?” The magnetometer is made up of a long, 28-foot (6.5-meter) boom and three fluxgate sensors, which are compressed in a canister on the side of the spacecraft until the boom is deployed after launch. The electronics for the instrument are contained in the vault of the spacecraft, along with electronics for the other science instruments. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. Scientists have evidence that a global ocean lies under the moon’s surface, and the mission aims to confirm the existence of the ocean. The spacecraft needs to be hardy enough to survive a 1.6-billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida.

#spacecraftpsyche #spacecraft #spacejourney #spaceexploration #nasa #nasaspacemission #nasaspaceexploration #space #mars #moon #lunar #spacetechnology #spacerocket #rocket #nasarocket #satellite #stakleytingo #wolfchamp Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions Behind the Spacecraft: Psyche – Journey to a Metal World (Teaser Trailer) Meet some of the engineers contributing to NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. This trailer previews the team members profiled in the series whose work will help scientists understand the story behind this unusual asteroid. Whether the asteroid Psyche is the partial core of a planetesimal (one of the building blocks of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Each week,this five-part video series will introduce a Psyche team member who will tell the story of how they came to join the mission: Christina Hernandez, Meena Sreekantamurthy, Ben Inouye, Julie Li, and Luis Dominguez. Join us on this channel on Sept. 13 and 20 for livestreamed Q&As with team members as well. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn all about our first-of-its-kind #MissionToPsyche at: https://www.jpl.nasa.gov/missions/psyche Credit: NASA Produced by: NASA 360 Productions

#psycheelectricalengineer #PsycheElectricalEngineer #LuisDominguez #behindthespacecraft #spacecraft #spaceship #spaceexploration #nasa #nasaspacemission #space #stakleytingo #wolfchamp Psyche Electrical Engineer Luis Dominguez – Behind the Spacecraft Meet Luis Dominguez, an engineer on NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. In this video, Dominguez, of NASA’s Jet Propulsion Laboratory, shows the JPL clean room where he and the assembly, test, and launch operations team are putting together and testing the spacecraft. He also talks about his passion for outreach and inspiring the next generation of scientists and engineers. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. This is the final episode in a weekly, five-part video series called “Behind the Spacecraft.” Each Psyche team member will tell the story of how they came to the mission. Join us on this channel on Sept. 20 for a livestreamed Q&A with Dominguez. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.jpl.nasa.gov/missions/psyche. Credit: NASA Produced by: NASA 360 Productions Psyche Electrical Engineer Luis Dominguez – Behind the Spacecraft Meet Luis Dominguez, an engineer on NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. In this video, Dominguez, of NASA’s Jet Propulsion Laboratory, shows the JPL clean room where he and the assembly, test, and launch operations team are putting together and testing the spacecraft. He also talks about his passion for outreach and inspiring the next generation of scientists and engineers. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. This is the final episode in a weekly, five-part video series called “Behind the Spacecraft.” Each Psyche team member will tell the story of how they came to the mission. Join us on this channel on Sept. 20 for a livestreamed Q&A with Dominguez. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.jpl.nasa.gov/missions/psyche. Credit: NASA Produced by: NASA 360 Productions Psyche Electrical Engineer Luis Dominguez – Behind the Spacecraft Meet Luis Dominguez, an engineer on NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. In this video, Dominguez, of NASA’s Jet Propulsion Laboratory, shows the JPL clean room where he and the assembly, test, and launch operations team are putting together and testing the spacecraft. He also talks about his passion for outreach and inspiring the next generation of scientists and engineers. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. This is the final episode in a weekly, five-part video series called “Behind the Spacecraft.” Each Psyche team member will tell the story of how they came to the mission. Join us on this channel on Sept. 20 for a livestreamed Q&A with Dominguez. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.jpl.nasa.gov/missions/psyche. Credit: NASA Produced by: NASA 360 Productions Psyche Electrical Engineer Luis Dominguez – Behind the Spacecraft Meet Luis Dominguez, an engineer on NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. In this video, Dominguez, of NASA’s Jet Propulsion Laboratory, shows the JPL clean room where he and the assembly, test, and launch operations team are putting together and testing the spacecraft. He also talks about his passion for outreach and inspiring the next generation of scientists and engineers. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. This is the final episode in a weekly, five-part video series called “Behind the Spacecraft.” Each Psyche team member will tell the story of how they came to the mission. Join us on this channel on Sept. 20 for a livestreamed Q&A with Dominguez. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.jpl.nasa.gov/missions/psyche. Credit: NASA Produced by: NASA 360 Productions Psyche Electrical Engineer Luis Dominguez – Behind the Spacecraft Meet Luis Dominguez, an engineer on NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. In this video, Dominguez, of NASA’s Jet Propulsion Laboratory, shows the JPL clean room where he and the assembly, test, and launch operations team are putting together and testing the spacecraft. He also talks about his passion for outreach and inspiring the next generation of scientists and engineers. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. This is the final episode in a weekly, five-part video series called “Behind the Spacecraft.” Each Psyche team member will tell the story of how they came to the mission. Join us on this channel on Sept. 20 for a livestreamed Q&A with Dominguez. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.jpl.nasa.gov/missions/psyche. Credit: NASA Produced by: NASA 360 Productions Psyche Electrical Engineer Luis Dominguez – Behind the Spacecraft Meet Luis Dominguez, an engineer on NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. In this video, Dominguez, of NASA’s Jet Propulsion Laboratory, shows the JPL clean room where he and the assembly, test, and launch operations team are putting together and testing the spacecraft. He also talks about his passion for outreach and inspiring the next generation of scientists and engineers. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. This is the final episode in a weekly, five-part video series called “Behind the Spacecraft.” Each Psyche team member will tell the story of how they came to the mission. Join us on this channel on Sept. 20 for a livestreamed Q&A with Dominguez. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.jpl.nasa.gov/missions/psyche. Credit: NASA Produced by: NASA 360 Productions Psyche Electrical Engineer Luis Dominguez – Behind the Spacecraft Meet Luis Dominguez, an engineer on NASA’s Psyche mission, which will be the first to explore a metal-rich asteroid, also named Psyche. In this video, Dominguez, of NASA’s Jet Propulsion Laboratory, shows the JPL clean room where he and the assembly, test, and launch operations team are putting together and testing the spacecraft. He also talks about his passion for outreach and inspiring the next generation of scientists and engineers. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. This is the final episode in a weekly, five-part video series called “Behind the Spacecraft.” Each Psyche team member will tell the story of how they came to the mission. Join us on this channel on Sept. 20 for a livestreamed Q&A with Dominguez. Psyche’s launch period opens Oct. 5, 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.jpl.nasa.gov/missions/psyche. Credit: NASA Produced by: NASA 360 Productions

#gravity #astroid #studyasteroid #targetasteroid #missionpsyche #psyche #mars #moon #space #rocketlaunch #spaceexploration #marsexploration# nasamission #nasaspacemission #spacemission #astrology #spaceimaging #spacetechnology #spacescience #moonexploration #jupiter #stakleytingo #wolfchamp #lunar #lunarexploration #spacecraft #spacrocket #spaceshuttel How Will #MissionToPsyche Use Gravity to Study An Asteroid? NASA’s Psyche mission will use gravity to study the interior structure of its asteroid target, also named Psyche. By measuring subtle changes in the X-band radio waves bouncing back and forth between the spacecraft and Earth, the team can precisely determine the asteroid’s mass, gravity field, rotation, orientation, and wobble. These measurements will help scientists learn more about how Psyche, as well as other bodies in our solar system, formed. The gravity science investigation team is led by Maria Zuber of MIT. The Psyche mission is the first to a metal-rich asteroid. It is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films How Will #MissionToPsyche Use Gravity to Study An Asteroid? NASA’s Psyche mission will use gravity to study the interior structure of its asteroid target, also named Psyche. By measuring subtle changes in the X-band radio waves bouncing back and forth between the spacecraft and Earth, the team can precisely determine the asteroid’s mass, gravity field, rotation, orientation, and wobble. These measurements will help scientists learn more about how Psyche, as well as other bodies in our solar system, formed. The gravity science investigation team is led by Maria Zuber of MIT. The Psyche mission is the first to a metal-rich asteroid. It is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films How Will #MissionToPsyche Use Gravity to Study An Asteroid? NASA’s Psyche mission will use gravity to study the interior structure of its asteroid target, also named Psyche. By measuring subtle changes in the X-band radio waves bouncing back and forth between the spacecraft and Earth, the team can precisely determine the asteroid’s mass, gravity field, rotation, orientation, and wobble. These measurements will help scientists learn more about how Psyche, as well as other bodies in our solar system, formed. The gravity science investigation team is led by Maria Zuber of MIT. The Psyche mission is the first to a metal-rich asteroid. It is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films How Will #MissionToPsyche Use Gravity to Study An Asteroid? NASA’s Psyche mission will use gravity to study the interior structure of its asteroid target, also named Psyche. By measuring subtle changes in the X-band radio waves bouncing back and forth between the spacecraft and Earth, the team can precisely determine the asteroid’s mass, gravity field, rotation, orientation, and wobble. These measurements will help scientists learn more about how Psyche, as well as other bodies in our solar system, formed. The gravity science investigation team is led by Maria Zuber of MIT. The Psyche mission is the first to a metal-rich asteroid. It is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films How Will #MissionToPsyche Use Gravity to Study An Asteroid? NASA’s Psyche mission will use gravity to study the interior structure of its asteroid target, also named Psyche. By measuring subtle changes in the X-band radio waves bouncing back and forth between the spacecraft and Earth, the team can precisely determine the asteroid’s mass, gravity field, rotation, orientation, and wobble. These measurements will help scientists learn more about how Psyche, as well as other bodies in our solar system, formed. The gravity science investigation team is led by Maria Zuber of MIT. The Psyche mission is the first to a metal-rich asteroid. It is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films How Will #MissionToPsyche Use Gravity to Study An Asteroid? NASA’s Psyche mission will use gravity to study the interior structure of its asteroid target, also named Psyche. By measuring subtle changes in the X-band radio waves bouncing back and forth between the spacecraft and Earth, the team can precisely determine the asteroid’s mass, gravity field, rotation, orientation, and wobble. These measurements will help scientists learn more about how Psyche, as well as other bodies in our solar system, formed. The gravity science investigation team is led by Maria Zuber of MIT. The Psyche mission is the first to a metal-rich asteroid. It is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films How Will #MissionToPsyche Use Gravity to Study An Asteroid? NASA’s Psyche mission will use gravity to study the interior structure of its asteroid target, also named Psyche. By measuring subtle changes in the X-band radio waves bouncing back and forth between the spacecraft and Earth, the team can precisely determine the asteroid’s mass, gravity field, rotation, orientation, and wobble. These measurements will help scientists learn more about how Psyche, as well as other bodies in our solar system, formed. The gravity science investigation team is led by Maria Zuber of MIT. The Psyche mission is the first to a metal-rich asteroid. It is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films How Will #MissionToPsyche Use Gravity to Study An Asteroid? NASA’s Psyche mission will use gravity to study the interior structure of its asteroid target, also named Psyche. By measuring subtle changes in the X-band radio waves bouncing back and forth between the spacecraft and Earth, the team can precisely determine the asteroid’s mass, gravity field, rotation, orientation, and wobble. These measurements will help scientists learn more about how Psyche, as well as other bodies in our solar system, formed. The gravity science investigation team is led by Maria Zuber of MIT. The Psyche mission is the first to a metal-rich asteroid. It is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films

#asteroid #targetasteroid #missionpsyche #psyche #mars #moon #space #rocketlaunch #spaceexploration #marsexploration# nasamission #nasaspacemission #spacemission #astrology #spaceimaging #spacetechnology #spacescience #moonexploration #jupiter #stakleytingo #wolfchamp #lunar #lunarexploration #spacecraft #spacrocket #spaceshuttel How Will #MissionToPsyche See Its Target Asteroid? NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before. Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems. Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films Wolf Champ How Will #MissionToPsyche See Its Target Asteroid? NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before. Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems. Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films Wolf Champ How Will #MissionToPsyche See Its Target Asteroid? NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before. Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems. Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films Wolf Champ How Will #MissionToPsyche See Its Target Asteroid? NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before. Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems. Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films Wolf Champ How Will #MissionToPsyche See Its Target Asteroid? NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before. Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems. Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation. Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system. Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029. Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/. Credit: NASA/JPL-Caltech/ASU Produced by: True Story Films Wolf Champ

#nasa #nasacadre #minirovers #moonexploration #moon #space #moonsurface #spacetechnology #spaceship #rocketlaucnch #stakleytingo #wolfchamp NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously. NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously. NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously. NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously. NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously. NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously. NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously. NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously. NASA’s CADRE: Mini Rovers to Explore the Moon as a Team NASA’s CADRE (Cooperative Autonomous Distributed Robotic Exploration) technology demonstration is sending a trio of rovers the size of a carry-on bag to the Moon. The project is designed to show that multiple robots can cooperate and explore together autonomously.

#psychemission #kennedy #spacecenter #nasa #nasamission #rocketlaunch #spacerocket #spaceexploration #marsexploration #nasarocket #mars #moon #space #stakleytingo #wolfchamp Psyche Mission Launches From Kennedy Space Center (Highlights) The mission, which is the first to explore a metal-rich asteroid, aims to help scientists learn more about the formation of rocky bodies – including Earth – in our solar system. The Psyche spacecraft is equipped with four scientific investigations: the magnetometer, gamma-ray and neutron spectrometer, multispectral imager, and gravity science experiment. In addition, a technology demonstration called Deep Space Optical Communications (DSOC) will fly on Psyche in order to test high-data-rate laser communications. Psyche is scheduled to arrive at the asteroid in 2029 and orbit for about 26 months. NASA’s Jet Propulsion Laboratory in Southern California manages the mission, which is led by Arizona State University. NASA’s Launch Services Program at Kennedy Space Center manages launch operations and procured the SpaceX Falcon Heavy rocket. Maxar Technologies delivered the solar electric propulsion chassis and most of its engineering hardware systems. Psyche Mission Launches From Kennedy Space Center (Highlights) The mission, which is the first to explore a metal-rich asteroid, aims to help scientists learn more about the formation of rocky bodies – including Earth – in our solar system. The Psyche spacecraft is equipped with four scientific investigations: the magnetometer, gamma-ray and neutron spectrometer, multispectral imager, and gravity science experiment. In addition, a technology demonstration called Deep Space Optical Communications (DSOC) will fly on Psyche in order to test high-data-rate laser communications. Psyche is scheduled to arrive at the asteroid in 2029 and orbit for about 26 months. NASA’s Jet Propulsion Laboratory in Southern California manages the mission, which is led by Arizona State University. NASA’s Launch Services Program at Kennedy Space Center manages launch operations and procured the SpaceX Falcon Heavy rocket. Maxar Technologies delivered the solar electric propulsion chassis and most of its engineering hardware systems. Psyche Mission Launches From Kennedy Space Center (Highlights) The mission, which is the first to explore a metal-rich asteroid, aims to help scientists learn more about the formation of rocky bodies – including Earth – in our solar system. The Psyche spacecraft is equipped with four scientific investigations: the magnetometer, gamma-ray and neutron spectrometer, multispectral imager, and gravity science experiment. In addition, a technology demonstration called Deep Space Optical Communications (DSOC) will fly on Psyche in order to test high-data-rate laser communications. Psyche is scheduled to arrive at the asteroid in 2029 and orbit for about 26 months. NASA’s Jet Propulsion Laboratory in Southern California manages the mission, which is led by Arizona State University. NASA’s Launch Services Program at Kennedy Space Center manages launch operations and procured the SpaceX Falcon Heavy rocket. Maxar Technologies delivered the solar electric propulsion chassis and most of its engineering hardware systems. Psyche Mission Launches From Kennedy Space Center (Highlights) The mission, which is the first to explore a metal-rich asteroid, aims to help scientists learn more about the formation of rocky bodies – including Earth – in our solar system. The Psyche spacecraft is equipped with four scientific investigations: the magnetometer, gamma-ray and neutron spectrometer, multispectral imager, and gravity science experiment. In addition, a technology demonstration called Deep Space Optical Communications (DSOC) will fly on Psyche in order to test high-data-rate laser communications. Psyche is scheduled to arrive at the asteroid in 2029 and orbit for about 26 months. NASA’s Jet Propulsion Laboratory in Southern California manages the mission, which is led by Arizona State University. NASA’s Launch Services Program at Kennedy Space Center manages launch operations and procured the SpaceX Falcon Heavy rocket. Maxar Technologies delivered the solar electric propulsion chassis and most of its engineering hardware systems. Psyche Mission Launches From Kennedy Space Center (Highlights) The mission, which is the first to explore a metal-rich asteroid, aims to help scientists learn more about the formation of rocky bodies – including Earth – in our solar system. The Psyche spacecraft is equipped with four scientific investigations: the magnetometer, gamma-ray and neutron spectrometer, multispectral imager, and gravity science experiment. In addition, a technology demonstration called Deep Space Optical Communications (DSOC) will fly on Psyche in order to test high-data-rate laser communications. Psyche is scheduled to arrive at the asteroid in 2029 and orbit for about 26 months. NASA’s Jet Propulsion Laboratory in Southern California manages the mission, which is led by Arizona State University. NASA’s Launch Services Program at Kennedy Space Center manages launch operations and procured the SpaceX Falcon Heavy rocket. Maxar Technologies delivered the solar electric propulsion chassis and most of its engineering hardware systems. Psyche Mission Launches From Kennedy Space Center (Highlights) The mission, which is the first to explore a metal-rich asteroid, aims to help scientists learn more about the formation of rocky bodies – including Earth – in our solar system. The Psyche spacecraft is equipped with four scientific investigations: the magnetometer, gamma-ray and neutron spectrometer, multispectral imager, and gravity science experiment. In addition, a technology demonstration called Deep Space Optical Communications (DSOC) will fly on Psyche in order to test high-data-rate laser communications. Psyche is scheduled to arrive at the asteroid in 2029 and orbit for about 26 months. NASA’s Jet Propulsion Laboratory in Southern California manages the mission, which is led by Arizona State University. NASA’s Launch Services Program at Kennedy Space Center manages launch operations and procured the SpaceX Falcon Heavy rocket. Maxar Technologies delivered the solar electric propulsion chassis and most of its engineering hardware systems. Psyche Mission Launches From Kennedy Space Center (Highlights) The mission, which is the first to explore a metal-rich asteroid, aims to help scientists learn more about the formation of rocky bodies – including Earth – in our solar system. The Psyche spacecraft is equipped with four scientific investigations: the magnetometer, gamma-ray and neutron spectrometer, multispectral imager, and gravity science experiment. In addition, a technology demonstration called Deep Space Optical Communications (DSOC) will fly on Psyche in order to test high-data-rate laser communications. Psyche is scheduled to arrive at the asteroid in 2029 and orbit for about 26 months. NASA’s Jet Propulsion Laboratory in Southern California manages the mission, which is led by Arizona State University. NASA’s Launch Services Program at Kennedy Space Center manages launch operations and procured the SpaceX Falcon Heavy rocket. Maxar Technologies delivered the solar electric propulsion chassis and most of its engineering hardware systems. Psyche Mission Launches From Kennedy Space Center (Highlights) The mission, which is the first to explore a metal-rich asteroid, aims to help scientists learn more about the formation of rocky bodies – including Earth – in our solar system. The Psyche spacecraft is equipped with four scientific investigations: the magnetometer, gamma-ray and neutron spectrometer, multispectral imager, and gravity science experiment. In addition, a technology demonstration called Deep Space Optical Communications (DSOC) will fly on Psyche in order to test high-data-rate laser communications. Psyche is scheduled to arrive at the asteroid in 2029 and orbit for about 26 months. NASA’s Jet Propulsion Laboratory in Southern California manages the mission, which is led by Arizona State University. NASA’s Launch Services Program at Kennedy Space Center manages launch operations and procured the SpaceX Falcon Heavy rocket. Maxar Technologies delivered the solar electric propulsion chassis and most of its engineering hardware systems.

#nasa #nasaspacemission #nasaeuropaclipper #europaclipper #spacetechnology #space #spaceexploration #spacecraft #spaceship #spaceshutter #spacelab #stars #planet #mars #jupiter #stakleytingo #wolfchamp How Your Name Will Fly Aboard NASA’s Europa Clipper Go behind the scenes in the Microdevices Laboratory at NASA’s Jet Propulsion Laboratory in Southern California to see how your name could be sent to Jupiter’s moon Europa as part of NASA’s “Message in a Bottle” campaign. Names will be stenciled in tiny letters on special microchips that will ride aboard the Europa Clipper spacecraft as it journeys 1.8 billion miles (2.6 billion kilometers) to the icy moon. See how technicians will use an electron beam to stencil names onto microchips, where each line of text is smaller than 1/1000th the width of a human hair. The microchips will be attached to a metal plate engraved with the original poem “In Praise of Mystery,” written by U.S. Poet Laureate Ada Limón to celebrate the mission. That plate will then be attached to the exterior of the Europa Clipper spacecraft. NASA’s Europa Clipper mission aims to determine whether Europa has conditions that could support life. Once spacecraft assembly has been completed at JPL, the orbiter will be shipped to NASA’s Kennedy Space Center in Florida in preparation for launch in October 2024. You can add your name to the “Message in a Bottle” campaign through Dec. 31, 2023. To sign, go to: https://go.nasa.gov/MessageInABottle Find more information about Europa here: https://europa.nasa.gov/ JPL is a division of Caltech in Pasadena. Credit: NASA/JPL-Caltech How Your Name Will Fly Aboard NASA’s Europa Clipper Go behind the scenes in the Microdevices Laboratory at NASA’s Jet Propulsion Laboratory in Southern California to see how your name could be sent to Jupiter’s moon Europa as part of NASA’s “Message in a Bottle” campaign. Names will be stenciled in tiny letters on special microchips that will ride aboard the Europa Clipper spacecraft as it journeys 1.8 billion miles (2.6 billion kilometers) to the icy moon. See how technicians will use an electron beam to stencil names onto microchips, where each line of text is smaller than 1/1000th the width of a human hair. The microchips will be attached to a metal plate engraved with the original poem “In Praise of Mystery,” written by U.S. Poet Laureate Ada Limón to celebrate the mission. That plate will then be attached to the exterior of the Europa Clipper spacecraft. NASA’s Europa Clipper mission aims to determine whether Europa has conditions that could support life. Once spacecraft assembly has been completed at JPL, the orbiter will be shipped to NASA’s Kennedy Space Center in Florida in preparation for launch in October 2024. You can add your name to the “Message in a Bottle” campaign through Dec. 31, 2023. To sign, go to: https://go.nasa.gov/MessageInABottle Find more information about Europa here: https://europa.nasa.gov/ JPL is a division of Caltech in Pasadena. Credit: NASA/JPL-Caltech How Your Name Will Fly Aboard NASA’s Europa Clipper Go behind the scenes in the Microdevices Laboratory at NASA’s Jet Propulsion Laboratory in Southern California to see how your name could be sent to Jupiter’s moon Europa as part of NASA’s “Message in a Bottle” campaign. Names will be stenciled in tiny letters on special microchips that will ride aboard the Europa Clipper spacecraft as it journeys 1.8 billion miles (2.6 billion kilometers) to the icy moon. See how technicians will use an electron beam to stencil names onto microchips, where each line of text is smaller than 1/1000th the width of a human hair. The microchips will be attached to a metal plate engraved with the original poem “In Praise of Mystery,” written by U.S. Poet Laureate Ada Limón to celebrate the mission. That plate will then be attached to the exterior of the Europa Clipper spacecraft. NASA’s Europa Clipper mission aims to determine whether Europa has conditions that could support life. Once spacecraft assembly has been completed at JPL, the orbiter will be shipped to NASA’s Kennedy Space Center in Florida in preparation for launch in October 2024. You can add your name to the “Message in a Bottle” campaign through Dec. 31, 2023. To sign, go to: https://go.nasa.gov/MessageInABottle Find more information about Europa here: https://europa.nasa.gov/ JPL is a division of Caltech in Pasadena. Credit: NASA/JPL-Caltech How Your Name Will Fly Aboard NASA’s Europa Clipper Go behind the scenes in the Microdevices Laboratory at NASA’s Jet Propulsion Laboratory in Southern California to see how your name could be sent to Jupiter’s moon Europa as part of NASA’s “Message in a Bottle” campaign. Names will be stenciled in tiny letters on special microchips that will ride aboard the Europa Clipper spacecraft as it journeys 1.8 billion miles (2.6 billion kilometers) to the icy moon. See how technicians will use an electron beam to stencil names onto microchips, where each line of text is smaller than 1/1000th the width of a human hair. The microchips will be attached to a metal plate engraved with the original poem “In Praise of Mystery,” written by U.S. Poet Laureate Ada Limón to celebrate the mission. That plate will then be attached to the exterior of the Europa Clipper spacecraft. NASA’s Europa Clipper mission aims to determine whether Europa has conditions that could support life. Once spacecraft assembly has been completed at JPL, the orbiter will be shipped to NASA’s Kennedy Space Center in Florida in preparation for launch in October 2024. You can add your name to the “Message in a Bottle” campaign through Dec. 31, 2023. To sign, go to: https://go.nasa.gov/MessageInABottle Find more information about Europa here: https://europa.nasa.gov/ JPL is a division of Caltech in Pasadena. Credit: NASA/JPL-Caltech How Your Name Will Fly Aboard NASA’s Europa Clipper Go behind the scenes in the Microdevices Laboratory at NASA’s Jet Propulsion Laboratory in Southern California to see how your name could be sent to Jupiter’s moon Europa as part of NASA’s “Message in a Bottle” campaign. Names will be stenciled in tiny letters on special microchips that will ride aboard the Europa Clipper spacecraft as it journeys 1.8 billion miles (2.6 billion kilometers) to the icy moon. See how technicians will use an electron beam to stencil names onto microchips, where each line of text is smaller than 1/1000th the width of a human hair. The microchips will be attached to a metal plate engraved with the original poem “In Praise of Mystery,” written by U.S. Poet Laureate Ada Limón to celebrate the mission. That plate will then be attached to the exterior of the Europa Clipper spacecraft. NASA’s Europa Clipper mission aims to determine whether Europa has conditions that could support life. Once spacecraft assembly has been completed at JPL, the orbiter will be shipped to NASA’s Kennedy Space Center in Florida in preparation for launch in October 2024. You can add your name to the “Message in a Bottle” campaign through Dec. 31, 2023. To sign, go to: https://go.nasa.gov/MessageInABottle Find more information about Europa here: https://europa.nasa.gov/ JPL is a division of Caltech in Pasadena. Credit: NASA/JPL-Caltech How Your Name Will Fly Aboard NASA’s Europa Clipper Go behind the scenes in the Microdevices Laboratory at NASA’s Jet Propulsion Laboratory in Southern California to see how your name could be sent to Jupiter’s moon Europa as part of NASA’s “Message in a Bottle” campaign. Names will be stenciled in tiny letters on special microchips that will ride aboard the Europa Clipper spacecraft as it journeys 1.8 billion miles (2.6 billion kilometers) to the icy moon. See how technicians will use an electron beam to stencil names onto microchips, where each line of text is smaller than 1/1000th the width of a human hair. The microchips will be attached to a metal plate engraved with the original poem “In Praise of Mystery,” written by U.S. Poet Laureate Ada Limón to celebrate the mission. That plate will then be attached to the exterior of the Europa Clipper spacecraft. NASA’s Europa Clipper mission aims to determine whether Europa has conditions that could support life. Once spacecraft assembly has been completed at JPL, the orbiter will be shipped to NASA’s Kennedy Space Center in Florida in preparation for launch in October 2024. You can add your name to the “Message in a Bottle” campaign through Dec. 31, 2023. To sign, go to: https://go.nasa.gov/MessageInABottle Find more information about Europa here: https://europa.nasa.gov/ JPL is a division of Caltech in Pasadena. Credit: NASA/JPL-Caltech

#spacecraft #spacecraftmakers #sewingblankets #nasa #europaclipper #jet #jetpropulsion #thermalblankets #jupiter #planet #moon #spacemission #nasamission #stakleytingo #wolfchamp Spacecraft Makers: Sewing Blankets for NASA’s Europa Clipper See how a team at NASA’s Jet Propulsion Laboratory sews and installs thermal blankets to protect the agency’s Europa Clipper spacecraft from the cold and harsh environment it will face around Jupiter as it investigates the planet’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, Mark Duran and Morgan Betsill provide a behind-the-scenes look at JPL’s “Shield Shop,” where layers of the thermal blankets come together before they are installed on the spacecraft. Then, these custom blankets are carefully fitted onto the spacecraft in a clean room at JPL. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. When the spacecraft is in JPL’s clean room, viewers also can watch a 24-hour live feed of the spacecraft here. For more information on the mission go to: https://europa.nasa.gov/. For more information on this video series, which focuses on how space missions come together, visit https://bit.ly/49MWe54. Credit: NASA/JPL-Caltech Spacecraft Makers: Sewing Blankets for NASA’s Europa Clipper See how a team at NASA’s Jet Propulsion Laboratory sews and installs thermal blankets to protect the agency’s Europa Clipper spacecraft from the cold and harsh environment it will face around Jupiter as it investigates the planet’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, Mark Duran and Morgan Betsill provide a behind-the-scenes look at JPL’s “Shield Shop,” where layers of the thermal blankets come together before they are installed on the spacecraft. Then, these custom blankets are carefully fitted onto the spacecraft in a clean room at JPL. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. When the spacecraft is in JPL’s clean room, viewers also can watch a 24-hour live feed of the spacecraft here. For more information on the mission go to: https://europa.nasa.gov/. For more information on this video series, which focuses on how space missions come together, visit https://bit.ly/49MWe54. Credit: NASA/JPL-Caltech Spacecraft Makers: Sewing Blankets for NASA’s Europa Clipper See how a team at NASA’s Jet Propulsion Laboratory sews and installs thermal blankets to protect the agency’s Europa Clipper spacecraft from the cold and harsh environment it will face around Jupiter as it investigates the planet’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, Mark Duran and Morgan Betsill provide a behind-the-scenes look at JPL’s “Shield Shop,” where layers of the thermal blankets come together before they are installed on the spacecraft. Then, these custom blankets are carefully fitted onto the spacecraft in a clean room at JPL. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. When the spacecraft is in JPL’s clean room, viewers also can watch a 24-hour live feed of the spacecraft here. For more information on the mission go to: https://europa.nasa.gov/. For more information on this video series, which focuses on how space missions come together, visit https://bit.ly/49MWe54. Credit: NASA/JPL-Caltech Spacecraft Makers: Sewing Blankets for NASA’s Europa Clipper See how a team at NASA’s Jet Propulsion Laboratory sews and installs thermal blankets to protect the agency’s Europa Clipper spacecraft from the cold and harsh environment it will face around Jupiter as it investigates the planet’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, Mark Duran and Morgan Betsill provide a behind-the-scenes look at JPL’s “Shield Shop,” where layers of the thermal blankets come together before they are installed on the spacecraft. Then, these custom blankets are carefully fitted onto the spacecraft in a clean room at JPL. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. When the spacecraft is in JPL’s clean room, viewers also can watch a 24-hour live feed of the spacecraft here. For more information on the mission go to: https://europa.nasa.gov/. For more information on this video series, which focuses on how space missions come together, visit https://bit.ly/49MWe54. Credit: NASA/JPL-Caltech Spacecraft Makers: Sewing Blankets for NASA’s Europa Clipper See how a team at NASA’s Jet Propulsion Laboratory sews and installs thermal blankets to protect the agency’s Europa Clipper spacecraft from the cold and harsh environment it will face around Jupiter as it investigates the planet’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, Mark Duran and Morgan Betsill provide a behind-the-scenes look at JPL’s “Shield Shop,” where layers of the thermal blankets come together before they are installed on the spacecraft. Then, these custom blankets are carefully fitted onto the spacecraft in a clean room at JPL. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. When the spacecraft is in JPL’s clean room, viewers also can watch a 24-hour live feed of the spacecraft here. For more information on the mission go to: https://europa.nasa.gov/. For more information on this video series, which focuses on how space missions come together, visit https://bit.ly/49MWe54. Credit: NASA/JPL-Caltech Spacecraft Makers: Sewing Blankets for NASA’s Europa Clipper See how a team at NASA’s Jet Propulsion Laboratory sews and installs thermal blankets to protect the agency’s Europa Clipper spacecraft from the cold and harsh environment it will face around Jupiter as it investigates the planet’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, Mark Duran and Morgan Betsill provide a behind-the-scenes look at JPL’s “Shield Shop,” where layers of the thermal blankets come together before they are installed on the spacecraft. Then, these custom blankets are carefully fitted onto the spacecraft in a clean room at JPL. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. When the spacecraft is in JPL’s clean room, viewers also can watch a 24-hour live feed of the spacecraft here. For more information on the mission go to: https://europa.nasa.gov/. For more information on this video series, which focuses on how space missions come together, visit https://bit.ly/49MWe54. Credit: NASA/JPL-Caltech Spacecraft Makers: Sewing Blankets for NASA’s Europa Clipper See how a team at NASA’s Jet Propulsion Laboratory sews and installs thermal blankets to protect the agency’s Europa Clipper spacecraft from the cold and harsh environment it will face around Jupiter as it investigates the planet’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, Mark Duran and Morgan Betsill provide a behind-the-scenes look at JPL’s “Shield Shop,” where layers of the thermal blankets come together before they are installed on the spacecraft. Then, these custom blankets are carefully fitted onto the spacecraft in a clean room at JPL. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. When the spacecraft is in JPL’s clean room, viewers also can watch a 24-hour live feed of the spacecraft here. For more information on the mission go to: https://europa.nasa.gov/. For more information on this video series, which focuses on how space missions come together, visit https://bit.ly/49MWe54. Credit: NASA/JPL-Caltech Spacecraft Makers: Sewing Blankets for NASA’s Europa Clipper See how a team at NASA’s Jet Propulsion Laboratory sews and installs thermal blankets to protect the agency’s Europa Clipper spacecraft from the cold and harsh environment it will face around Jupiter as it investigates the planet’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, Mark Duran and Morgan Betsill provide a behind-the-scenes look at JPL’s “Shield Shop,” where layers of the thermal blankets come together before they are installed on the spacecraft. Then, these custom blankets are carefully fitted onto the spacecraft in a clean room at JPL. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. When the spacecraft is in JPL’s clean room, viewers also can watch a 24-hour live feed of the spacecraft here. For more information on the mission go to: https://europa.nasa.gov/. For more information on this video series, which focuses on how space missions come together, visit https://bit.ly/49MWe54. Credit: NASA/JPL-Caltech

#olympicfigure #skaters #gravity #nasa #europa #icymoon #jupiter #jupitermoon #space #jetpropulsion #planets #sky #rocket #stakleytingo #wolfchamp #astronomer #nasaspacemission Olympic Figure Skaters Explore the Icy Moon Europa with NASA Explore icy moons, like Jupiter’s moon Europa, with Olympic figure skaters Kaitlin Hawayek and Jean-Luc Baker! Trina Ray, an astronomer at NASA’s Jet Propulsion Laboratory and a member of the Europa Clipper mission team, answers their questions about why Europa’s surface is one big ice sheet, and what it might be like to skate there. For more information about the mission and how it will explore this intriguing moon go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Olympic Figure Skaters Explore the Icy Moon Europa with NASA Explore icy moons, like Jupiter’s moon Europa, with Olympic figure skaters Kaitlin Hawayek and Jean-Luc Baker! Trina Ray, an astronomer at NASA’s Jet Propulsion Laboratory and a member of the Europa Clipper mission team, answers their questions about why Europa’s surface is one big ice sheet, and what it might be like to skate there. For more information about the mission and how it will explore this intriguing moon go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Olympic Figure Skaters Explore the Icy Moon Europa with NASA Explore icy moons, like Jupiter’s moon Europa, with Olympic figure skaters Kaitlin Hawayek and Jean-Luc Baker! Trina Ray, an astronomer at NASA’s Jet Propulsion Laboratory and a member of the Europa Clipper mission team, answers their questions about why Europa’s surface is one big ice sheet, and what it might be like to skate there. For more information about the mission and how it will explore this intriguing moon go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Olympic Figure Skaters Explore the Icy Moon Europa with NASA Explore icy moons, like Jupiter’s moon Europa, with Olympic figure skaters Kaitlin Hawayek and Jean-Luc Baker! Trina Ray, an astronomer at NASA’s Jet Propulsion Laboratory and a member of the Europa Clipper mission team, answers their questions about why Europa’s surface is one big ice sheet, and what it might be like to skate there. For more information about the mission and how it will explore this intriguing moon go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Olympic Figure Skaters Explore the Icy Moon Europa with NASA Explore icy moons, like Jupiter’s moon Europa, with Olympic figure skaters Kaitlin Hawayek and Jean-Luc Baker! Trina Ray, an astronomer at NASA’s Jet Propulsion Laboratory and a member of the Europa Clipper mission team, answers their questions about why Europa’s surface is one big ice sheet, and what it might be like to skate there. For more information about the mission and how it will explore this intriguing moon go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Olympic Figure Skaters Explore the Icy Moon Europa with NASA Explore icy moons, like Jupiter’s moon Europa, with Olympic figure skaters Kaitlin Hawayek and Jean-Luc Baker! Trina Ray, an astronomer at NASA’s Jet Propulsion Laboratory and a member of the Europa Clipper mission team, answers their questions about why Europa’s surface is one big ice sheet, and what it might be like to skate there. For more information about the mission and how it will explore this intriguing moon go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech Olympic Figure Skaters Explore the Icy Moon Europa with NASA Explore icy moons, like Jupiter’s moon Europa, with Olympic figure skaters Kaitlin Hawayek and Jean-Luc Baker! Trina Ray, an astronomer at NASA’s Jet Propulsion Laboratory and a member of the Europa Clipper mission team, answers their questions about why Europa’s surface is one big ice sheet, and what it might be like to skate there. For more information about the mission and how it will explore this intriguing moon go to: https://europa.nasa.gov/. Credit: NASA/JPL-Caltech

#spacecraft #europaclippers #integration #spaceship #nasa #galaxies #spacerocket #rocket #aircraft #solarsystem #planets #wolfchamp Spacecraft Makers: Europa Clipper's Instrument Integration Hardware for NASA’s Europa Clipper spacecraft was developed at various institutions and facilities across the U.S. and Europe, including NASA's Jet Propulsion Laboratory. That work included the science instruments and other spacecraft components, such as the propulsion module, radio frequency module, solar arrays, electronics vault, and more. During the assembly, test, and launch operations phase of the mission, engineers put together the spacecraft, test its various components, and prepare it for its launch and journey to Jupiter’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, spacecraft assembly, test, and launch operations mechanical engineer Steve Barajas and science systems engineer Jenny Kampmeier provide a behind-the-scenes look at the nearly completed spacecraft in the High Bay 1 clean room at JPL. The propulsion module for the spacecraft was built by the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, with help from NASA’s Goddard Space Flight Center in Greenbelt, Maryland, and JPL. The science instruments were developed by APL, the School of Earth and Space Exploration at Arizona State University, Southwest Research Institute in San Antonio, JPL, UCLA, University of Michigan, University of Texas at Austin, and the Laboratory for Atmospheric and Space Physics at the University of Colorado Boulder. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. Spacecraft Makers: Europa Clipper's Instrument Integration Hardware for NASA’s Europa Clipper spacecraft was developed at various institutions and facilities across the U.S. and Europe, including NASA's Jet Propulsion Laboratory. That work included the science instruments and other spacecraft components, such as the propulsion module, radio frequency module, solar arrays, electronics vault, and more. During the assembly, test, and launch operations phase of the mission, engineers put together the spacecraft, test its various components, and prepare it for its launch and journey to Jupiter’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, spacecraft assembly, test, and launch operations mechanical engineer Steve Barajas and science systems engineer Jenny Kampmeier provide a behind-the-scenes look at the nearly completed spacecraft in the High Bay 1 clean room at JPL. The propulsion module for the spacecraft was built by the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, with help from NASA’s Goddard Space Flight Center in Greenbelt, Maryland, and JPL. The science instruments were developed by APL, the School of Earth and Space Exploration at Arizona State University, Southwest Research Institute in San Antonio, JPL, UCLA, University of Michigan, University of Texas at Austin, and the Laboratory for Atmospheric and Space Physics at the University of Colorado Boulder. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida. Spacecraft Makers: Europa Clipper's Instrument Integration Hardware for NASA’s Europa Clipper spacecraft was developed at various institutions and facilities across the U.S. and Europe, including NASA's Jet Propulsion Laboratory. That work included the science instruments and other spacecraft components, such as the propulsion module, radio frequency module, solar arrays, electronics vault, and more. During the assembly, test, and launch operations phase of the mission, engineers put together the spacecraft, test its various components, and prepare it for its launch and journey to Jupiter’s ice-encrusted moon Europa. In this episode of the Spacecraft Makers video series, spacecraft assembly, test, and launch operations mechanical engineer Steve Barajas and science systems engineer Jenny Kampmeier provide a behind-the-scenes look at the nearly completed spacecraft in the High Bay 1 clean room at JPL. The propulsion module for the spacecraft was built by the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, with help from NASA’s Goddard Space Flight Center in Greenbelt, Maryland, and JPL. The science instruments were developed by APL, the School of Earth and Space Exploration at Arizona State University, Southwest Research Institute in San Antonio, JPL, UCLA, University of Michigan, University of Texas at Austin, and the Laboratory for Atmospheric and Space Physics at the University of Colorado Boulder. Spacecraft Makers is a video series that takes audiences behind the scenes to learn more about how space missions, like Europa Clipper, come together. Europa Clipper will explore this icy moon of Jupiter to see if there are conditions suitable for life. The spacecraft needs to be hardy enough to survive a 1.6 billion-mile, six-year journey to Jupiter – and sophisticated enough to perform a detailed science investigation of Europa once it arrives at the Jupiter system in 2030. Europa Clipper is expected to launch in October 2024 from Kennedy Space Center in Florida.

#nasa #jupiter #moon #rocketlaunch #elonmusk #spaceship #spaceshutter #aircraft #rumble #stakleytingo #wolfchamp #viral NASA’s Design for Message Heading to Jupiter’s Moon Europa There's a legacy of NASA spacecraft carrying inspirational messages from Earth, going back to the Pioneer Plaque and the Voyager Golden Record. Now, Europa Clipper – a new mission from one ocean world to another – will continue this tradition. Because water connects our planet Earth and Jupiter's moon Europa, all life as we know it, and all human cultures a part of the spacecraft has been engraved with designs inspired by water and human connections. This metal plate is part of a structure that will protect the spacecraft's electronics from the threat of Jupiter’s radiation. On one side of the plate is a design we call “Water Words.” These rippling lines represent recordings of the word for "water" in a diverse collection of human languages. The other side of the plate is a montage of elements that complete our message in a bottle. At the top is the Drake Equation – a tribute to the visionary idea that the probability of finding life in the cosmos is something we can estimate. Next, these two lines represent radio frequencies emitted in space by molecules related to water, which have been considered an ideal place to search for interstellar communications, as suggested by some researchers. They represent our ability to use the language of science to search for signs of life. Next is a portrait of one of the founders of planetary science, Dr. Ron Greeley, whose early efforts to develop a Europa mission laid the foundation for Europa Clipper. At the heart of this message in a bottle is a poem in the handwriting of U.S. poet laureate Ada Limón. The poem connects the two water worlds — Earth, yearning to reach out and understand what makes a world habitable, and Europa, waiting with secrets yet to be explored. Finally, the bottle orbited by the four largest moons of Jupiter to which will be attached a microchip etched with more than 2.6 million names of those who signed on in the spirit of the poem as our message is sent on its voyage to Europa. As technically advanced as the spacecraft is, every part of it is made by people. And all of the markings on the plate are either handwritten, hand drawn, or represent human voices and names. Because exploration is something we do together, something that connects us all as we head out into the cosmic sea. NASA’s Design for Message Heading to Jupiter’s Moon Europa There's a legacy of NASA spacecraft carrying inspirational messages from Earth, going back to the Pioneer Plaque and the Voyager Golden Record. Now, Europa Clipper – a new mission from one ocean world to another – will continue this tradition. Because water connects our planet Earth and Jupiter's moon Europa, all life as we know it, and all human cultures a part of the spacecraft has been engraved with designs inspired by water and human connections. This metal plate is part of a structure that will protect the spacecraft's electronics from the threat of Jupiter’s radiation. On one side of the plate is a design we call “Water Words.” These rippling lines represent recordings of the word for "water" in a diverse collection of human languages. The other side of the plate is a montage of elements that complete our message in a bottle. At the top is the Drake Equation – a tribute to the visionary idea that the probability of finding life in the cosmos is something we can estimate. Next, these two lines represent radio frequencies emitted in space by molecules related to water, which have been considered an ideal place to search for interstellar communications, as suggested by some researchers. They represent our ability to use the language of science to search for signs of life. Next is a portrait of one of the founders of planetary science, Dr. Ron Greeley, whose early efforts to develop a Europa mission laid the foundation for Europa Clipper. At the heart of this message in a bottle is a poem in the handwriting of U.S. poet laureate Ada Limón. The poem connects the two water worlds — Earth, yearning to reach out and understand what makes a world habitable, and Europa, waiting with secrets yet to be explored. Finally, the bottle orbited by the four largest moons of Jupiter to which will be attached a microchip etched with more than 2.6 million names of those who signed on in the spirit of the poem as our message is sent on its voyage to Europa. As technically advanced as the spacecraft is, every part of it is made by people. And all of the markings on the plate are either handwritten, hand drawn, or represent human voices and names. Because exploration is something we do together, something that connects us all as we head out into the cosmic sea. NASA’s Design for Message Heading to Jupiter’s Moon Europa There's a legacy of NASA spacecraft carrying inspirational messages from Earth, going back to the Pioneer Plaque and the Voyager Golden Record. Now, Europa Clipper – a new mission from one ocean world to another – will continue this tradition. Because water connects our planet Earth and Jupiter's moon Europa, all life as we know it, and all human cultures a part of the spacecraft has been engraved with designs inspired by water and human connections. This metal plate is part of a structure that will protect the spacecraft's electronics from the threat of Jupiter’s radiation. On one side of the plate is a design we call “Water Words.” These rippling lines represent recordings of the word for "water" in a diverse collection of human languages. The other side of the plate is a montage of elements that complete our message in a bottle. At the top is the Drake Equation – a tribute to the visionary idea that the probability of finding life in the cosmos is something we can estimate. Next, these two lines represent radio frequencies emitted in space by molecules related to water, which have been considered an ideal place to search for interstellar communications, as suggested by some researchers. They represent our ability to use the language of science to search for signs of life. Next is a portrait of one of the founders of planetary science, Dr. Ron Greeley, whose early efforts to develop a Europa mission laid the foundation for Europa Clipper. At the heart of this message in a bottle is a poem in the handwriting of U.S. poet laureate Ada Limón. The poem connects the two water worlds — Earth, yearning to reach out and understand what makes a world habitable, and Europa, waiting with secrets yet to be explored. Finally, the bottle orbited by the four largest moons of Jupiter to which will be attached a microchip etched with more than 2.6 million names of those who signed on in the spirit of the poem as our message is sent on its voyage to Europa. As technically advanced as the spacecraft is, every part of it is made by people. And all of the markings on the plate are either handwritten, hand drawn, or represent human voices and names. Because exploration is something we do together, something that connects us all as we head out into the cosmic sea.

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