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Illustration of the planet Kepler 1625b and its proposed exomoon. Kepler 1625 is a Sun-like star some 4,000 light-years distant in Cygnus. It is about 80 percent of the radius of the Sun but about 8 percent more massive. The star has at least one known planet. Called Kepler 1625b, it is a large gas giant, up to 12 times the diameter of Jupiter and orbiting within the star's habitable zone. In 2018, astronomers reported that the planet might be orbited by a satellite - an exomoon - although this remains to be confirmed. The suspected moon is Neptunian in size, orbiting its planet at a distance of 20 times the planet's radius.Illustration of the planet Kepler 1625b and its proposed exomoon. Kepler 1625 is a Sun-like star some 4,000 light-years distant in Cygnus. It is about 80 percent of the radius of the Sun but about 8 percent more massive. The star has at least one known planet. Called Kepler 1625b, it is a large gas giant, up to 12 times the diameter of Jupiter and orbiting within the star's habitable zone. In 2018, astronomers reported that the planet might be orbited by a satellite - an exomoon - although this remains to be confirmed. The suspected moon is Neptunian in size, orbiting its planet at a distance of 20 times the planet's radius.
Illustration of the planet Kepler 1625b and its proposed exomoon, transiting their star. Kepler 1625 is a Sun-like star some 4,000 light-years distant in Cygnus. It is about 80 percent of the radius of the Sun but about 8 percent more massive. The star has at least one known planet. Called Kepler 1625b, it is a large gas giant, up to 12 times the diameter of Jupiter and orbiting within the star's habitable zone. In 2018, astronomers reported that the planet might be orbited by a satellite - an exomoon - although this remains to be confirmed. The suspected moon is Neptunian in size, orbiting its planet at a distance of 20 times the planet's radius.Illustration of the planet Kepler 1625b and its proposed exomoon, transiting their star. Kepler 1625 is a Sun-like star some 4,000 light-years distant in Cygnus. It is about 80 percent of the radius of the Sun but about 8 percent more massive. The star has at least one known planet. Called Kepler 1625b, it is a large gas giant, up to 12 times the diameter of Jupiter and orbiting within the star's habitable zone. In 2018, astronomers reported that the planet might be orbited by a satellite - an exomoon - although this remains to be confirmed. The suspected moon is Neptunian in size, orbiting its planet at a distance of 20 times the planet's radius.
Illustration of the planet Kepler 1625b and its proposed exomoon. Kepler 1625 is a Sun-like star some 4,000 light-years distant in Cygnus. It is about 80 percent of the radius of the Sun but about 8 percent more massive. The star has at least one known planet. Called Kepler 1625b, it is a large gas giant, up to 12 times the diameter of Jupiter and orbiting within the star's habitable zone. In 2018, astronomers reported that the planet might be orbited by a satellite - an exomoon - although this remains to be confirmed. The suspected moon is Neptunian in size, orbiting its planet at a distance of 20 times the planet's radius.Illustration of the planet Kepler 1625b and its proposed exomoon. Kepler 1625 is a Sun-like star some 4,000 light-years distant in Cygnus. It is about 80 percent of the radius of the Sun but about 8 percent more massive. The star has at least one known planet. Called Kepler 1625b, it is a large gas giant, up to 12 times the diameter of Jupiter and orbiting within the star's habitable zone. In 2018, astronomers reported that the planet might be orbited by a satellite - an exomoon - although this remains to be confirmed. The suspected moon is Neptunian in size, orbiting its planet at a distance of 20 times the planet's radius.
Low angle of professional mature female master in casual clothes and goggles polishing wooden plank using random orbital sander in joineryLow angle of professional mature female master in casual clothes and goggles polishing wooden plank using random orbital sander in joinery
Side view of concentrated boy in casual clothes and goggles smoothing wooden panel with random orbital sander while helping crop anonymous craftsman at workshopSide view of concentrated boy in casual clothes and goggles smoothing wooden panel with random orbital sander while helping crop anonymous craftsman at workshop
Cropped unrecognizable professional mature female master in casual clothes and goggles polishing wooden plank using random orbital sander in joineryCropped unrecognizable professional mature female master in casual clothes and goggles polishing wooden plank using random orbital sander in joinery
Low angle of professional mature female master in casual clothes and goggles polishing wooden plank using random orbital sander in joineryLow angle of professional mature female master in casual clothes and goggles polishing wooden plank using random orbital sander in joinery
Artwork of the orbits of the solar systemArtwork of the orbits of the solar system
Illustration of a red dwarf star seen from the surface of an orbiting world. Red dwarfs are the most common stars in the universe. Like the Sun they are main-sequence stars, burning hydrogen, but substantially cooler, dimmer; redder and smaller. Proxima Centauri and Barnard's Star are well-known examples.Illustration of a red dwarf star seen from the surface of an orbiting world. Red dwarfs are the most common stars in the universe. Like the Sun they are main-sequence stars, burning hydrogen, but substantially cooler, dimmer; redder and smaller. Proxima Centauri and Barnard's Star are well-known examples.
Illustration of a red dwarf star seen from the surface of an orbiting world. Red dwarfs are the most common stars in the universe. Like the Sun they are main-sequence stars, burning hydrogen, but substantially cooler, dimmer; redder and smaller. Proxima Centauri and Barnard's Star are well-known examples. This planet is depicted as having a magnetic field, which creates aurorae in its skies as on Earth.Illustration of a red dwarf star seen from the surface of an orbiting world. Red dwarfs are the most common stars in the universe. Like the Sun they are main-sequence stars, burning hydrogen, but substantially cooler, dimmer; redder and smaller. Proxima Centauri and Barnard's Star are well-known examples. This planet is depicted as having a magnetic field, which creates aurorae in its skies as on Earth.
Illustration of the triple star system HD 131399, as seen from a planet. The system consists of a close binary pair of low-mass, red stars, separated by about 10 astronomical units (AU), which is in turn in orbit around a more massive, white main-sequence star at a distance of several hundred AU. Astronomers thought they detected a planet around the more massive star, HD 131399 A. However, the so-called planet, dubbed HD 131399 Ab or Scorpion-1b, is now thought to be a background star. This image imagines the supposed planet viewed from a nearby moon.Illustration of the triple star system HD 131399, as seen from a planet. The system consists of a close binary pair of low-mass, red stars, separated by about 10 astronomical units (AU), which is in turn in orbit around a more massive, white main-sequence star at a distance of several hundred AU. Astronomers thought they detected a planet around the more massive star, HD 131399 A. However, the so-called planet, dubbed HD 131399 Ab or Scorpion-1b, is now thought to be a background star. This image imagines the supposed planet viewed from a nearby moon.
Illustration of the blue giant star HD 37974, in the Large Magellanic Cloud. Astronomers suspect that it is surrounded by a dusty disc, stretching for 60 times the distance of Pluto's orbit from the Sun (about 3,000 astronomical units, or AU). The disc could be a remnant from planet formation, or the beginning of the planet-creation process.Illustration of the blue giant star HD 37974, in the Large Magellanic Cloud. Astronomers suspect that it is surrounded by a dusty disc, stretching for 60 times the distance of Pluto's orbit from the Sun (about 3,000 astronomical units, or AU). The disc could be a remnant from planet formation, or the beginning of the planet-creation process.
Pulsar seen from orbiting planet, illustrationPulsar seen from orbiting planet, illustration
Quantised orbits of the planetsQuantised orbits of the planets
Quantised orbits of the planetsQuantised orbits of the planets
Space station Computer artwork of a space station orbiting the EarthSpace station Computer artwork of a space station orbiting the Earth
Satellite orbiting Earth, computer artworkSatellite orbiting Earth, computer artwork
SDSS 1557 is a binary star system, 1000 light-years away, consisting of a white dwarf orbiting a brown dwarf, Astronomers have found that the system is surrounded by a narrow disc or ring rich in rocky and metallic elements, which they suggest are in the process of coming together (accreting) to form new planets It's the first time evidence of rocky planet formation has been seen in a binary star systemSDSS 1557 is a binary star system, 1000 light-years away, consisting of a white dwarf orbiting a brown dwarf, Astronomers have found that the system is surrounded by a narrow disc or ring rich in rocky and metallic elements, which they suggest are in the process of coming together (accreting) to form new planets It's the first time evidence of rocky planet formation has been seen in a binary star system
Illustration of an alien technological planet. The planet is in orbit around a red dwarf star, the most common type. The red dwarf is relatively sedate, making the environment of its habitable zone conducive to life. The planet is shown with its night side brilliantly lit by major cities and technology.Illustration of an alien technological planet. The planet is in orbit around a red dwarf star, the most common type. The red dwarf is relatively sedate, making the environment of its habitable zone conducive to life. The planet is shown with its night side brilliantly lit by major cities and technology.
Illustration of a free-floating planet. These planets are odd in that, unlike most extra solar objects, they do not seem to be in orbit around a star - they are free-floating planets drifting between the stars and galaxies. Free floating planets such as these may result from being ejected from a protoplanetary disc due to gravitational perturbations from other massive objects. This planet has cloud bands like those of the gas giant Jupiter.Illustration of a free-floating planet. These planets are odd in that, unlike most extra solar objects, they do not seem to be in orbit around a star - they are free-floating planets drifting between the stars and galaxies. Free floating planets such as these may result from being ejected from a protoplanetary disc due to gravitational perturbations from other massive objects. This planet has cloud bands like those of the gas giant Jupiter.
Illustration of a free-floating planet. These planets are odd in that, unlike most extra solar objects, they do not seem to be in orbit around a star - they are free-floating planets drifting between the stars and galaxies. Free floating planets such as these may result from being ejected from a protoplanetary disc due to gravitational perturbations from other massive objects. This planet has cloud bands like those of the gas giant Jupiter.Illustration of a free-floating planet. These planets are odd in that, unlike most extra solar objects, they do not seem to be in orbit around a star - they are free-floating planets drifting between the stars and galaxies. Free floating planets such as these may result from being ejected from a protoplanetary disc due to gravitational perturbations from other massive objects. This planet has cloud bands like those of the gas giant Jupiter.
Illustration of the star Nemesis (right), once hypothesised to orbit the Sun (left) on a very elongated path, as seen from the Earth and MoonIllustration of the star Nemesis (right), once hypothesised to orbit the Sun (left) on a very elongated path, as seen from the Earth and Moon
Ceres is a dwarf planet, the only one that orbits in the asteroid beltCeres is a dwarf planet, the only one that orbits in the asteroid belt
Ceres is a dwarf planet, the only one that orbits in the asteroid beltCeres is a dwarf planet, the only one that orbits in the asteroid belt
Ceres is a dwarf planet, the only one that orbits in the asteroid beltCeres is a dwarf planet, the only one that orbits in the asteroid belt
Illustration of a cataclysmic binary, in which a red dwarf (right) is in orbit around a white dwarfIllustration of a cataclysmic binary, in which a red dwarf (right) is in orbit around a white dwarf
Low angle view of ArcelorMittal Orbit seen through glass, London, EnglandLow angle view of ArcelorMittal Orbit seen through glass, London, England
Man sanding wood with a random orbital sanderMan sanding wood with a random orbital sander
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Random orbital sander on palletRandom orbital sander on pallet
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Man sanding wood with a random orbital sanderMan sanding wood with a random orbital sander
Random orbital sanders and assortment of discsRandom orbital sanders and assortment of discs
Random orbital sander on palletRandom orbital sander on pallet
Man sanding wood with a random orbital sanderMan sanding wood with a random orbital sander
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Random orbital sanders and multiple socketRandom orbital sanders and multiple socket
Random orbital sanders and multiple socketRandom orbital sanders and multiple socket
Man sanding wood with a random orbital sanderMan sanding wood with a random orbital sander
Man sanding wood with a random orbital sanderMan sanding wood with a random orbital sander
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Man sanding pallet with a random orbital sanderMan sanding pallet with a random orbital sander
Illustration of a satellite in front of Mars.Illustration of a satellite in front of Mars.
Illustration of a satellite in front of Mars.Illustration of a satellite in front of Mars.

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