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This is a frame from a video which shows illustrations of the seven Earth-size planets of TRAPPIST-1, an exoplanet system about 40 light-years away, based on data current as of February 2018.
This is a frame from a video which shows illustrations of the seven Earth-size planets of TRAPPIST-1, an exoplanet system about 40 light-years away, based on data current as of February 2018.

TRAPPIST-1 Planet Animations

This is a frame from a video which shows illustrations of the seven Earth-size planets of TRAPPIST-1, an exoplanet system about 40 light-years away, based on data current as of February 2018.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22098
Added: 2018-02-05

Views: 366

TRAPPIST-1 Planet Animations

This is a frame from a video which shows illustrations of the seven Earth-size planets of TRAPPIST-1, an exoplanet system about 40 light-years away, based on data current as of February 2018.

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This illustration shows the seven Earth-size planets of TRAPPIST-1. The image does not show the planets' orbits to scale, but highlights possibilities for how the surfaces of these intriguing worlds might look.
This illustration shows the seven Earth-size planets of TRAPPIST-1. The image does not show the planets' orbits to scale, but highlights possibilities for how the surfaces of these intriguing worlds might look.

Illustration of TRAPPIST-1 Planets as of Feb. 2018

This illustration shows the seven Earth-size planets of TRAPPIST-1. The image does not show the planets' orbits to scale, but highlights possibilities for how the surfaces of these intriguing worlds might look.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22097
Added: 2018-02-05

Views: 734

Illustration of TRAPPIST-1 Planets as of Feb. 2018

This illustration shows the seven Earth-size planets of TRAPPIST-1. The image does not show the planets' orbits to scale, but highlights possibilities for how the surfaces of these intriguing worlds might look.

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All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system. In fact, they would have room to spare.
All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system. In fact, they would have room to spare.

TRAPPIST-1 Compared to Jovian Moons and Inner Solar System - Updated Feb. 2018

All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system. In fact, they would have room to spare.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22096
Added: 2018-02-05

Views: 609

TRAPPIST-1 Compared to Jovian Moons and Inner Solar System - Updated Feb. 2018

All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system. In fact, they would have room to spare.

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This graph presents known properties of the seven TRAPPIST-1 exoplanets (labeled b through h), showing how they stack up to the inner rocky worlds in our own solar system.
This graph presents known properties of the seven TRAPPIST-1 exoplanets (labeled b through h), showing how they stack up to the inner rocky worlds in our own solar system.

Comparing TRAPPIST-1 to the Solar System

This graph presents known properties of the seven TRAPPIST-1 exoplanets (labeled b through h), showing how they stack up to the inner rocky worlds in our own solar system.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22095
Added: 2018-02-05

Views: 441

Comparing TRAPPIST-1 to the Solar System

This graph presents known properties of the seven TRAPPIST-1 exoplanets (labeled b through h), showing how they stack up to the inner rocky worlds in our own solar system.

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This chart shows artist concepts of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii, masses, densities and surface gravity as compared to those of Earth. These numbers are current as of February 2018.
This chart shows artist concepts of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii, masses, densities and surface gravity as compared to those of Earth. These numbers are current as of February 2018.

TRAPPIST-1 Planet Lineup - Updated Feb. 2018

This chart shows artist concepts of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii, masses, densities and surface gravity as compared to those of Earth. These numbers are current as of February 2018.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22094
Added: 2018-02-05

Views: 1373

TRAPPIST-1 Planet Lineup - Updated Feb. 2018

This chart shows artist concepts of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii, masses, densities and surface gravity as compared to those of Earth. These numbers are current as of February 2018.

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This artist's concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets' diameters, masses and distances from the host star, as of February 2018.
This artist's concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets' diameters, masses and distances from the host star, as of February 2018.

TRAPPIST-1 Planet Lineup - Updated Feb. 2018

This artist's concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets' diameters, masses and distances from the host star, as of February 2018.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA22093
Added: 2018-02-05

Views: 623

TRAPPIST-1 Planet Lineup - Updated Feb. 2018

This artist's concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets' diameters, masses and distances from the host star, as of February 2018.

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This image of distant interacting galaxies, known collectively as Arp 142, bears an uncanny resemblance to a penguin guarding an egg. Data from NASA's Spitzer and Hubble space telescopes have been combined to show these dramatic galaxies.
This image of distant interacting galaxies, known collectively as Arp 142, bears an uncanny resemblance to a penguin guarding an egg. Data from NASA's Spitzer and Hubble space telescopes have been combined to show these dramatic galaxies.

Arp 142: The Penguin and the Egg

This image of distant interacting galaxies, known collectively as Arp 142, bears an uncanny resemblance to a penguin guarding an egg. Data from NASA's Spitzer and Hubble space telescopes have been combined to show these dramatic galaxies.

Mission: Hubble Space Telescope, Spitzer Space Telescope
ID#: PIA22092
Added: 2018-01-31

Views: 2246

Arp 142: The Penguin and the Egg

This image of distant interacting galaxies, known collectively as Arp 142, bears an uncanny resemblance to a penguin guarding an egg. Data from NASA's Spitzer and Hubble space telescopes have been combined to show these dramatic galaxies.

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This artist's concept showcases both the visible and infrared visualizations of the Orion Nebula, looking down a 'valley' leading to the star cluster at far end.
This artist's concept showcases both the visible and infrared visualizations of the Orion Nebula, looking down a 'valley' leading to the star cluster at far end.

Visible and Infrared Visualization of the Orion Nebula (Artist's Concept)

This artist's concept showcases both the visible and infrared visualizations of the Orion Nebula, looking down a 'valley' leading to the star cluster at far end.

Mission: Hubble Space Telescope, Spitzer Space Telescope
ID#: PIA22089
Added: 2018-01-11

Views: 3281

Visible and Infrared Visualization of the Orion Nebula (Artist's Concept)

This artist's concept showcases both the visible and infrared visualizations of the Orion Nebula, looking down a 'valley' leading to the star cluster at far end.

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The super-Earth exoplanet 55 Cancri e, depicted with its star in this artist's concept, likely has an atmosphere thicker than Earth's but with ingredients that could be similar to those of Earth's atmosphere.
The super-Earth exoplanet 55 Cancri e, depicted with its star in this artist's concept, likely has an atmosphere thicker than Earth's but with ingredients that could be similar to those of Earth's atmosphere.

55 Cancri e with Atmosphere (Artist's Concept)

The super-Earth exoplanet 55 Cancri e, depicted with its star in this artist's concept, likely has an atmosphere thicker than Earth's but with ingredients that could be similar to those of Earth's atmosphere.

Mission: Spitzer Space Telescope
ID#: PIA22069
Added: 2017-11-16

Views: 1218

55 Cancri e with Atmosphere (Artist's Concept)

The super-Earth exoplanet 55 Cancri e, depicted with its star in this artist's concept, likely has an atmosphere thicker than Earth's but with ingredients that could be similar to those of Earth's atmosphere.

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This artist's concept shows an exoplanet and debris disk orbiting a polluted white dwarf. White dwarfs are dim, dense remnants of stars similar to the Sun that have exhausted their nuclear fuel and blown off their outer layers.
This artist's concept shows an exoplanet and debris disk orbiting a polluted white dwarf. White dwarfs are dim, dense remnants of stars similar to the Sun that have exhausted their nuclear fuel and blown off their outer layers.

Polluted White Dwarf (Artist's Concept)

This artist's concept shows an exoplanet and debris disk orbiting a polluted white dwarf. White dwarfs are dim, dense remnants of stars similar to the Sun that have exhausted their nuclear fuel and blown off their outer layers.

Mission: Spitzer Space Telescope, Wide-field Infrared Survey Explorer (WISE)
ID#: PIA22084
Added: 2017-11-01

Views: 1269

Polluted White Dwarf (Artist's Concept)

This artist's concept shows an exoplanet and debris disk orbiting a polluted white dwarf. White dwarfs are dim, dense remnants of stars similar to the Sun that have exhausted their nuclear fuel and blown off their outer layers.

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NASA's Spitzer Space Telescope has provisionally detected the faint afterglow of the explosive merger of two neutron stars in the galaxy NGC 4993.
NASA's Spitzer Space Telescope has provisionally detected the faint afterglow of the explosive merger of two neutron stars in the galaxy NGC 4993.

Spitzer Observes Neutron Star Collision

NASA's Spitzer Space Telescope has provisionally detected the faint afterglow of the explosive merger of two neutron stars in the galaxy NGC 4993.

Target: NGC 4993
Mission: Spitzer Space Telescope
Instrument: Infrared Array Camera (IRAC)
ID#: PIA21910
Added: 2017-10-16

Views: 1832

Spitzer Observes Neutron Star Collision

NASA's Spitzer Space Telescope has provisionally detected the faint afterglow of the explosive merger of two neutron stars in the galaxy NGC 4993.

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This illustration depicts a hypothetical uneven ring of dust orbiting KIC 8462852, also known as Boyajian's Star or Tabby's Star.
This illustration depicts a hypothetical uneven ring of dust orbiting KIC 8462852, also known as Boyajian's Star or Tabby's Star.

Tabby's Star (Illustration)

This illustration depicts a hypothetical uneven ring of dust orbiting KIC 8462852, also known as Boyajian's Star or Tabby's Star.

Mission: Spitzer Space Telescope
ID#: PIA22081
Added: 2017-10-04

Views: 2797

Tabby's Star (Illustration)

This illustration depicts a hypothetical uneven ring of dust orbiting KIC 8462852, also known as Boyajian's Star or Tabby's Star.

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By using NASA's Spitzer Space Telescope, astronomers have found that the varying glow of brown dwarfs over time can be explained by bands of patchy clouds rotating at different speeds, as shown in this artist's concept.
By using NASA's Spitzer Space Telescope, astronomers have found that the varying glow of brown dwarfs over time can be explained by bands of patchy clouds rotating at different speeds, as shown in this artist's concept.

Brown Dwarf Weather (Artist's Concept)

By using NASA's Spitzer Space Telescope, astronomers have found that the varying glow of brown dwarfs over time can be explained by bands of patchy clouds rotating at different speeds, as shown in this artist's concept.

Mission: Spitzer Space Telescope
ID#: PIA21752
Added: 2017-08-17

Views: 2297

Brown Dwarf Weather (Artist's Concept)

By using NASA's Spitzer Space Telescope, astronomers have found that the varying glow of brown dwarfs over time can be explained by bands of patchy clouds rotating at different speeds, as shown in this artist's concept.

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This artist's concept shows what the TRAPPIST-1 planetary system may look like from a vantage point near planet TRAPPIST-1f (at right).
This artist's concept shows what the TRAPPIST-1 planetary system may look like from a vantage point near planet TRAPPIST-1f (at right).

TRAPPIST-1 System - Artist Concept

This artist's concept shows what the TRAPPIST-1 planetary system may look like from a vantage point near planet TRAPPIST-1f (at right).

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21751
Added: 2017-08-11

Views: 2426

TRAPPIST-1 System - Artist Concept

This artist's concept shows what the TRAPPIST-1 planetary system may look like from a vantage point near planet TRAPPIST-1f (at right).

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This illustration shows the final stages in the life of a supermassive star that fails to explode as a supernova, but instead implodes to form a black hole.
This illustration shows the final stages in the life of a supermassive star that fails to explode as a supernova, but instead implodes to form a black hole.

Massive Star Goes Out With a Whimper Instead of a Bang (Artist's Concept)

This illustration shows the final stages in the life of a supermassive star that fails to explode as a supernova, but instead implodes to form a black hole.

Mission: Hubble Space Telescope, Spitzer Space Telescope
ID#: PIA21466
Added: 2017-05-25

Views: 2493

Massive Star Goes Out With a Whimper Instead of a Bang (Artist's Concept)

This illustration shows the final stages in the life of a supermassive star that fails to explode as a supernova, but instead implodes to form a black hole.

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This image of the Crab Nebula combines data from five different telescopes. It is know as the expanding gaseous remnant from a star that self-detonated as a supernova, briefly shining as brightly as 400 million suns.
This image of the Crab Nebula combines data from five different telescopes. It is know as the expanding gaseous remnant from a star that self-detonated as a supernova, briefly shining as brightly as 400 million suns.

Crab Nebula from Five Observatories

This image of the Crab Nebula combines data from five different telescopes. It is know as the expanding gaseous remnant from a star that self-detonated as a supernova, briefly shining as brightly as 400 million suns.

Mission: Hubble Space Telescope, XMM-Newton, Chandra X-ray Observatory, Spitzer Space Telescope
Instrument: Very Large Array (VLA)
ID#: PIA21474
Added: 2017-05-10

Views: 5124

Crab Nebula from Five Observatories

This image of the Crab Nebula combines data from five different telescopes. It is know as the expanding gaseous remnant from a star that self-detonated as a supernova, briefly shining as brightly as 400 million suns.

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This artist's concept shows OGLE-2016-BLG-1195Lb, a planet discovered through a technique called microlensing used by NASA's Spitzer Space Telescope.
This artist's concept shows OGLE-2016-BLG-1195Lb, a planet discovered through a technique called microlensing used by NASA's Spitzer Space Telescope.

Iceball Planet Artist's Concept

This artist's concept shows OGLE-2016-BLG-1195Lb, a planet discovered through a technique called microlensing used by NASA's Spitzer Space Telescope.

Mission: Spitzer Space Telescope
ID#: PIA21430
Added: 2017-04-26

Views: 3142

Iceball Planet Artist's Concept

This artist's concept shows OGLE-2016-BLG-1195Lb, a planet discovered through a technique called microlensing used by NASA's Spitzer Space Telescope.

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This frame from a video depicts artist's concepts of each of the seven planets orbiting TRAPPIST-1, an ultra-cool dwarf star. Over 21 days.
This frame from a video depicts artist's concepts of each of the seven planets orbiting TRAPPIST-1, an ultra-cool dwarf star. Over 21 days.

TRAPPIST-1 Planets - Flyaround Animation

This frame from a video depicts artist's concepts of each of the seven planets orbiting TRAPPIST-1, an ultra-cool dwarf star. Over 21 days.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21468
Added: 2017-02-22

Views: 4782

TRAPPIST-1 Planets - Flyaround Animation

This frame from a video depicts artist's concepts of each of the seven planets orbiting TRAPPIST-1, an ultra-cool dwarf star. Over 21 days.

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This illustration shows the seven TRAPPIST-1 planets as they might look as viewed from Earth using a fictional, incredibly powerful telescope. The sizes and relative positions are correctly to scale.
This illustration shows the seven TRAPPIST-1 planets as they might look as viewed from Earth using a fictional, incredibly powerful telescope. The sizes and relative positions are correctly to scale.

Transit Illustration of TRAPPIST-1

This illustration shows the seven TRAPPIST-1 planets as they might look as viewed from Earth using a fictional, incredibly powerful telescope. The sizes and relative positions are correctly to scale.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21429
Added: 2017-02-22

Views: 5272

Transit Illustration of TRAPPIST-1

This illustration shows the seven TRAPPIST-1 planets as they might look as viewed from Earth using a fictional, incredibly powerful telescope. The sizes and relative positions are correctly to scale.

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All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system.
All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system.

TRAPPIST-1 Comparison to Solar System and Jovian Moons

All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21428
Added: 2017-02-22

Views: 279578

TRAPPIST-1 Comparison to Solar System and Jovian Moons

All seven planets discovered in orbit around the red dwarf star TRAPPIST-1 could easily fit inside the orbit of Mercury, the innermost planet of our solar system.

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This frame from a video details a system of seven planets orbiting TRAPPIST-1, an ultra-cool dwarf star.
This frame from a video details a system of seven planets orbiting TRAPPIST-1, an ultra-cool dwarf star.

TRAPPIST-1 Planetary Orbits and Transits

This frame from a video details a system of seven planets orbiting TRAPPIST-1, an ultra-cool dwarf star.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21427
Added: 2017-02-22

Views: 3205

TRAPPIST-1 Planetary Orbits and Transits

This frame from a video details a system of seven planets orbiting TRAPPIST-1, an ultra-cool dwarf star.

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The first observations of the TRAPPIST-1 system reported in 2016 revealed three planets orbiting a small, red-dwarf star, though the exact location of the outermost one, was not well-determined (yellow band, top image).
The first observations of the TRAPPIST-1 system reported in 2016 revealed three planets orbiting a small, red-dwarf star, though the exact location of the outermost one, was not well-determined (yellow band, top image).

The Discovery of TRAPPIST-1 Planets

The first observations of the TRAPPIST-1 system reported in 2016 revealed three planets orbiting a small, red-dwarf star, though the exact location of the outermost one, was not well-determined (yellow band, top image).

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21426
Added: 2017-02-22

Views: 1636

The Discovery of TRAPPIST-1 Planets

The first observations of the TRAPPIST-1 system reported in 2016 revealed three planets orbiting a small, red-dwarf star, though the exact location of the outermost one, was not well-determined (yellow band, top image).

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This chart shows, on the top row, artist conceptions of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii and masses as compared to those of Earth. The bottom row shows data about Mercury, Venus, Earth and Mars.
This chart shows, on the top row, artist conceptions of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii and masses as compared to those of Earth. The bottom row shows data about Mercury, Venus, Earth and Mars.

TRAPPIST-1 Statistics Table

This chart shows, on the top row, artist conceptions of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii and masses as compared to those of Earth. The bottom row shows data about Mercury, Venus, Earth and Mars.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21425
Added: 2017-02-22

Views: 5936

TRAPPIST-1 Statistics Table

This chart shows, on the top row, artist conceptions of the seven planets of TRAPPIST-1 with their orbital periods, distances from their star, radii and masses as compared to those of Earth. The bottom row shows data about Mercury, Venus, Earth and Mars.

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Three of the TRAPPIST-1 planets dwell in their star's so-called 'habitable zone,' shown in green. This is the band around the star where temperatures are just right, not too hot, not too cold, for liquid water to pool on the surface of an Earth-like world
Three of the TRAPPIST-1 planets dwell in their star's so-called 'habitable zone,' shown in green. This is the band around the star where temperatures are just right, not too hot, not too cold, for liquid water to pool on the surface of an Earth-like world

The TRAPPIST-1 Habitable Zone

Three of the TRAPPIST-1 planets dwell in their star's so-called 'habitable zone,' shown in green. This is the band around the star where temperatures are just right, not too hot, not too cold, for liquid water to pool on the surface of an Earth-like world

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21424
Added: 2017-02-22

Views: 4996

The TRAPPIST-1 Habitable Zone

Three of the TRAPPIST-1 planets dwell in their star's so-called 'habitable zone,' shown in green. This is the band around the star where temperatures are just right, not too hot, not too cold, for liquid water to pool on the surface of an Earth-like world

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Imagine standing on the surface of the exoplanet TRAPPIST-1f. This artist's concept is one interpretation of what it could look like.
Imagine standing on the surface of the exoplanet TRAPPIST-1f. This artist's concept is one interpretation of what it could look like.

Surface of TRAPPIST-1f

Imagine standing on the surface of the exoplanet TRAPPIST-1f. This artist's concept is one interpretation of what it could look like.

Mission: Spitzer Space Telescope
Instrument: TRAPPIST
ID#: PIA21423
Added: 2017-02-22

Views: 5149

Surface of TRAPPIST-1f

Imagine standing on the surface of the exoplanet TRAPPIST-1f. This artist's concept is one interpretation of what it could look like.

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