RMH60CNH–NASA International Space Station Expedition 44 mission astronaut Scott Kelly assists Japanese astronaut Kimiya Yui of the Japan Aerospace Exploration Agency in taking retinal images for an ongoing Ocular Health study August 5, 2015 while in Earth orbit.
RMH9X9AT–Astronauts aboard the NASA International Space Station captured a series of star trail images over the Earth surface October 3, 2016 while in Earth orbit.
RMDCXD2D–A composite of 1400 images from more than 40 countries and 30 US states of themselves as part of the Wave at Saturn event organized by NASA's Cassini mission August 22, 2013. That event held on July 19, 2013, marked the day the Cassini spacecraft turned back toward Earth to take our picture as part of a larger mosaic of the Saturn system.
RMK06C77–Banner, United States Of America. 21st Aug, 2017. A composite image of nine pictures showing the progression of a total solar eclipse August 21, 2017 in Banner, Wyoming. The total eclipse swept across a narrow portion of the contiguous United States from Oregon to South Carolina and a partial solar eclipse was visible across the entire North American continent along with parts of South America, Africa, and Europe. Credit: Planetpix/Alamy Live News
RMK06C75–Madras, United States Of America. 21st Aug, 2017. A composite image of eleven pictures showing the progression of a total solar eclipse August 21, 2017 in Madras, Oregon. The total eclipse swept across a narrow portion of the contiguous United States from Oregon to South Carolina and a partial solar eclipse was visible across the entire North American continent along with parts of South America, Africa, and Europe. Credit: Planetpix/Alamy Live News
RMHDDW22–Two CubeSats Dove mini satellite spacecrafts fly free after leaving the NASA International Space Station NanoRocks CueSat Deployer to take images of Earth from space May 17, 2016 in Earth orbit.
RMHF9BG4–NASA Expedition 50 prime crew member American astronaut Peggy Whitson collects Fundoscope images of the back of his eye during a routine vision check aboard the International Space Station December 15, 2016 in Earth orbit.
RMHF9BGN–NASA Expedition 50-51 prime crew member French astronaut Thomas Pesquet of the European Space Agency collects Fundoscope images of the back of his eye during a routine vision check aboard the International Space Station December 15, 2016 in Earth orbit.
RM2EGH66G–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch monitors as the first images arrive moments after the spacecraft successfully touched down on the surface of the Red Planet at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. Credit: Planetpix/Alamy Live News
RM2EGHPHR–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch monitors as the first images arrive moments after the spacecraft successfully touched down on the surface of the Red Planet at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. Credit: Planetpix/Alamy Live News
RMKKW8B7–Daytime view of New York City and Manhattan assembled from 30 images shot from the International Space Station as seen from Earth Orbit.
RMEXRBR5–Members of the New Horizons team gather around a laptop and smile as they review new processed images from the New Horizons spacecraft at the Johns Hopkins University Applied Physics Laboratory July 15, 2015 in Laurel, Maryland.
RMF3A4XY–Pluto. 2nd October, 2015. A composite of enhanced color images showing Pluto on the bottom right and Charon, the biggest moon around the dwarf as seen from the New Horizons spacecraft released October 2, 2015 from the July flyby of the probe.
RMFWWB68–Jupiter's icy moon Europa looms large in this newly-reprocessed color view made from images taken by NASA's Galileo spacecraft November 21, 2014. The images show a realistic color view of the surface that approximates how Europa would appear to the human eye.
RFCPCB1J–Composite series of images photographed from a mounted camera on the Earth-orbiting International Space Station showing star trails as they orbit 240-miles above Earth. A total of 18 images photographed by the astronaut-monitored stationary camera were combined to create this composite.
RFCPCB1Y–Composite series of images photographed from a mounted camera on the Earth-orbiting International Space Station showing star trails as they orbit 240-miles above Earth. A total of 18 images photographed by the astronaut-monitored stationary camera were combined to create this composite.
RMDYJ75R–Light streaks from planet earth and star trails seen by Expedition 31 Flight Engineer Don Pettit on the International Space Station May 17, 2012 in Earth Orbit. Pettit created the images using long exposures and then stacking several images into one.
RMFG879D–NASA astronaut Scott Kelly and ESA astronaut Timothy Peake (right) review images during a procedure to replace a fan pump separator inside one of the spacesuits in the Quest Airlock aboard the International Space Station February 10, 2016 in Earth Orbit.
RMFCBM69–Russian cosmonaut Oleg Kononenko poses with a variety of photography equipment aboard the International Space Station October 6, 2015 in Earth Orbit. International crew members have taken more than 2.5 million images throughout the over 15 years humans have been living aboard the orbiting laboratory.
RMFK36R5–NASA astronaut John Grunsfeld peers into the crew cabin of the Space Shuttle Columbia from outer space during the first STS-109 extravehicular activity March 4, 2002 in Earth Orbit. Grunsfeld's helmet visor, with the sunshield now in place, displays mirrored images of the Earth and the Space Shuttle Columbia's aft cabin.
RM2KJ5BXT–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5B91–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5B90–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5B9D–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5B8X–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5BY4–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5BYB–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5BXH–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5B92–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5BYA–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5BXP–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5B96–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5BYK–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5BYC–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5BXY–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2KJ5B9N–Lunar Orbit, Earth Orbit. 21 November, 2022. Black and white images of the lunar surfaced showing craters captured by Orion optical navigation camera during the nearest approach to the Moon on flight day six of the NASA Artemis I mission, November 21, 2022, in Lunar Orbit. Credit: NASA/NASA/Alamy Live News
RM2JRW3P3–Images of Jupiter, the largest planet in our solar system shown in this enhanced color composite image captured by the James Webb Space Telescope and released from Goddard Space Flight Center, August 22, 2022 in Greenbelt, Maryland. The images show the giant storms, auroras and faint rings of the massive planet in more detail than ever seen.
RM2JRW3P0–Images of Jupiter, the largest planet in our solar system shown in this enhanced color composite image captured by the James Webb Space Telescope and released from Goddard Space Flight Center, August 22, 2022 in Greenbelt, Maryland. The images show the giant storms, auroras and faint rings of the massive planet in more detail than ever seen.
RM2JRW3NC–Images of Jupiter, the largest planet in our solar system shown in this enhanced color composite image with notations, captured by the James Webb Space Telescope and released from Goddard Space Flight Center, August 22, 2022 in Greenbelt, Maryland. The images show the giant storms, auroras and faint rings of the massive planet in more detail than ever seen.
RM2EH53MN–Pasadena, United States Of America. 18th Feb, 2021. Perseverance mission manager Keith Comeaux monitors the landing phase of the NASA Perseverance Mars rover in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53KH–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH536T–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH536C–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH536A–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53MT–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH544C–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53MR–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53K3–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH5440–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53ME–Pasadena, United States Of America. 18th Feb, 2021. Perseverance flight director Magdy Bareh and other members monitor the landing phase of the NASA Perseverance Mars rover in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53N7–Pasadena, United States Of America. 18th Feb, 2021. Perseverance mission manager Keith Comeaux takes a selfie during the landing phase of the NASA Perseverance Mars rover in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH536R–Pasadena, United States Of America. 18th Feb, 2021. Members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RMRX165P–A T-38 fighter aircraft flying at supersonic speeds as they break the sound barrier in the first ever images captured showing this aerodynamic effect March 3, 2019 over Edwards Air Force Base, California. When aircraft fly faster than the speed of sound, shockwaves travel away from the airplane, and are heard on the ground as a sonic boom. NASA are studying shockwaves to make sonic booms quieter, allowing supersonic flight over land.
RM2EH53M2–Pasadena, United States Of America. 18th Feb, 2021. NASA Perseverance Mars rover mission commentator and guidance, navigation, and controls operations Lead Swati Mohan, monitors the landing phase of the NASA Perseverance Mars rover in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53M4–Pasadena, United States Of America. 18th Feb, 2021. Bob Lineaweaver, right, and other members of the NASA Perseverance Mars rover mission team watch data on monitors during the landing phase in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53K6–Pasadena, United States Of America. 18th Feb, 2021. JPL Director Michael Watkins, right, talks with Acting NASA Administrator Steve Jurczyk, as they monitor the landing phase of the NASA Perseverance Mars rover in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RM2EH53K7–Pasadena, United States Of America. 18th Feb, 2021. JPL Director Michael Watkins, left, talks with Director of the NASA Science Mission Directorate Planetary Science Division, Lori Glaze, as they monitor the landing phase of the NASA Perseverance Mars rover in mission control at the NASA Jet Propulsion Laboratory February 18, 2021 in Pasadena, California. The Perseverance Mars rover landed successfully and immediately began sending images from the surface of the Red Planet. Credit: Planetpix/Alamy Live News
RMRX165T–A colorized composite images of a pair of T-38 fighter aircraft flying in formation at supersonic speeds as they break the sound barrier in the first ever images captured showing this aerodynamic effect March 3, 2019 over Edwards Air Force Base, California. When aircraft fly faster than the speed of sound, shockwaves travel away from the airplane, and are heard on the ground as a sonic boom. NASA are studying shockwaves to make sonic booms quieter, allowing supersonic flight over land.
RMRX163N–A colorized composite images of a pair of T-38 fighter aircraft flying in formation at supersonic speeds as they break the sound barrier in the first ever images captured showing this aerodynamic effect March 3, 2019 over Edwards Air Force Base, California. When aircraft fly faster than the speed of sound, shockwaves travel away from the airplane, and are heard on the ground as a sonic boom. NASA are studying shockwaves to make sonic booms quieter, allowing supersonic flight over land.
RMDX5137–A view from space of the Earth at night assembled from multiple images acquired by the Suomi National Polar-orbiting Partnership satellite over nine days in April 2012 and thirteen days in October 2012. It took 312 orbits and 2.5 terabytes of data to get a clear shot of every parcel of Earth's land surface and islands. The nighttime view of Earth in visible light was made possible by the Òday-night bandÓ of the Visible Infrared Imaging Radiometer Suite.
RMR8JA5G–A composite view of Puerto Rico from space during the period of September 20 - November 20, 2017 showing the only electrical lights following the destruction of the power grid in the aftermath of Hurricane Maria which lashed the island causing the longest electric power blackout in U.S. history and at least $90 billion in damages. The image was created using nightly satellite images from the Visible Infrared Imaging Radiometer onboard the Suomi NPP satellite. The capital and largest city San Juan can be seen in the top right corner and the second city of Ponce in the bottom left.
RMR8JA5E–A composite view of Puerto Rico from space during the period of March 1018 showing the electrical lights following the repair and restoration of the majority of the islands power grid in the aftermath of Hurricane Maria which lashed the island causing the longest electric power blackout in U.S. history and at least $90 billion in damages. The image was created using nightly satellite images from the Visible Infrared Imaging Radiometer onboard the Suomi NPP satellite. The capital and largest city San Juan can be seen in the top right corner and the second city of Ponce in the bottom left.
RMHDEDPT–NASA International Space Station astronauts captured illuminated star trail from space using long exposure photography October 3, 2016 while in Earth orbit.
RM2H5M6JN–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship docks. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6K3–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JD–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship docks. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JB–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship docked. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JM–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches to dock. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JW–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship docks. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JY–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JF–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6J6–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches to dock. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JR–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6K0–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit with the Artemis spaceship docked. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6J7–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JP–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JC–Lunar Orbit, United States of America. 10 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2H5M6JG–Lunar Orbit, United States of America. 09 November, 2021. Illustration of the SpaceX Gateway space station in lunar orbit as the Artemis spaceship approaches to dock. The Gateway will serve as a transfer station between the Orion spacecraft and the lunar lander on Artemis missions to the moon. NASA Administrator Bill Nelson announced November 9, 2021 that the Artemis missions will proceed with crewed flight tests expected by 2024. Credit: NASA/NASA/Alamy Live News
RM2JHME1F–A satellite image showing in shades of red, the surface air temperatures across most of the Eastern Hemisphere taken by the Goddard Earth Observing System, July 13, 2022 In Earth Orbit. In June and July 2022, heatwaves struck Europe, North Africa, the Middle East, and Asia, as temperatures climbed above 40 degrees Celsius (104 degrees Fahrenheit) breaking many long-standing records.
RM2JHMFMJ–A satellite image showing smoke from wildfires blanketing the vast spaces of Alaska picked up by the NASA-NOAA Suomi NPP satellite, July 1, 2022, in Earth Orbit. Intense fires burning in June and July were located in the southern and interior regions of the state, but southeasterly winds pushed smoke into the far north as well.
RM2JHMFME–A satellite image showing smoke from wildfires burning in Yakutia Oblast in the Russian far east picked up by the NASA-NOAA Suomi NPP satellite, July 4, 2022, in Earth Orbit.
RM2JHMFMN–A satellite image showing smoke from wildfires burning near Great Bear Lake in the Northwest Territories of Canada, detected by the NASA Landsat 8 Satellite, July 6, 2022, in Earth Orbit. According to the Canadian government, 136 fires were burning in the Yukon and 65 in the Northwest Territories.
RM2JHMFMR–A satellite image showing smoke from wildfires burning across the Yukon and Northwest Territories of Canada, detected by the NASA Landsat 8 Satellite, July 6, 2022, in Earth Orbit. According to the Canadian government, 136 fires were burning in the Yukon and 65 in the Northwest Territories.
RM2JHMFMW–A satellite image showing smoke from wildfires burning in Siberia in the Russian far east picked up by the NASA-NOAA Suomi NPP satellite, July 4, 2022, in Earth Orbit.
RM2K4MTFC–Greenbelt, United States Of America. 03rd Oct, 2022. Greenbelt, United States of America. 03 October, 2022. Comparison view of the Sacramento Valley rice-growing region that has lost nearly 75 percent of production due to extreme drought conditions east of Willows, California. The image on the left shows green with normal production in September 4, 2021. The right image is mostly brown from drought and water shortages on September 16, 2022. Credit: Landsat 8/NASA/Alamy Live News
RM2K4MXPP–Caya Costa, United States of America. 28 September, 2022. Landsat 8 satellite view looking down at the eye of Hurricane Ian as it approached the southwest coast of Florida as a Category 4 monster storm September 28, 2022 near Caya Costa, Florida. Ian landed with sustained winds of 150 miles (240 kilometers) per hour, according to the National Hurricane Center. Credit: Landsat 8/NASA/Alamy Live News
RMJ1EK8C–NASA STS-59 Space Radar Laboratory (SRL-1) mission astronaut Sidney Gutierrez uses a 70mm Hasselblad camera to capture images from out of the Space Shuttle Endeavour flight deck windows April 14, 1994 in Earth orbit. (photo by NASA Photo /NASA via Planetpix)
RMG18WW0–Composite image showing the planet Mercury in silhouette, lower third of image, as it transits across the face of the sun May 9, 2016 created with visible-light images from the Helioseismic and Magnetic Imager on SDO. Mercury passes between Earth and the sun only about 13 times a century, with the previous transit taking place in 2006.
RMFWYKKH–The Sounds from Earth Voyager Golden Record brainchild of scientist Carl Sagan. The Voyager Golden Records are phonograph records that were included aboard both Voyager spacecraft launched in 1977. They contain sounds and images selected to portray the diversity of life and culture on Earth, and are intended for any intelligent extraterrestrial life form, or for future humans, who may find them.
RMFWYKKG–The Sounds from Earth Voyager Golden Record brainchild of scientist Carl Sagan. The Voyager Golden Records are phonograph records that were included aboard both Voyager spacecraft launched in 1977. They contain sounds and images selected to portray the diversity of life and culture on Earth, and are intended for any intelligent extraterrestrial life form, or for future humans, who may find them.
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