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These are the user uploaded subtitles that are being translated: 0 00:00:00,010 --> 00:00:07,777 SUB BY : DENI AUROR@ https://aurorarental.blogspot.com/ 1 00:00:04,838 --> 00:00:07,940 We thought we knew our solar system. 2 00:00:07,942 --> 00:00:11,543 Turns out we were wrong. 3 00:00:11,545 --> 00:00:13,812 Groundbreaking observations suggest 4 00:00:13,814 --> 00:00:16,348 an unseen ninth planet 5 00:00:16,350 --> 00:00:21,052 may be out there on the fringes of our solar system. 6 00:00:21,054 --> 00:00:23,155 And it could be huge, 7 00:00:23,157 --> 00:00:26,525 5,000 times more massive than pluto 8 00:00:26,527 --> 00:00:29,194 and 10 times the mass of the earth. 9 00:00:29,196 --> 00:00:31,563 We don't get a lot of revolutions in astronomy. 10 00:00:31,565 --> 00:00:35,467 And here we are on the cusp of a discovery like this. 11 00:00:35,469 --> 00:00:36,935 It's crazy to think that, 12 00:00:36,937 --> 00:00:38,804 as much as we've looked into the universe, 13 00:00:38,806 --> 00:00:42,875 that there's this ninth planet out there that we've never seen. 14 00:00:42,877 --> 00:00:45,877 If planet 9 really is out there, 15 00:00:45,879 --> 00:00:48,213 what will it be like? 16 00:00:48,215 --> 00:00:50,615 Is it a rocky super-earth, 17 00:00:50,617 --> 00:00:53,018 an icy mega-pluto, 18 00:00:53,020 --> 00:00:56,255 or a gassy mini-Neptune? 19 00:00:56,257 --> 00:00:59,191 Or is planet 9 an alien world 20 00:00:59,193 --> 00:01:02,060 stolen from another star? 21 00:01:02,062 --> 00:01:05,630 And could it provide an unlikely home for life 22 00:01:05,632 --> 00:01:09,468 100 billion miles from the sun? 23 00:01:12,540 --> 00:01:15,507 captions paid for by discovery communications 24 00:01:23,650 --> 00:01:25,750 take a look at the night sky. 25 00:01:25,752 --> 00:01:27,219 The pattern of stars 26 00:01:27,221 --> 00:01:30,556 that drifts overhead appears fixed. 27 00:01:30,558 --> 00:01:33,658 But look for longer, weeks or months, 28 00:01:33,660 --> 00:01:38,196 and you'll see a handful of the points move. 29 00:01:38,198 --> 00:01:41,266 These slow-moving points of light are the planets, 30 00:01:41,268 --> 00:01:43,468 the giant chunks of rock or gas 31 00:01:43,470 --> 00:01:46,505 that orbit our home star, the sun. 32 00:01:46,507 --> 00:01:49,174 We thought there were eight. 33 00:01:49,176 --> 00:01:50,509 We were wrong. 34 00:01:50,511 --> 00:01:52,711 You know, we think we understand something 35 00:01:52,713 --> 00:01:54,146 as simple as our solar system. 36 00:01:54,148 --> 00:01:56,215 We've found all the planets. 37 00:01:56,217 --> 00:02:00,919 And, right in front of us, we missed something big. 38 00:02:00,921 --> 00:02:05,357 A group of astronomers are studying the kuiper belt, 39 00:02:05,359 --> 00:02:07,759 a vast band of icy asteroids 40 00:02:07,761 --> 00:02:12,364 that sits way, way outside the orbit of Neptune. 41 00:02:12,366 --> 00:02:15,767 Most of these objects move in a neat, circular formation 42 00:02:15,769 --> 00:02:17,536 around the sun. 43 00:02:17,538 --> 00:02:20,739 But the astronomers are puzzled by a small group 44 00:02:20,741 --> 00:02:22,975 that appear to break the rules, 45 00:02:22,977 --> 00:02:25,811 swinging far outside the main belt 46 00:02:25,813 --> 00:02:29,448 on wild, extended orbits. 47 00:02:29,450 --> 00:02:32,918 Something sitting far outside the kuiper belt 48 00:02:32,920 --> 00:02:36,655 seems to be pulling these asteroids out of line, 49 00:02:36,657 --> 00:02:40,258 something the size of a giant planet. 50 00:02:42,328 --> 00:02:44,496 Caltech astronomer Mike brown hears 51 00:02:44,498 --> 00:02:46,731 about the wild observations 52 00:02:46,733 --> 00:02:51,069 and is determined to prove the planet theory wrong. 53 00:02:51,071 --> 00:02:52,304 When we saw these alignments of all 54 00:02:52,306 --> 00:02:54,138 these objects out there, we thought, 55 00:02:54,140 --> 00:02:55,674 "ugh, everybody's gonna say there's a planet. 56 00:02:55,676 --> 00:02:58,810 We have to very strongly prove there's not a planet." 57 00:02:58,812 --> 00:03:00,512 Because, of course, we all know 58 00:03:00,514 --> 00:03:05,050 there's not another planet out there. That's ridiculous. 59 00:03:05,052 --> 00:03:08,220 Mike asked his colleague, konstantin batygin, 60 00:03:08,222 --> 00:03:10,088 to run a computer simulation 61 00:03:10,090 --> 00:03:13,025 to see what effect a ninth planet 62 00:03:13,027 --> 00:03:15,427 should have on the kuiper belt. 63 00:03:15,429 --> 00:03:17,629 Stunningly, the simulation predicts 64 00:03:17,631 --> 00:03:20,432 elongated orbits identical 65 00:03:20,434 --> 00:03:22,701 to ones already observed. 66 00:03:22,703 --> 00:03:25,904 But the simulation also spits out a surprise. 67 00:03:25,906 --> 00:03:29,007 There should be a second set of rogue orbits 68 00:03:29,009 --> 00:03:31,676 that are perpendicular to the first set. 69 00:03:31,678 --> 00:03:33,878 If Mike can locate these weird 70 00:03:33,880 --> 00:03:37,316 predicted objects inside the kuiper belt, 71 00:03:37,318 --> 00:03:41,420 planet 9 is almost certainly real. 72 00:03:41,422 --> 00:03:44,789 I took these simulation results to Mike's office 73 00:03:44,791 --> 00:03:47,392 just a couple doors down from my office. 74 00:03:47,394 --> 00:03:49,661 And I said, "look!" You know, "we've got a huge problem!" 75 00:03:49,663 --> 00:03:50,996 He said, "no! 76 00:03:50,998 --> 00:03:54,499 There's an object called 2012 dr30 77 00:03:54,501 --> 00:03:58,670 which has an orbit just like the one you're predicting." 78 00:03:58,672 --> 00:04:01,806 Mike's asteroid fits the prediction perfectly. 79 00:04:01,808 --> 00:04:05,844 He searches the records for more and finds another four 80 00:04:05,846 --> 00:04:08,112 that seem to be in the right area. 81 00:04:08,114 --> 00:04:12,384 But just how closely will they fit the prediction? 82 00:04:12,386 --> 00:04:15,353 I remember sitting back and thinking, 83 00:04:15,355 --> 00:04:18,356 "okay, we're going to, right now, plot the data, 84 00:04:18,358 --> 00:04:22,560 the real observational data on top of the model." 85 00:04:22,562 --> 00:04:24,629 And Mike said, "if these two match up, 86 00:04:24,631 --> 00:04:26,965 my jaw is just gonna drop to the floor." 87 00:04:26,967 --> 00:04:31,103 The theory says they should be right here and right here. 88 00:04:31,105 --> 00:04:32,971 And I did the calculations very quickly 89 00:04:32,973 --> 00:04:36,207 to see where they were and brought them up. 90 00:04:36,209 --> 00:04:39,844 And there they are. One, two, three, four, five, 91 00:04:39,846 --> 00:04:41,380 right on these lines 92 00:04:41,382 --> 00:04:44,449 exactly where we predicted they should be. 93 00:04:44,451 --> 00:04:47,018 The moment we saw this, 94 00:04:47,020 --> 00:04:48,887 we went from cautious 95 00:04:48,889 --> 00:04:51,255 to "holy cow! This really is there! 96 00:04:51,257 --> 00:04:53,525 We have to make sure to tell everybody right away 97 00:04:53,527 --> 00:04:56,228 because it's actually real!" 98 00:04:56,230 --> 00:04:58,763 Mike and konstantin had unlocked 99 00:04:58,765 --> 00:05:01,366 the solar system's greatest secret. 100 00:05:01,368 --> 00:05:05,470 Planet 9 was almost certainly real. 101 00:05:05,472 --> 00:05:07,105 And it had to be huge, 102 00:05:07,107 --> 00:05:10,342 perhaps 10 times the mass of earth. 103 00:05:10,344 --> 00:05:12,744 We're not talking about something like our moon 104 00:05:12,746 --> 00:05:14,613 or pluto. We're talking about something 105 00:05:14,615 --> 00:05:17,782 that is literally planet-sized. 106 00:05:17,784 --> 00:05:20,385 And we're seeing its gravitational wake 107 00:05:20,387 --> 00:05:21,720 affecting these other objects. 108 00:05:21,722 --> 00:05:23,855 The idea that there could be a giant planet 109 00:05:23,857 --> 00:05:25,657 that we've never seen is something I think 110 00:05:25,659 --> 00:05:27,725 most of people wouldn't have bet on. 111 00:05:27,727 --> 00:05:30,995 But the evidence is remarkable! 112 00:05:30,997 --> 00:05:33,265 To prove planet 9 exists, 113 00:05:33,267 --> 00:05:36,468 astronomers need to see it with their telescopes. 114 00:05:36,470 --> 00:05:38,603 But there's a problem. 115 00:05:38,605 --> 00:05:41,340 Computer simulations only give a broad idea 116 00:05:41,342 --> 00:05:43,474 of where to find it. 117 00:05:43,476 --> 00:05:46,277 And planet 9 is incredibly faint 118 00:05:46,279 --> 00:05:49,481 and almost inconceivably far away. 119 00:05:49,483 --> 00:05:51,316 It's much, much farther out 120 00:05:51,318 --> 00:05:53,585 than we ever expected to find planets. 121 00:05:53,587 --> 00:05:55,220 It probably spends most of its life, 122 00:05:55,222 --> 00:05:56,521 if it's on an elliptical orbit, 123 00:05:56,523 --> 00:05:59,424 so far away from the sun that we just missed it. 124 00:06:05,965 --> 00:06:09,634 So just how far away is planet 9? 125 00:06:09,636 --> 00:06:12,938 The only way to truly appreciate its vast orbit 126 00:06:12,940 --> 00:06:16,141 is to build a scale model, 127 00:06:16,143 --> 00:06:19,744 perhaps the biggest working model of the solar system 128 00:06:19,746 --> 00:06:23,047 ever attempted. 129 00:06:23,049 --> 00:06:27,051 Planetary scientist Kevin Walsh is here to call the shots. 130 00:06:27,053 --> 00:06:30,688 And he starts with the size of the sun. 131 00:06:30,690 --> 00:06:33,258 So what we've got here, our kickball, 132 00:06:33,260 --> 00:06:36,895 is going to set the scale of our mini-solar system today. 133 00:06:36,897 --> 00:06:40,231 So everything is scaled off of its relative size 134 00:06:40,233 --> 00:06:43,602 compared to the size of the sun. 135 00:06:43,604 --> 00:06:45,837 Kevin quickly paces out the position 136 00:06:45,839 --> 00:06:48,006 of the inner rocky planets. 137 00:06:48,008 --> 00:06:52,643 All four sit within 60 yards of the sun on this scale. 138 00:06:52,645 --> 00:06:56,948 And each planet would appear no bigger than a peppercorn. 139 00:06:56,950 --> 00:06:59,684 To make this a working solar system, 140 00:06:59,686 --> 00:07:01,653 we need to bring on the drones. 141 00:07:16,102 --> 00:07:19,103 Each drone represents a different planet. 142 00:07:19,105 --> 00:07:20,505 And the orbital speeds 143 00:07:20,507 --> 00:07:23,307 have been scaled so one earth year 144 00:07:23,309 --> 00:07:25,776 takes just 30 seconds. 145 00:07:27,780 --> 00:07:29,247 Already, it's clear to see 146 00:07:29,249 --> 00:07:32,316 how tightly bunched these inner planets are, 147 00:07:32,318 --> 00:07:34,252 and how the closest planets 148 00:07:34,254 --> 00:07:36,787 orbit faster than those farther out. 149 00:07:42,194 --> 00:07:45,363 Far beyond the tightly packed rocky planets 150 00:07:45,365 --> 00:07:48,733 lies the first of the gas giant planets, 151 00:07:48,735 --> 00:07:52,404 on this scale, just over a football field from the sun. 152 00:07:54,540 --> 00:07:57,375 So, after this 400-foot walk, we made to to Jupiter, 153 00:07:57,377 --> 00:07:59,677 the largest planet in the solar system. 154 00:07:59,679 --> 00:08:01,045 But, even by this size scale, 155 00:08:01,047 --> 00:08:04,215 Jupiter is only about the size of a lollipop. 156 00:08:06,252 --> 00:08:08,954 Another football-field length lies ahead 157 00:08:08,956 --> 00:08:11,656 on the walk to saturn. 158 00:08:11,658 --> 00:08:14,392 As we look back across the lake bed, 159 00:08:14,394 --> 00:08:15,793 I can barely see the drones. 160 00:08:15,795 --> 00:08:18,930 We covered a huge distance. 161 00:08:18,932 --> 00:08:21,799 The trek out to uranus is bigger still, 162 00:08:21,801 --> 00:08:23,335 three football fields 163 00:08:23,337 --> 00:08:25,703 or the length of an aircraft carrier. 164 00:08:25,705 --> 00:08:28,807 Turns out there's a lot of wind in the outer solar system! 165 00:08:28,809 --> 00:08:32,510 So I have to yell. 166 00:08:32,512 --> 00:08:34,846 Surprising amount of wind in the outer solar system. 167 00:08:37,183 --> 00:08:40,619 Tumbleweed, rattlesnakes. 168 00:08:40,621 --> 00:08:44,856 After uranus, it's around 200 yards out to Neptune. 169 00:08:44,858 --> 00:08:47,158 Before the discovery of planet 9, 170 00:08:47,160 --> 00:08:50,661 we thought Neptune was the farthest planet from the sun, 171 00:08:50,663 --> 00:08:53,298 around half a mile on the scale of our model. 172 00:08:53,300 --> 00:08:56,300 But Neptune's distant orbit is nothing 173 00:08:56,302 --> 00:08:59,671 compared to the orbit of planet 9. 174 00:08:59,673 --> 00:09:00,938 Walsh: So here we are. 175 00:09:00,940 --> 00:09:03,074 We made it to the orbit of Neptune. 176 00:09:03,076 --> 00:09:05,443 We're only at the tip of the iceberg. 177 00:09:05,445 --> 00:09:07,211 We need to stop measuring in feet. 178 00:09:07,213 --> 00:09:08,813 And we need to start thinking in miles. 179 00:09:08,815 --> 00:09:11,416 We need a car to get out to planet 9. 180 00:09:17,924 --> 00:09:22,193 Planet 9 swings out on a highly elliptical orbit. 181 00:09:22,195 --> 00:09:24,162 Its closest pass to the sun 182 00:09:24,164 --> 00:09:27,632 is a whopping 19 billion miles. 183 00:09:27,634 --> 00:09:30,869 That's six times wider than the orbit of Neptune. 184 00:09:30,871 --> 00:09:33,170 But, at its farthest point, 185 00:09:33,172 --> 00:09:37,809 planet 9 is 112 billion miles away. 186 00:09:37,811 --> 00:09:42,247 And, on this scale, that's an incredible 18 miles 187 00:09:42,249 --> 00:09:44,983 from our kickball-sized sun. 188 00:09:44,985 --> 00:09:47,052 So we're here, end of the road. 189 00:09:47,054 --> 00:09:49,120 We've driven about 18 miles 190 00:09:49,122 --> 00:09:51,489 from where we first started setting up the solar system. 191 00:09:51,491 --> 00:09:53,425 But, in the scale of the solar system, 192 00:09:53,427 --> 00:09:55,359 it's over 100 billion miles. 193 00:09:55,361 --> 00:09:57,896 100 billion miles 194 00:09:57,898 --> 00:10:01,199 to get out to the furthest part of planet 9's orbit. 195 00:10:01,201 --> 00:10:02,666 So, to scale, 196 00:10:02,668 --> 00:10:04,936 and we don't know what planet 9 would look like, 197 00:10:04,938 --> 00:10:08,540 but it's probably about the size of a b.B. 198 00:10:08,542 --> 00:10:10,775 So this is the challenge for our astronomers. 199 00:10:10,777 --> 00:10:14,078 How do you see a b.B. From 18 miles away? 200 00:10:14,080 --> 00:10:16,414 This is what we have to do. 201 00:10:16,416 --> 00:10:18,716 It could take years for our telescopes 202 00:10:18,718 --> 00:10:22,420 to pick out an object so impossibly faint, 203 00:10:22,422 --> 00:10:24,623 far away as planet 9. 204 00:10:24,625 --> 00:10:27,725 Until then, scientists can only speculate 205 00:10:27,727 --> 00:10:31,363 on what this mysterious world might be like. 206 00:10:31,365 --> 00:10:33,764 We're in this wonderful moment right now 207 00:10:33,766 --> 00:10:35,433 where we suspect that planet 9 exists. 208 00:10:35,435 --> 00:10:37,369 But we really have no idea what it's like. 209 00:10:37,371 --> 00:10:40,371 And that means our imaginations can run wild. 210 00:10:40,373 --> 00:10:41,906 They're informed by science. 211 00:10:41,908 --> 00:10:44,241 But I love it when creativity takes hold, 212 00:10:44,243 --> 00:10:45,510 and you just run with it. 213 00:10:47,746 --> 00:10:49,414 So what are the options? 214 00:10:49,416 --> 00:10:52,350 Science suggests three possibilities. 215 00:10:52,352 --> 00:10:55,152 And the first is astonishing. 216 00:10:55,154 --> 00:10:56,821 Planet 9 could be made 217 00:10:56,823 --> 00:10:59,691 from the same materials as the earth, 218 00:10:59,693 --> 00:11:01,926 but 10 times more massive, 219 00:11:01,928 --> 00:11:04,396 a rocky super-earth. 220 00:11:06,632 --> 00:11:09,467 But what would this giant, rocky planet 221 00:11:09,469 --> 00:11:12,136 look like so far from the sun? 222 00:11:12,138 --> 00:11:15,774 A bizarre volcanic world scarred with fire 223 00:11:15,776 --> 00:11:20,511 somehow emerges from the cold darkness of deep space. 224 00:11:35,061 --> 00:11:38,930 In 2016, astronomers release astonishing evidence 225 00:11:38,932 --> 00:11:41,132 of a missing ninth planet 226 00:11:41,134 --> 00:11:43,901 on the frozen edges of our solar system, 227 00:11:43,903 --> 00:11:48,206 100 billion miles from the sun. 228 00:11:48,208 --> 00:11:49,974 Until our telescopes find it, 229 00:11:49,976 --> 00:11:54,712 we can only guess what this mysterious planet 9 is like. 230 00:11:54,714 --> 00:11:58,717 But the first option is perhaps the most surprising. 231 00:11:58,719 --> 00:12:01,986 Planet 9 could be made from rock, 232 00:12:01,988 --> 00:12:03,454 just like the earth, 233 00:12:03,456 --> 00:12:06,257 but 10 times more massive, 234 00:12:06,259 --> 00:12:09,561 a so-called rocky super-earth. 235 00:12:09,563 --> 00:12:11,729 When we looked out into the universe, we realized 236 00:12:11,731 --> 00:12:14,398 that the most common type of planet 237 00:12:14,400 --> 00:12:15,600 in the entire galaxy 238 00:12:15,602 --> 00:12:17,335 is something we don't have, 239 00:12:17,337 --> 00:12:19,737 something called a super-earth. 240 00:12:22,843 --> 00:12:25,977 The kepler space telescope finds alien worlds 241 00:12:25,979 --> 00:12:28,946 by measuring the tiny dip in light 242 00:12:28,948 --> 00:12:33,151 as a planet passes in front of its host star. 243 00:12:33,153 --> 00:12:37,589 Most of the alien solar systems kepler finds have super-earths. 244 00:12:37,591 --> 00:12:41,392 So how come our star doesn't have one? 245 00:12:41,394 --> 00:12:45,997 Could it be possible that planet 9 is our missing super-earth? 246 00:12:45,999 --> 00:12:49,133 If planet 9 is a rocky super-earth, 247 00:12:49,135 --> 00:12:51,402 what will it look like up close? 248 00:12:56,976 --> 00:13:01,179 Planetary geologist jani radebaugh imagines planet 9 249 00:13:01,181 --> 00:13:06,250 as a dramatic world of fire and ice. 250 00:13:06,252 --> 00:13:07,452 Right now, we're in Iceland. 251 00:13:07,454 --> 00:13:09,487 We're flying over amazing, 252 00:13:09,489 --> 00:13:12,423 beautiful volcanic landscapes of Iceland. 253 00:13:12,425 --> 00:13:14,793 We think this might be the perfect landscape 254 00:13:14,795 --> 00:13:17,795 for thinking about what might be happening on planet 9 255 00:13:17,797 --> 00:13:21,399 if it's a rocky super-earth. 256 00:13:21,401 --> 00:13:23,534 These black mountains and lava flows 257 00:13:23,536 --> 00:13:25,670 were created by leftover heat 258 00:13:25,672 --> 00:13:29,374 from the earth's formation spilling out onto the surface. 259 00:13:29,376 --> 00:13:33,510 Planet 9, born with so much more insulating rock, 260 00:13:33,512 --> 00:13:37,881 should have even more of this leftover heat trapped inside it. 261 00:13:37,883 --> 00:13:39,184 What we're talking about is a body 262 00:13:39,186 --> 00:13:42,119 that's maybe 10 times the mass of the earth. 263 00:13:42,121 --> 00:13:44,254 I'd expect, because it's so large, 264 00:13:44,256 --> 00:13:46,390 that we should have lots more internal heat. 265 00:13:46,392 --> 00:13:48,659 And so, even though it's far away in the solar system, 266 00:13:48,661 --> 00:13:49,894 it's far away from the sun, 267 00:13:49,896 --> 00:13:52,029 it's still got lots of its own energy. 268 00:13:59,104 --> 00:14:02,106 Touching down on the surface of planet 9, 269 00:14:02,108 --> 00:14:04,608 you'd find a world as inhospitable 270 00:14:04,610 --> 00:14:08,145 as you could imagine. 271 00:14:08,147 --> 00:14:10,014 Billions of miles from the sun, 272 00:14:10,016 --> 00:14:12,516 the surface is lit by little more 273 00:14:12,518 --> 00:14:15,019 than the twinkle of distant stars 274 00:14:15,021 --> 00:14:18,756 and the red glow of intense geological activity 275 00:14:18,758 --> 00:14:21,325 on the surface. 276 00:14:21,327 --> 00:14:22,827 We can imagine, if we were on 277 00:14:22,829 --> 00:14:25,162 a super rocky earth planet 9, 278 00:14:25,164 --> 00:14:28,032 we could have a landscape just like this one. 279 00:14:28,034 --> 00:14:30,268 There should be volcanoes erupting all the time. 280 00:14:30,270 --> 00:14:32,003 And the other thing we should see 281 00:14:32,005 --> 00:14:34,939 is lots and lots of ice and snow blanketing the landscape. 282 00:14:34,941 --> 00:14:37,908 This is because the atmosphere is so cold 283 00:14:37,910 --> 00:14:39,677 that parts of it have condensed 284 00:14:39,679 --> 00:14:41,613 and settled back down onto the surface. 285 00:14:41,615 --> 00:14:44,082 You're gonna have volcanoes. You're gonna have canyons. 286 00:14:44,084 --> 00:14:46,651 You're gonna have plate tectonics, mountain-building. 287 00:14:46,653 --> 00:14:49,453 All of these processes are still gonna be going on out there 288 00:14:49,455 --> 00:14:52,223 in what we normally would think of as the frozen, cold, 289 00:14:52,225 --> 00:14:54,725 and dead world of the outer solar system. 290 00:14:58,130 --> 00:15:00,365 As hot lava reaches the surface, 291 00:15:00,367 --> 00:15:03,567 it freezes suddenly in the cold of space, 292 00:15:03,569 --> 00:15:05,569 perhaps forming a weird, 293 00:15:05,571 --> 00:15:09,306 volcanic glass called obsidian, 294 00:15:09,308 --> 00:15:10,575 another feature shared 295 00:15:10,577 --> 00:15:13,044 with the sub-zero volcanoes of Iceland. 296 00:15:13,046 --> 00:15:15,913 Radebaugh: Okay, let's put this whole thing together. 297 00:15:15,915 --> 00:15:18,115 We have a landscape 298 00:15:18,117 --> 00:15:20,517 that's kind of dimly lit by starlight, 299 00:15:20,519 --> 00:15:22,820 but maybe also by the reddish glow 300 00:15:22,822 --> 00:15:27,492 from erupting lavas spreading across the landscape. 301 00:15:27,494 --> 00:15:29,760 And then, behind you, you have gases 302 00:15:29,762 --> 00:15:31,329 that are changing immediately to snow 303 00:15:31,331 --> 00:15:33,831 and falling as snow down to the surface. 304 00:15:33,833 --> 00:15:37,234 And it would just be a beautiful, magical landscape. 305 00:15:40,639 --> 00:15:44,675 The case for a giant, rocky planet 9 is compelling 306 00:15:44,677 --> 00:15:46,944 because it paints such a vivid picture 307 00:15:46,946 --> 00:15:50,481 of a living volcanic world. 308 00:15:50,483 --> 00:15:51,950 But there's a problem. 309 00:15:55,521 --> 00:15:58,756 If planet 9 is, in fact, a super-earth, 310 00:15:58,758 --> 00:16:00,891 how did it form? Where did it form? 311 00:16:00,893 --> 00:16:02,226 We don't have any other super-earths 312 00:16:02,228 --> 00:16:03,294 in our solar system. 313 00:16:03,296 --> 00:16:05,062 And the ones we see around other stars 314 00:16:05,064 --> 00:16:07,431 are typically really close to their star. 315 00:16:07,433 --> 00:16:10,534 So how did our super-earth end up way out there 316 00:16:10,536 --> 00:16:13,705 at the edges of our solar system? 317 00:16:13,707 --> 00:16:16,707 For planet 9 to be our rocky super-earth, 318 00:16:16,709 --> 00:16:19,777 it would've had to have formed in the inner solar system 319 00:16:19,779 --> 00:16:22,847 and then migrated out to its current position. 320 00:16:22,849 --> 00:16:24,382 And that's a problem, 321 00:16:24,384 --> 00:16:28,085 because there probably wasn't enough rocky material left over 322 00:16:28,087 --> 00:16:29,487 in the early solar system 323 00:16:29,489 --> 00:16:33,124 to create both the massive planet 9 324 00:16:33,126 --> 00:16:37,527 as well as Mercury, Venus, earth, and Mars. 325 00:16:37,529 --> 00:16:38,730 It's really hard to imagine 326 00:16:38,732 --> 00:16:41,799 that we could have formed a 10-earth-mass planet here 327 00:16:41,801 --> 00:16:43,667 and still formed the rocky planets 328 00:16:43,669 --> 00:16:47,038 that we see today. 329 00:16:47,040 --> 00:16:49,240 ' Time for a new theory. 330 00:16:49,242 --> 00:16:52,376 What if planet 9 formed from ice 331 00:16:52,378 --> 00:16:55,279 in the outer solar system? 332 00:16:55,281 --> 00:16:58,349 Calculations tell us it would have to be 10 times 333 00:16:58,351 --> 00:16:59,617 the mass of the earth. 334 00:16:59,619 --> 00:17:01,652 And here's the kicker. 335 00:17:01,654 --> 00:17:03,921 An ice world that big 336 00:17:03,923 --> 00:17:07,992 would have an internal ocean of liquid water. 337 00:17:07,994 --> 00:17:10,161 A new world is revealed 338 00:17:10,163 --> 00:17:12,663 where icy geysers shoot through cracks 339 00:17:12,665 --> 00:17:14,298 in the frozen crust. 340 00:17:14,300 --> 00:17:15,699 And deep below it 341 00:17:15,701 --> 00:17:18,136 lies the largest body of liquid water 342 00:17:18,138 --> 00:17:19,804 in the solar system. 343 00:17:43,395 --> 00:17:45,195 The planets that make up our solar system 344 00:17:45,197 --> 00:17:48,699 seem to follow a pattern. 345 00:17:48,701 --> 00:17:53,037 The four closest to the sun are all made from rock. 346 00:17:53,039 --> 00:17:57,808 The next four are giants made mostly from gas. 347 00:17:57,810 --> 00:18:00,711 Beyond Neptune, gas is replaced 348 00:18:00,713 --> 00:18:04,115 by multiple worlds made from ice. 349 00:18:04,117 --> 00:18:05,949 This is the kuiper belt, 350 00:18:05,951 --> 00:18:09,220 a frozen realm of water-ice asteroids, 351 00:18:09,222 --> 00:18:11,588 millions of them. 352 00:18:11,590 --> 00:18:14,058 The kuiper belt is a region of space 353 00:18:14,060 --> 00:18:15,926 outside of Neptune's orbit 354 00:18:15,928 --> 00:18:17,228 that extends out, 355 00:18:17,230 --> 00:18:20,464 eh, about 50 times the distance from the earth to the sun. 356 00:18:20,466 --> 00:18:22,299 So it's really far out there. 357 00:18:22,301 --> 00:18:24,469 And this is populated by icy bodies. 358 00:18:24,471 --> 00:18:26,804 These are giant chunks of ice 359 00:18:26,806 --> 00:18:28,806 that have some rock and other things in them. 360 00:18:28,808 --> 00:18:31,308 But they're mostly ice. 361 00:18:31,310 --> 00:18:34,712 Perhaps planet 9 is made from the same materials, 362 00:18:34,714 --> 00:18:37,447 an overgrown version of the kuiper belt's 363 00:18:37,449 --> 00:18:40,685 most infamous citizen, pluto. 364 00:18:43,121 --> 00:18:44,655 Poor pluto. 365 00:18:44,657 --> 00:18:47,658 Discovered in 1930 by Clyde tombaugh, 366 00:18:47,660 --> 00:18:49,660 this tiny ice world, 367 00:18:49,662 --> 00:18:51,128 smaller than our moon, 368 00:18:51,130 --> 00:18:54,932 was quickly proclaimed the ninth planet. 369 00:18:54,934 --> 00:18:59,303 But, in the 1990s, Mike brown and others discovered 370 00:18:59,305 --> 00:19:03,708 a host of icy worlds orbiting out with pluto. 371 00:19:03,710 --> 00:19:07,077 Pluto was just another kuiper belt object 372 00:19:07,079 --> 00:19:09,547 and got demoted to dwarf planet, 373 00:19:09,549 --> 00:19:12,149 to the dismay of much of the world. 374 00:19:12,151 --> 00:19:16,620 Everybody loves the idea that I killed pluto, 375 00:19:16,622 --> 00:19:19,824 and now I'm trying to atone for my sins 376 00:19:19,826 --> 00:19:23,327 by replacing it with a new ninth planet. 377 00:19:23,329 --> 00:19:25,596 In fact, even my daughter suggested this 378 00:19:25,598 --> 00:19:28,199 long before we started looking for planet 9. 379 00:19:28,201 --> 00:19:31,435 She said, you know, "you should find a new planet. 380 00:19:31,437 --> 00:19:33,237 And then you can have found a planet. 381 00:19:33,239 --> 00:19:35,039 And there'll be nine planets again. 382 00:19:35,041 --> 00:19:37,241 And everybody will like you again." 383 00:19:37,243 --> 00:19:41,445 If planet 9 is an icy kuiper belt world, 384 00:19:41,447 --> 00:19:45,416 it'll be the biggest we've ever found. 385 00:19:45,418 --> 00:19:47,651 Pluto, the biggest object 386 00:19:47,653 --> 00:19:49,619 we know out there in the kuiper belt now, 387 00:19:49,621 --> 00:19:52,190 is less than 1% the mass of the earth, 388 00:19:52,192 --> 00:19:53,558 less than that. 389 00:19:53,560 --> 00:19:56,561 Planet 9, we think, is 10 times the mass of the earth. 390 00:19:56,563 --> 00:19:59,931 So we're dealing with a factor of thousands of times in mass 391 00:19:59,933 --> 00:20:02,366 between the largest kuiper belt object 392 00:20:02,368 --> 00:20:04,201 that we know now 393 00:20:04,203 --> 00:20:06,704 and the size of planet 9. 394 00:20:06,706 --> 00:20:10,774 So you're talking about super-mega-ultra-pluto. 395 00:20:10,776 --> 00:20:12,677 It's really, really big. 396 00:20:12,679 --> 00:20:15,846 And it's hard to know what an ice ball 397 00:20:15,848 --> 00:20:18,148 like that would look like. 398 00:20:18,150 --> 00:20:22,153 It's not crazy to speculate that there could still be activity, 399 00:20:22,155 --> 00:20:23,788 internal geologic activity, 400 00:20:23,790 --> 00:20:26,390 keeping this world from being cold 401 00:20:26,392 --> 00:20:28,992 and totally dead. 402 00:20:28,994 --> 00:20:30,728 Peering through the darkness 403 00:20:30,730 --> 00:20:34,498 to a hypothetical mega-pluto planet 9, 404 00:20:34,500 --> 00:20:37,768 we discover a giant world of ice. 405 00:20:37,770 --> 00:20:41,204 There's much less rock than a super-earth planet 9. 406 00:20:41,206 --> 00:20:44,275 But the mass of ice alone creates enough gravity 407 00:20:44,277 --> 00:20:49,212 to generate warmth deep in the core, even out here. 408 00:20:49,214 --> 00:20:53,050 The real currency of keeping a planet alive is mass. 409 00:20:53,052 --> 00:20:55,986 Does it have enough mass to keep the interior warm? 410 00:20:55,988 --> 00:20:57,855 Well, something that's 5 to 10 times 411 00:20:57,857 --> 00:21:02,393 the mass of the earth probably would be warm inside. 412 00:21:02,395 --> 00:21:06,697 Up close, the surface explodes with activity. 413 00:21:06,699 --> 00:21:11,535 But these volcanoes spew water ice, not lava. 414 00:21:11,537 --> 00:21:13,771 If something like a giant pluto exists, 415 00:21:13,773 --> 00:21:15,740 it must be the most amazing landscape 416 00:21:15,742 --> 00:21:17,041 to take a walk over. 417 00:21:17,043 --> 00:21:20,611 You'd have these ice volcanoes spewing out jets 418 00:21:20,613 --> 00:21:23,614 of frozen water, of ice raining down on you. 419 00:21:23,616 --> 00:21:25,416 Maybe you'd look out over the landscape 420 00:21:25,418 --> 00:21:27,885 and see hundreds of these erupting. 421 00:21:27,887 --> 00:21:31,255 This dramatic, icy vista is a gateway 422 00:21:31,257 --> 00:21:33,023 to a secret world, 423 00:21:33,025 --> 00:21:36,093 a vast, slushy ocean of liquid water 424 00:21:36,095 --> 00:21:38,095 mixed with ice crystals, 425 00:21:38,097 --> 00:21:39,563 perhaps the largest 426 00:21:39,565 --> 00:21:42,166 single body of water in the solar system. 427 00:21:42,168 --> 00:21:44,401 Durda: There's gonna be enough internal heat, maybe, 428 00:21:44,403 --> 00:21:47,538 to turn this into a slushy water world. 429 00:21:47,540 --> 00:21:50,441 So it's not quite a terrestrial, rocky planet. 430 00:21:50,443 --> 00:21:52,943 And it's not a uranus or Neptune. 431 00:21:52,945 --> 00:21:55,979 It's a true mega-ocean world, 432 00:21:55,981 --> 00:21:59,917 but perhaps a very cold one. 433 00:21:59,919 --> 00:22:03,554 Is planet 9 an icy mega-pluto? 434 00:22:03,556 --> 00:22:05,489 The problem is scale. 435 00:22:05,491 --> 00:22:09,593 Pluto and the other objects in the kuiper belt are tiny. 436 00:22:09,595 --> 00:22:12,129 So how could the same building materials 437 00:22:12,131 --> 00:22:16,200 have come together to form a giant? 438 00:22:16,202 --> 00:22:18,135 So, the idea that planet 9 439 00:22:18,137 --> 00:22:22,539 is simply a really scaled-up pluto, a mega-pluto, 440 00:22:22,541 --> 00:22:24,208 has some difficulties. 441 00:22:24,210 --> 00:22:27,911 We just don't think that there was enough mass out there 442 00:22:27,913 --> 00:22:29,780 in the far reaches of the solar system 443 00:22:29,782 --> 00:22:32,149 to all come together to build a planet that large. 444 00:22:32,151 --> 00:22:34,217 When you look at the kuiper belt, 445 00:22:34,219 --> 00:22:36,120 there are all of these small, icy bodies. 446 00:22:36,122 --> 00:22:38,155 There's nothing very big out there. 447 00:22:38,157 --> 00:22:40,224 And we think that's not a coincidence, 448 00:22:40,226 --> 00:22:42,459 that the disk of dust and gas that formed the planets 449 00:22:42,461 --> 00:22:44,661 had more stuff closer to the sun. 450 00:22:44,663 --> 00:22:46,597 And by the time you got out to where pluto is, 451 00:22:46,599 --> 00:22:49,300 there wasn't much material to build planets out of, 452 00:22:49,302 --> 00:22:50,634 certainly not a planet 453 00:22:50,636 --> 00:22:55,038 5 to 10 times the mass of the earth. 454 00:22:55,040 --> 00:22:59,710 So, if planet 9 didn't form in the icy outer system 455 00:22:59,712 --> 00:23:03,447 and didn't form in the rocky, inner solar system, 456 00:23:03,449 --> 00:23:05,382 where did it come from? 457 00:23:05,384 --> 00:23:07,418 The more likely option, 458 00:23:07,420 --> 00:23:10,421 planet 9 formed in the gas-rich zone 459 00:23:10,423 --> 00:23:12,556 in the middle of our solar system 460 00:23:12,558 --> 00:23:16,860 that also created Jupiter, saturn, and Neptune. 461 00:23:16,862 --> 00:23:19,930 A gassy planet 9 could be similar to Neptune, 462 00:23:19,932 --> 00:23:23,367 but perhaps a little smaller, 463 00:23:23,369 --> 00:23:25,302 a mini-Neptune. 464 00:23:25,304 --> 00:23:27,938 But how would it get so much farther out 465 00:23:27,940 --> 00:23:29,807 than the other gas giants? 466 00:23:29,809 --> 00:23:32,809 And what would it look like? 467 00:23:32,811 --> 00:23:36,079 Imagine a weird, translucent world 468 00:23:36,081 --> 00:23:40,283 glowing in the dark like a giant deep-sea creature. 469 00:23:57,903 --> 00:24:00,437 Something on the fringes of our solar system 470 00:24:00,439 --> 00:24:03,907 is upsetting orbits and causing a ruckus. 471 00:24:03,909 --> 00:24:06,743 Could it be a planet? 472 00:24:06,745 --> 00:24:08,879 It's incredible to me that we now know 473 00:24:08,881 --> 00:24:10,514 of thousands of other planets 474 00:24:10,516 --> 00:24:12,583 going around other stars in the sky, 475 00:24:12,585 --> 00:24:15,385 but we may have missed a big planet 476 00:24:15,387 --> 00:24:17,521 in our own solar system. 477 00:24:17,523 --> 00:24:21,258 Planet 9, a world we know almost nothing about, 478 00:24:21,260 --> 00:24:25,262 beyond the possibility that it exists. 479 00:24:25,264 --> 00:24:29,966 Science suggests intriguing options ... 480 00:24:29,968 --> 00:24:33,403 a giant, rocky world with a heart of fire, 481 00:24:33,405 --> 00:24:36,073 or an ice world filled 482 00:24:36,075 --> 00:24:39,109 with a giant, slushy ocean. 483 00:24:39,111 --> 00:24:43,513 But problems with each theory have led to new hunches. 484 00:24:43,515 --> 00:24:46,517 So, if it's not a rocky, metallic super-earth 485 00:24:46,519 --> 00:24:50,721 and it's not a gigantic, ice-ball, mega-pluto, 486 00:24:50,723 --> 00:24:52,222 what's left? 487 00:24:52,224 --> 00:24:54,892 And the answer is a gas giant. 488 00:24:54,894 --> 00:24:59,129 And that strikes me as being the most likely prospect. 489 00:24:59,131 --> 00:25:02,365 When you think about the mass of planet 9 490 00:25:02,367 --> 00:25:05,236 and where it is now, my best guess, 491 00:25:05,238 --> 00:25:10,040 it's something like a miniature version of Neptune. 492 00:25:10,042 --> 00:25:11,975 The gas giant planets 493 00:25:11,977 --> 00:25:14,978 are the monsters of our solar system. 494 00:25:14,980 --> 00:25:17,447 Instead of a solid surface, like the earth, 495 00:25:17,449 --> 00:25:20,984 the gas giants have thick, stormy atmospheres 496 00:25:20,986 --> 00:25:24,120 that descend for tens of thousands of miles, 497 00:25:24,122 --> 00:25:26,991 shrouding their small, rocky cores. 498 00:25:29,193 --> 00:25:31,728 Jupiter is the largest gas giant, 499 00:25:31,730 --> 00:25:35,365 over 300 times the mass of earth. 500 00:25:35,367 --> 00:25:36,534 Moving out from Jupiter, 501 00:25:36,536 --> 00:25:40,137 the gas giants get progressively smaller, 502 00:25:40,139 --> 00:25:44,174 saturn, then uranus, and finally Neptune, 503 00:25:44,176 --> 00:25:48,045 around 17 times the mass of the earth. 504 00:25:48,047 --> 00:25:50,914 If planet 9 is a gas giant, 505 00:25:50,916 --> 00:25:52,983 it'll be even smaller, 506 00:25:52,985 --> 00:25:55,151 a mini-Neptune. 507 00:25:55,153 --> 00:25:57,354 If planet 9 is a mini-Neptune, 508 00:25:57,356 --> 00:25:59,189 if it's a lot like Neptune, 509 00:25:59,191 --> 00:26:01,091 then it's not really like 510 00:26:01,093 --> 00:26:02,626 a terrestrial planet, like earth. 511 00:26:02,628 --> 00:26:05,162 But it's not really like a gas giant, like Jupiter. 512 00:26:05,164 --> 00:26:07,531 Neptune is this weird, in-between thing 513 00:26:07,533 --> 00:26:09,900 where it's probably got a rocky core. 514 00:26:09,902 --> 00:26:12,803 But it's actually, mostly, what astronomers call ices. 515 00:26:12,805 --> 00:26:16,373 It's got methane in it and water and various other substances 516 00:26:16,375 --> 00:26:19,577 and a very, very, very thick atmosphere on top of that. 517 00:26:24,083 --> 00:26:26,817 Neptune's thick clouds are stained blue 518 00:26:26,819 --> 00:26:28,952 with molecules of methane. 519 00:26:28,954 --> 00:26:33,624 But planet 9's atmosphere could be transparent. 520 00:26:33,626 --> 00:26:36,660 Walsh: It's so cold out there, you're getting almost 521 00:26:36,662 --> 00:26:38,762 no extra energy from the sun. 522 00:26:38,764 --> 00:26:40,664 And so then anything heavy in the atmosphere, 523 00:26:40,666 --> 00:26:42,700 any heavier molecule, over time, 524 00:26:42,702 --> 00:26:44,768 would have probably fallen to the surface. 525 00:26:44,770 --> 00:26:46,703 And only the lightest elements, 526 00:26:46,705 --> 00:26:49,673 the lightest molecules, would stay in your atmosphere, 527 00:26:49,675 --> 00:26:52,843 so maybe just almost pure hydrogen or helium. 528 00:26:52,845 --> 00:26:56,213 And you'd have, maybe, a really clear atmosphere. 529 00:26:56,215 --> 00:26:58,281 Durda: What would a mini-Neptune look like 530 00:26:58,283 --> 00:26:59,983 that far out from the sun? 531 00:26:59,985 --> 00:27:02,652 The thing I think of are things like jellyfish, right? 532 00:27:02,654 --> 00:27:04,388 That sort of beautiful, translucent look, 533 00:27:04,390 --> 00:27:07,757 where you're looking through to the innards of the organism. 534 00:27:07,759 --> 00:27:09,226 In this case, you might look through 535 00:27:09,228 --> 00:27:12,663 to the innards of the planet in some way. 536 00:27:12,665 --> 00:27:15,198 The atmosphere may be transparent. 537 00:27:15,200 --> 00:27:17,901 But this planet is far from calm. 538 00:27:17,903 --> 00:27:21,437 The interior is lit by the flash of thunderstorms. 539 00:27:21,439 --> 00:27:24,108 And faint lights dance around the poles 540 00:27:24,110 --> 00:27:26,710 as solar winds from distant stars 541 00:27:26,712 --> 00:27:29,680 stream down the planet's magnetic fields. 542 00:27:29,682 --> 00:27:31,715 Durda: Looking into the innards of the planet, 543 00:27:31,717 --> 00:27:34,317 it would look, in some ways, like these gorgeous, 544 00:27:34,319 --> 00:27:38,322 beautiful deep-sea organisms that are bioluminescent. 545 00:27:38,324 --> 00:27:40,290 And we may have the planetary equivalent 546 00:27:40,292 --> 00:27:43,093 of something like out there in the inky blackness of space, 547 00:27:43,095 --> 00:27:47,464 rather than the inky blackness of the deep ocean. 548 00:27:47,466 --> 00:27:50,533 Could planet 9 be a mini-Neptune? 549 00:27:50,535 --> 00:27:54,137 Surprisingly, the possibility of an extra gas giant 550 00:27:54,139 --> 00:27:57,240 in our solar system isn't new. 551 00:27:57,242 --> 00:27:59,843 In 2011, scientists attempted 552 00:27:59,845 --> 00:28:01,178 to replicate the formation 553 00:28:01,180 --> 00:28:04,548 of our solar system using supercomputers. 554 00:28:04,550 --> 00:28:06,617 But their models didn't work 555 00:28:06,619 --> 00:28:12,089 unless they added an extra gas giant planet to the mix. 556 00:28:12,091 --> 00:28:14,291 It was really difficult to reproduce 557 00:28:14,293 --> 00:28:16,393 our current solar system. 558 00:28:16,395 --> 00:28:18,195 But one scientist found that, 559 00:28:18,197 --> 00:28:21,064 if you add a fifth large planet 560 00:28:21,066 --> 00:28:22,433 to our solar system, 561 00:28:22,435 --> 00:28:25,102 then that planet will end up 562 00:28:25,104 --> 00:28:27,337 getting ejected from our solar system. 563 00:28:27,339 --> 00:28:30,273 And you'd have the planets that we have today. 564 00:28:32,210 --> 00:28:34,645 Is planet 9 the missing gas giant 565 00:28:34,647 --> 00:28:37,380 predicted by the supercomputers? 566 00:28:37,382 --> 00:28:39,683 The computer model shows it being ejected 567 00:28:39,685 --> 00:28:42,119 by the immense gravity of Jupiter. 568 00:28:42,121 --> 00:28:46,456 But did planet 9 instead cling to our solar system 569 00:28:46,458 --> 00:28:50,160 by the tips of its gravitational fingers? 570 00:28:50,162 --> 00:28:51,861 Sometimes, our mathematical models 571 00:28:51,863 --> 00:28:53,763 predict things that we think are impossible. 572 00:28:53,765 --> 00:28:55,299 And then we find them. 573 00:28:55,301 --> 00:28:56,967 And, for a while, we've known that, 574 00:28:56,969 --> 00:28:58,468 if you throw a mini-Neptune 575 00:28:58,470 --> 00:29:00,604 into the mix of planets forming, 576 00:29:00,606 --> 00:29:02,205 the models work better. 577 00:29:02,207 --> 00:29:06,076 Maybe we found that key, finally ... planet 9. 578 00:29:06,078 --> 00:29:09,246 We know giant planets can get thrown around. 579 00:29:09,248 --> 00:29:11,882 Observers have even seen ejected planets 580 00:29:11,884 --> 00:29:15,552 floating free in the space between stars. 581 00:29:15,554 --> 00:29:19,656 Did planet 9 almost suffer the same fate? 582 00:29:19,658 --> 00:29:22,325 It's entirely possible that there could've been 583 00:29:22,327 --> 00:29:23,761 a planet forming bigger than earth, 584 00:29:23,763 --> 00:29:25,795 something like a super-earth, well on its way 585 00:29:25,797 --> 00:29:27,331 to becoming a gas giant 586 00:29:27,333 --> 00:29:30,333 in this wonderful area of the disk, 587 00:29:30,335 --> 00:29:32,069 where it could've drawn in a lot of material 588 00:29:32,071 --> 00:29:34,171 and become a gas giant like Jupiter, 589 00:29:34,173 --> 00:29:36,540 except it got too close to Jupiter. 590 00:29:36,542 --> 00:29:38,041 And, before it could do that, 591 00:29:38,043 --> 00:29:40,377 it was gravitationally thrown away 592 00:29:40,379 --> 00:29:42,712 from this wonderful feeding ground 593 00:29:42,714 --> 00:29:44,581 out into the much sparser, 594 00:29:44,583 --> 00:29:47,484 more barren desert of the outer solar system. 595 00:29:50,454 --> 00:29:53,857 Is planet 9 really a frozen mini-Neptune 596 00:29:53,859 --> 00:29:57,327 banished to the badlands of the outer solar system? 597 00:29:57,329 --> 00:30:00,030 Right now, it's our best bet. 598 00:30:00,032 --> 00:30:02,732 But there is one more option. 599 00:30:02,734 --> 00:30:04,568 Some scientists believe 600 00:30:04,570 --> 00:30:08,405 planet 9 may not have formed around our sun at all. 601 00:30:11,776 --> 00:30:14,011 Is our most distant planet 602 00:30:14,013 --> 00:30:17,581 an alien world snatched from another star? 603 00:30:37,535 --> 00:30:40,337 If the mysterious planet 9 exists, 604 00:30:40,339 --> 00:30:42,873 it is by far the most distant planet 605 00:30:42,875 --> 00:30:44,274 in the solar system, 606 00:30:44,276 --> 00:30:47,143 20 times farther out than Neptune. 607 00:30:47,145 --> 00:30:49,713 So how did it get there? 608 00:30:49,715 --> 00:30:53,483 Was it made in the place it currently occupies? 609 00:30:53,485 --> 00:30:56,119 Or was it flung out from the inner solar system 610 00:30:56,121 --> 00:30:57,654 as a rocky super-earth 611 00:30:57,656 --> 00:31:01,191 or, more likely, a mini-Neptune? 612 00:31:01,193 --> 00:31:02,892 The jury's out. 613 00:31:02,894 --> 00:31:05,828 But there is another option. 614 00:31:05,830 --> 00:31:07,631 And it's out of this world. 615 00:31:07,633 --> 00:31:10,333 So the question is, then, where did it come from 616 00:31:10,335 --> 00:31:11,801 if neither of these things is right? 617 00:31:11,803 --> 00:31:15,371 And it's possible that there is another explanation. 618 00:31:15,373 --> 00:31:19,242 And that is that planet 9 is an alien visitor 619 00:31:19,244 --> 00:31:21,044 from outer space. 620 00:31:24,049 --> 00:31:27,517 The sun is just 1 of 200 billion stars 621 00:31:27,519 --> 00:31:30,187 orbiting the supermassive black hole 622 00:31:30,189 --> 00:31:33,289 at the center of the milky way galaxy. 623 00:31:33,291 --> 00:31:36,760 Most of these stars probably have multiple planets. 624 00:31:36,762 --> 00:31:40,330 And scientists now believe that, from time to time, 625 00:31:40,332 --> 00:31:44,301 two stars might pass a little too close for comfort. 626 00:31:44,303 --> 00:31:48,772 The result ... planetary theft. 627 00:31:48,774 --> 00:31:50,974 We know that the sun moves around in the galaxy. 628 00:31:50,976 --> 00:31:52,609 We know that there are other stars 629 00:31:52,611 --> 00:31:53,810 and other solar systems. 630 00:31:53,812 --> 00:31:56,546 Is it possible that the sun passed so close 631 00:31:56,548 --> 00:31:57,847 to another solar system 632 00:31:57,849 --> 00:32:01,484 that it stole a planet? 633 00:32:01,486 --> 00:32:04,388 Today, our sun drifts through space alone, 634 00:32:04,390 --> 00:32:07,357 like a yacht in the open ocean. 635 00:32:07,359 --> 00:32:09,693 But that wasn't always the case. 636 00:32:09,695 --> 00:32:12,963 Rewind the clock 4.6 billion years, 637 00:32:12,965 --> 00:32:17,200 and our local star cluster was a much more crowded place, 638 00:32:17,202 --> 00:32:21,104 ideal conditions for planet 9 to jump ship. 639 00:32:23,141 --> 00:32:25,008 The sun was born in a nursery 640 00:32:25,010 --> 00:32:27,110 with thousands of other stars. 641 00:32:27,112 --> 00:32:28,978 Just like the boats in this harbor, 642 00:32:28,980 --> 00:32:32,148 there are so many boats around, so many neighbors. 643 00:32:32,150 --> 00:32:34,017 It was like that for the young sun. 644 00:32:36,053 --> 00:32:39,522 Stars like the sun are born in stellar nurseries, 645 00:32:39,524 --> 00:32:41,925 vast clouds of gas that collapse 646 00:32:41,927 --> 00:32:44,794 to form tens of thousands of stars, 647 00:32:44,796 --> 00:32:47,230 all tightly packed together. 648 00:32:49,200 --> 00:32:51,301 Astronomers think it's possible 649 00:32:51,303 --> 00:32:55,504 that, inside this cramped, confused playground of stars, 650 00:32:55,506 --> 00:32:58,775 our sun's gravity could've stolen planet 9 651 00:32:58,777 --> 00:33:00,744 from a passing neighbor. 652 00:33:00,746 --> 00:33:02,545 Imagine this cool scenario. 653 00:33:02,547 --> 00:33:04,548 You've got an alien star. 654 00:33:04,550 --> 00:33:06,716 And around that star forms a planet. 655 00:33:06,718 --> 00:33:08,118 This is planet 9. 656 00:33:08,120 --> 00:33:10,153 And here comes the sun whizzing by. 657 00:33:10,155 --> 00:33:12,956 The sun gets so close that it steals planet 9 658 00:33:12,958 --> 00:33:16,660 on its way out into the galaxy. 659 00:33:16,662 --> 00:33:18,961 It sounds like science fiction. 660 00:33:18,963 --> 00:33:23,066 But our sun may already have a criminal record. 661 00:33:23,068 --> 00:33:26,403 There's some evidence that the comets in our solar system 662 00:33:26,405 --> 00:33:28,505 may not have started in our solar system. 663 00:33:28,507 --> 00:33:31,675 We may have stolen comets from other stars. 664 00:33:31,677 --> 00:33:33,209 If that's the case, 665 00:33:33,211 --> 00:33:34,845 it's not totally outrageous 666 00:33:34,847 --> 00:33:38,682 to think that a planet that formed around another star 667 00:33:38,684 --> 00:33:41,485 somehow made its way into our solar system 668 00:33:41,487 --> 00:33:44,988 and became part of our family. 669 00:33:44,990 --> 00:33:47,791 But if planet 9 really did come from another star, 670 00:33:47,793 --> 00:33:51,261 how will we know for sure that it's an alien visitor? 671 00:33:51,263 --> 00:33:53,230 What we'd like to do is essentially 672 00:33:53,232 --> 00:33:55,598 a DNA test on planet 9, 673 00:33:55,600 --> 00:33:57,567 scoop up some of its surface 674 00:33:57,569 --> 00:34:01,638 and look for material that we absolutely know 675 00:34:01,640 --> 00:34:03,040 couldn't have formed around our sun, 676 00:34:03,042 --> 00:34:05,742 because we don't see it anywhere else in our solar system. 677 00:34:05,744 --> 00:34:07,677 We may even have to send a probe there 678 00:34:07,679 --> 00:34:09,412 to really get a good look at it 679 00:34:09,414 --> 00:34:11,715 and find out what its chemical composition is, 680 00:34:11,717 --> 00:34:14,751 exactly everything we can find out about its orbit. 681 00:34:14,753 --> 00:34:16,186 And, that way, we might be able to see 682 00:34:16,188 --> 00:34:19,089 if there are any sort of fingerprints, 683 00:34:19,091 --> 00:34:21,258 smoking-gun pieces of evidence 684 00:34:21,260 --> 00:34:24,227 that'll say clearly this formed here 685 00:34:24,229 --> 00:34:26,563 or it formed out there. 686 00:34:30,200 --> 00:34:34,370 Unfortunately, before we can launch a probe to planet 9, 687 00:34:34,372 --> 00:34:38,175 we first have to find it. 688 00:34:38,177 --> 00:34:39,642 Astronomers like Mike brown 689 00:34:39,644 --> 00:34:41,845 have made the challenge a little easier, 690 00:34:41,847 --> 00:34:45,382 using math to narrow down the zone. 691 00:34:45,384 --> 00:34:47,818 What we know right now is that planet 9 692 00:34:47,820 --> 00:34:50,954 is in a swath of the sky that goes about like this. 693 00:34:50,956 --> 00:34:53,256 It's about this big. It goes across like this. 694 00:34:53,258 --> 00:34:55,558 But we think we even know a little bit better. 695 00:34:55,560 --> 00:34:57,961 We've pinpointed, or at least slightly constrained 696 00:34:57,963 --> 00:35:01,631 where it is, to a patch of sky that's about this big. 697 00:35:01,633 --> 00:35:03,333 It's still a lot of sky to look at. 698 00:35:03,335 --> 00:35:07,437 But it's a lot less than having to look at the whole sky. 699 00:35:07,439 --> 00:35:12,108 Mike's patch of sky is close to the constellation Orion. 700 00:35:12,110 --> 00:35:13,543 He's going to wait until fall, 701 00:35:13,545 --> 00:35:15,479 when Orion is highest in the sky, 702 00:35:15,481 --> 00:35:17,314 to search for planet 9 703 00:35:17,316 --> 00:35:22,119 using the Subaru infrared telescope on Hawaii. 704 00:35:22,121 --> 00:35:23,620 The telescope is fine-tuned 705 00:35:23,622 --> 00:35:25,689 to pick out the faint heat signature 706 00:35:25,691 --> 00:35:27,290 of distant objects 707 00:35:27,292 --> 00:35:30,860 against the cold backdrop of deep space. 708 00:35:30,862 --> 00:35:33,196 Planet 9 may be frozen. 709 00:35:33,198 --> 00:35:35,131 But it will be warmer than space. 710 00:35:35,133 --> 00:35:37,433 And that tiny difference in temperature 711 00:35:37,435 --> 00:35:40,570 is all this incredible telescope needs. 712 00:35:40,572 --> 00:35:42,739 We want to see two pictures taken 713 00:35:42,741 --> 00:35:45,375 of the same area of the sky a few weeks apart. 714 00:35:45,377 --> 00:35:46,942 The stars don't move. 715 00:35:46,944 --> 00:35:49,312 But you see this one, little thing going, "boop, boop, boop," 716 00:35:49,314 --> 00:35:51,047 as you flash the pictures back and forth. 717 00:35:51,049 --> 00:35:52,849 That's what happens when you have an object 718 00:35:52,851 --> 00:35:54,517 moving around the sun 719 00:35:54,519 --> 00:35:56,252 against the background of stars. 720 00:35:56,254 --> 00:35:58,188 That's how pluto was discovered. 721 00:35:58,190 --> 00:36:01,123 That's how we're gonna find planet 9 if it exists. 722 00:36:03,294 --> 00:36:05,895 It could take years to find planet 9. 723 00:36:05,897 --> 00:36:07,964 But when we do spot it, 724 00:36:07,966 --> 00:36:11,134 scientists will be able to analyze its light. 725 00:36:11,136 --> 00:36:13,536 And hidden within that faint glow 726 00:36:13,538 --> 00:36:15,471 could be the chemical signature 727 00:36:15,473 --> 00:36:18,708 for rock, ice, or gas. 728 00:36:18,710 --> 00:36:21,611 If it is, planet 9's identity 729 00:36:21,613 --> 00:36:25,648 will finally be revealed. 730 00:36:25,650 --> 00:36:28,851 What lies in store beyond that is a mystery. 731 00:36:28,853 --> 00:36:32,021 But perhaps the most exciting prospect 732 00:36:32,023 --> 00:36:37,160 is planet 9 could be home to a family of moons. 733 00:36:37,162 --> 00:36:40,063 And it's just possible one of these moons 734 00:36:40,065 --> 00:36:42,232 could provide a home for life 735 00:36:42,234 --> 00:36:45,334 100 billion miles from the sun. 736 00:37:05,022 --> 00:37:07,423 Are we alone in the universe? 737 00:37:10,028 --> 00:37:12,495 For decades, scientists have scoured 738 00:37:12,497 --> 00:37:14,364 our closest planetary neighbor 739 00:37:14,366 --> 00:37:17,100 for signs of extraterrestrial life. 740 00:37:19,103 --> 00:37:22,071 But so far, not a trace has been found. 741 00:37:26,144 --> 00:37:29,446 is it possible we're targeting the wrong planet? 742 00:37:33,384 --> 00:37:35,351 If planet 9 is real, 743 00:37:35,353 --> 00:37:38,989 it sits on the icy outer limits of the solar system. 744 00:37:38,991 --> 00:37:43,126 But even here, 100 billion miles from the sun, 745 00:37:43,128 --> 00:37:46,495 it's just possible that life could thrive 746 00:37:46,497 --> 00:37:48,698 not on the planet itself, 747 00:37:48,700 --> 00:37:51,501 but deep inside its moons. 748 00:37:51,503 --> 00:37:53,837 Historically, we've always thought of moons 749 00:37:53,839 --> 00:37:56,172 as being these little, insignificant places. 750 00:37:56,174 --> 00:37:57,774 But the incredible thing is they may be 751 00:37:57,776 --> 00:38:00,043 the best places to find life. 752 00:38:00,045 --> 00:38:01,444 In our solar system alone, 753 00:38:01,446 --> 00:38:04,180 there may be far more chances for life on moons of planets 754 00:38:04,182 --> 00:38:06,649 than there are on planets themselves. 755 00:38:08,686 --> 00:38:11,154 Moons excite astrobiologists 756 00:38:11,156 --> 00:38:14,857 because they can sometimes support liquid water, 757 00:38:14,859 --> 00:38:17,527 no matter how far they sit from the sun. 758 00:38:17,529 --> 00:38:20,796 The key is something called tidal heating. 759 00:38:23,467 --> 00:38:26,402 Moons on elliptical orbits get squashed 760 00:38:26,404 --> 00:38:29,873 and squeezed by the gravity of their parent planet. 761 00:38:29,875 --> 00:38:32,275 This generates heat and melts ice 762 00:38:32,277 --> 00:38:36,079 to form underground oceans of liquid water, 763 00:38:36,081 --> 00:38:40,717 the key ingredient for life as we know it. 764 00:38:40,719 --> 00:38:43,987 If planet 9 is as big as scientists predict, 765 00:38:43,989 --> 00:38:46,322 it could have multiple moons. 766 00:38:46,324 --> 00:38:48,691 And maybe one of those moons 767 00:38:48,693 --> 00:38:51,227 could have warm, salty oceans 768 00:38:51,229 --> 00:38:54,397 primed for simple life. 769 00:38:54,399 --> 00:38:56,265 So, if you have planet 9, 770 00:38:56,267 --> 00:38:58,100 and it's got icy moons, and these icy moons 771 00:38:58,102 --> 00:39:00,337 are on the right kinds of orbits, 772 00:39:00,339 --> 00:39:03,405 the heat could be coming from within, not without. 773 00:39:03,407 --> 00:39:06,242 And so the sun basically doesn't matter. 774 00:39:06,244 --> 00:39:09,746 You could have liquid water below the surface 775 00:39:09,748 --> 00:39:11,981 that's heated from the internal geology. 776 00:39:11,983 --> 00:39:13,783 You could have geysers of water 777 00:39:13,785 --> 00:39:15,251 like what we see coming off of moons 778 00:39:15,253 --> 00:39:16,785 around saturn and Jupiter. 779 00:39:16,787 --> 00:39:19,222 You could have that all the way out there at planet 9. 780 00:39:22,893 --> 00:39:28,030 Imagine planet 9 with a system of giant moons. 781 00:39:28,032 --> 00:39:30,733 The closest moon is heated to melting point 782 00:39:30,735 --> 00:39:34,037 by planet 9's immense gravity. 783 00:39:34,039 --> 00:39:35,571 There's no life here. 784 00:39:35,573 --> 00:39:38,508 Any water boiled away millions of years ago, 785 00:39:38,510 --> 00:39:41,444 creating a hot, arid ball of rock. 786 00:39:44,448 --> 00:39:47,117 Farther out lies a second giant moon. 787 00:39:47,119 --> 00:39:51,554 This new world is encased in bright, white water ice. 788 00:39:54,191 --> 00:39:56,259 But the crust hides a secret ... 789 00:39:56,261 --> 00:39:59,262 a vast ocean of warm liquid water 790 00:39:59,264 --> 00:40:02,498 heated by volcanic vents on the ocean floor. 791 00:40:04,702 --> 00:40:08,104 This hidden world is rich with organic chemistry. 792 00:40:08,106 --> 00:40:13,008 And it could even support a weird, alien zoo 793 00:40:13,010 --> 00:40:16,079 of pale aquatic creatures. 794 00:40:16,081 --> 00:40:18,381 We associate life with the sun. 795 00:40:18,383 --> 00:40:20,950 That's how we think of life originating on the earth. 796 00:40:20,952 --> 00:40:22,585 But we know you don't need the sun. 797 00:40:22,587 --> 00:40:25,154 We have tube worms at the bottom of the ocean 798 00:40:25,156 --> 00:40:27,156 which live off of hydrothermal vents. 799 00:40:27,158 --> 00:40:29,225 They get all the chemicals and the heat they need 800 00:40:29,227 --> 00:40:31,527 from, basically, the interior of the earth. 801 00:40:31,529 --> 00:40:33,797 This is not out of the question. You know, decades ago, 802 00:40:33,799 --> 00:40:35,765 you'd have been laughed out of a lecture hall 803 00:40:35,767 --> 00:40:37,766 if you'd have said something like that. 804 00:40:37,768 --> 00:40:39,835 But we have learned so much about life 805 00:40:39,837 --> 00:40:41,170 in extreme environments since then 806 00:40:41,172 --> 00:40:43,473 that this is now in the realm of possibility, 807 00:40:43,475 --> 00:40:45,041 talking about life on a planet 808 00:40:45,043 --> 00:40:47,043 beyond pluto in our own solar system. 809 00:40:47,045 --> 00:40:48,644 Wherever there's energy, 810 00:40:48,646 --> 00:40:50,646 wherever there's heat, there can be life, 811 00:40:50,648 --> 00:40:54,016 even all the way out by planet 9. 812 00:40:54,018 --> 00:40:55,518 There is good news. 813 00:40:55,520 --> 00:40:58,521 If planet 9 does have an active watery moon, 814 00:40:58,523 --> 00:41:01,224 we should be able to see it with our telescopes. 815 00:41:03,561 --> 00:41:05,595 The active moons of Jupiter and saturn 816 00:41:05,597 --> 00:41:07,897 are the brightest in the night sky, 817 00:41:07,899 --> 00:41:11,600 thanks to warm water gushing out from cracks in the surface 818 00:41:11,602 --> 00:41:16,939 and freezing in bright white layers of fresh ice. 819 00:41:16,941 --> 00:41:19,876 If planet 9's moons have liquid oceans, 820 00:41:19,878 --> 00:41:23,012 their surfaces should be just as bright. 821 00:41:30,554 --> 00:41:34,290 The race is on to image planet 9 and its moons. 822 00:41:34,292 --> 00:41:37,827 But what we'll see when those pictures come back 823 00:41:37,829 --> 00:41:39,362 is anybody's guess. 824 00:41:39,364 --> 00:41:41,430 I have to admit, there's some wonderful tension 825 00:41:41,432 --> 00:41:44,233 that I feel right now when it comes to finding planet 9. 826 00:41:44,235 --> 00:41:45,801 We have giant telescopes 827 00:41:45,803 --> 00:41:48,070 that are scanning the sky looking for it. 828 00:41:48,072 --> 00:41:51,507 So, any day now, I'm waiting with baited breath. 829 00:41:51,509 --> 00:41:52,642 My daughter believes 830 00:41:52,644 --> 00:41:56,045 that planet 9 is pink with purple dots. 831 00:41:56,047 --> 00:41:58,847 Um, she might be right. 832 00:42:03,355 --> 00:42:04,754 one thing's for sure. 833 00:42:04,756 --> 00:42:07,990 If and when we do find planet 9, 834 00:42:07,992 --> 00:42:12,161 we'll never look at our solar system the same way again. 835 00:42:12,163 --> 00:42:13,863 This is tremendously exciting, 836 00:42:13,865 --> 00:42:16,032 because, if it's there, it's already telling us 837 00:42:16,034 --> 00:42:20,670 that there's more to know about our solar system, 838 00:42:20,672 --> 00:42:23,673 that there are more secrets literally under the sun 839 00:42:23,675 --> 00:42:26,142 than we have dreamed of in our philosophy. 64780