How ‘The Goblin’ may unravel the mystery of Planet Nine | Michelle Thaller | Big Think
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How ‘The Goblin’ may unravel
How ‘The Goblin’ may unravel the mystery of Planet Nine
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'The Goblin' is a dwarf planet known more formally as '2015 TG387'. It was nicknamed The Goblin because of the 'TG' in its title, and because of the time of year it was discovered: Halloween.
The Goblin has an extreme orbit: far-flung and elongated. It takes 40,000 years to make a complete orbit around the Sun.
This cosmic anomaly is a clue. Astronomers hypothesize that The Goblin is being pulled into the gravitational field of a 'Super-Earth' planet in our solar system that is believed to exist but has never been seen: the mysterious Planet Nine or Planet X.
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MICHELLE THALLER:
Dr. Michelle Thaller is an astronomer who studies binary stars and the life cycles of stars. She is Assistant Director of Science Communication at NASA. She went to college at Harvard University, completed a post-doctoral research fellowship at the California Institute of Technology (Caltech) in Pasadena, Calif. then started working for the Jet Propulsion Laboratory's (JPL) Spitzer Space Telescope. After a hugely successful mission, she moved on to NASA's Goddard Space Flight Center (GSFC), in the Washington D.C. area. In her off-hours often puts on about 30lbs of Elizabethan garb and performs intricate Renaissance dances. For more information, visit
NASA.
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TRANSCRIPT:
MICHELLE THALLER: It may surprise you to know that we are still learning about our own solar system; even the question about how many planets are there is kind of a funny one—take Pluto.
Pluto was classified as a dwarf planet, and there are other dwarf planets as well. In fact, the largest of the asteroids, Ceres, is now classified as a dwarf planet. A lot of these dwarf planets actually exist farther beyond the orbit of Pluto, and we're just finding them now. And one of my favorite discoveries recently has been something called The Goblin. Now, The Goblin is a dwarf planet—it's actually much smaller than Pluto; it's only about a fifth of the diameter of Pluto, and it is really, really far out there. It's in a highly elongated orbit; the closest it ever gets is about twice as far away as Pluto is, and the farthest it gets is about 2,300 times the distance from the Earth to the Sun; it goes way, way, way out there. This orbit takes it about 40,000 years to go once around the Sun. It's really, really incredible. It doesn't surprise me that these objects are only recently being discovered because most of them are so distant. They are so faint, and if they're at the very far part of their orbit they're moving very, very slowly—very, very hard to detect.
Now, The Goblin is really interesting in a number of ways. One of the things that I love about it is that it does actually seem to hint that there may be something larger out there—we've been noticing this for the last couple of years. These distant icy bodies are called Kuiper Belt objects, and often they're on elongated orbits that come close to the Sun—and by close I mean about the orbit of Pluto and then much, much farther away into the very outer reaches of the solar system. We now know of dozens of these objects, and there are probably many more out there we haven't discovered. The interesting thing is we began to observe how their orbits were aligned in our solar system, and there's something called perihelion, which is the closest pass an object makes to the Sun. And amazingly, all of these objects all over this sky seem to have perihelions—closest approaches to the Sun—that were beautifully lined up together. There is no reason for that to be the case. If they were independent orbiting bodies there's no way their closest approach to the Sun should match. So the idea is there's a larger body out there somewhere, a larger planet, and as it orbits it lines up, kind of shepherds all these smaller objects into its orbit. The evidence for this really is pretty compelling. We don't know of any other way to explain the lined up orbits of these Kuiper Belt objects. So then the question is: Where is this bigger planet?
Our estimates put it at least three to five times the mass of the Earth, maybe even a little bit more massive than that. It could be something on the order of the size of Neptune. This is a big planet we're talking about, and honestly, it's a little embarrassing that we've missed an entire big planet in our solar system. We are now so good at detecting planets we can see them around other stars, so how is it we've missed this p...
For the full transcript, check out https://bigthink.com/videos/how-the-g...
New videos DAILY: https://bigth.ink
Join Big Think Edge for exclusive video lessons from top thinkers and doers: https://bigth.ink/Edge
----------------------------------------------------------------------------------
'The Goblin' is a dwarf planet known more formally as '2015 TG387'. It was nicknamed The Goblin because of the 'TG' in its title, and because of the time of year it was discovered: Halloween.
The Goblin has an extreme orbit: far-flung and elongated. It takes 40,000 years to make a complete orbit around the Sun.
This cosmic anomaly is a clue. Astronomers hypothesize that The Goblin is being pulled into the gravitational field of a 'Super-Earth' planet in our solar system that is believed to exist but has never been seen: the mysterious Planet Nine or Planet X.
----------------------------------------------------------------------------------
MICHELLE THALLER:
Dr. Michelle Thaller is an astronomer who studies binary stars and the life cycles of stars. She is Assistant Director of Science Communication at NASA. She went to college at Harvard University, completed a post-doctoral research fellowship at the California Institute of Technology (Caltech) in Pasadena, Calif. then started working for the Jet Propulsion Laboratory's (JPL) Spitzer Space Telescope. After a hugely successful mission, she moved on to NASA's Goddard Space Flight Center (GSFC), in the Washington D.C. area. In her off-hours often puts on about 30lbs of Elizabethan garb and performs intricate Renaissance dances. For more information, visit
NASA.
----------------------------------------------------------------------------------
TRANSCRIPT:
MICHELLE THALLER: It may surprise you to know that we are still learning about our own solar system; even the question about how many planets are there is kind of a funny one—take Pluto.
Pluto was classified as a dwarf planet, and there are other dwarf planets as well. In fact, the largest of the asteroids, Ceres, is now classified as a dwarf planet. A lot of these dwarf planets actually exist farther beyond the orbit of Pluto, and we're just finding them now. And one of my favorite discoveries recently has been something called The Goblin. Now, The Goblin is a dwarf planet—it's actually much smaller than Pluto; it's only about a fifth of the diameter of Pluto, and it is really, really far out there. It's in a highly elongated orbit; the closest it ever gets is about twice as far away as Pluto is, and the farthest it gets is about 2,300 times the distance from the Earth to the Sun; it goes way, way, way out there. This orbit takes it about 40,000 years to go once around the Sun. It's really, really incredible. It doesn't surprise me that these objects are only recently being discovered because most of them are so distant. They are so faint, and if they're at the very far part of their orbit they're moving very, very slowly—very, very hard to detect.
Now, The Goblin is really interesting in a number of ways. One of the things that I love about it is that it does actually seem to hint that there may be something larger out there—we've been noticing this for the last couple of years. These distant icy bodies are called Kuiper Belt objects, and often they're on elongated orbits that come close to the Sun—and by close I mean about the orbit of Pluto and then much, much farther away into the very outer reaches of the solar system. We now know of dozens of these objects, and there are probably many more out there we haven't discovered. The interesting thing is we began to observe how their orbits were aligned in our solar system, and there's something called perihelion, which is the closest pass an object makes to the Sun. And amazingly, all of these objects all over this sky seem to have perihelions—closest approaches to the Sun—that were beautifully lined up together. There is no reason for that to be the case. If they were independent orbiting bodies there's no way their closest approach to the Sun should match. So the idea is there's a larger body out there somewhere, a larger planet, and as it orbits it lines up, kind of shepherds all these smaller objects into its orbit. The evidence for this really is pretty compelling. We don't know of any other way to explain the lined up orbits of these Kuiper Belt objects. So then the question is: Where is this bigger planet?
Our estimates put it at least three to five times the mass of the Earth, maybe even a little bit more massive than that. It could be something on the order of the size of Neptune. This is a big planet we're talking about, and honestly, it's a little embarrassing that we've missed an entire big planet in our solar system. We are now so good at detecting planets we can see them around other stars, so how is it we've missed this p...
For the full transcript, check out https://bigthink.com/videos/how-the-g...
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