1 00:00:00,460 --> 00:00:01,920 - [Narrator] You've seen weird, 2 00:00:01,920 --> 00:00:04,110 wonderful worlds in science fiction. 3 00:00:04,110 --> 00:00:07,700 We don't yet know what sorts of life might exist out there. 4 00:00:07,700 --> 00:00:10,300 But some of the planets not unlike the ones 5 00:00:10,300 --> 00:00:13,020 in your favorite stories are real. 6 00:00:13,020 --> 00:00:15,110 At NASA we're studying them. 7 00:00:15,110 --> 00:00:17,220 They're called exoplanets. 8 00:00:17,220 --> 00:00:21,510 The term exoplanet means a planet outside our solar system, 9 00:00:21,510 --> 00:00:24,030 a planet that doesn't orbit our sun. 10 00:00:24,030 --> 00:00:25,860 Most orbit other stars, 11 00:00:25,860 --> 00:00:28,280 but some are just sunless wanders 12 00:00:28,280 --> 00:00:30,880 out in the space between the stars. 13 00:00:30,880 --> 00:00:34,160 Now, just the fact that they orbit other stars 14 00:00:34,160 --> 00:00:37,350 means exoplanets are extremely far away. 15 00:00:37,350 --> 00:00:39,266 Most are too far to even dream 16 00:00:39,266 --> 00:00:41,690 of sending space probes to explore them. 17 00:00:41,690 --> 00:00:45,440 So we study them in other ways, like with telescopes 18 00:00:45,440 --> 00:00:48,230 on the ground and in space that can observe 19 00:00:48,230 --> 00:00:52,810 these far off planets from right here in our solar system. 20 00:00:52,810 --> 00:00:54,520 Here's the thing about exoplanets. 21 00:00:54,520 --> 00:00:57,370 They are everywhere. 22 00:00:57,370 --> 00:01:00,150 In fact, from our observation so far, 23 00:01:00,150 --> 00:01:03,290 we know there are more planets than stars. 24 00:01:03,290 --> 00:01:05,670 So there's our solar system. 25 00:01:05,670 --> 00:01:07,600 Then there are all the billions 26 00:01:07,600 --> 00:01:10,440 of planetary systems in our galaxy, the Milky Way. 27 00:01:10,440 --> 00:01:13,730 Then there are all the billions of other galaxies. 28 00:01:13,730 --> 00:01:16,600 Basically, there are a lot of exoplanets out there. 29 00:01:16,600 --> 00:01:19,610 Each of the stars you see in the night sky is the sun 30 00:01:19,610 --> 00:01:21,980 for any planets that orbit around it. 31 00:01:21,980 --> 00:01:24,640 But not all stars are created equal. 32 00:01:24,640 --> 00:01:27,010 Bigger stars burn way brighter and hotter 33 00:01:27,010 --> 00:01:28,740 and don't last as long. 34 00:01:28,740 --> 00:01:31,410 Smaller, fainter stars like our sun 35 00:01:31,410 --> 00:01:34,090 and red dwarf stars last much longer. 36 00:01:34,090 --> 00:01:38,070 But even nice cool red dwarf stars can have powerful flares 37 00:01:38,070 --> 00:01:40,690 that blast their planets with radiation. 38 00:01:40,690 --> 00:01:42,680 We're still trying to understand which kinds 39 00:01:42,680 --> 00:01:45,590 of stars provide long lasting stable conditions 40 00:01:45,590 --> 00:01:47,760 that could allow life a chance to take hold 41 00:01:47,760 --> 00:01:50,230 and evolve like it did here on Earth. 42 00:01:50,230 --> 00:01:53,580 Exoplanets are super hard to see both because 43 00:01:53,580 --> 00:01:55,513 they're so far away and because 44 00:01:55,513 --> 00:01:58,440 they're so much fainter than their stars. 45 00:01:58,440 --> 00:02:01,210 But we've worked out some clever methods to detect them 46 00:02:01,210 --> 00:02:03,030 and even take pictures of some. 47 00:02:03,030 --> 00:02:05,090 So what can we observe? 48 00:02:05,090 --> 00:02:07,460 Well, for many, we can determine their size, 49 00:02:07,460 --> 00:02:09,330 their mass, how much they weigh, 50 00:02:09,330 --> 00:02:11,970 and how far away from their stars they orbit. 51 00:02:11,970 --> 00:02:14,230 From these and a few other clues, 52 00:02:14,230 --> 00:02:16,400 we can infer a bunch of other qualities 53 00:02:16,400 --> 00:02:19,290 like how hot or cold it might be on their surfaces 54 00:02:19,290 --> 00:02:21,320 or if they even have surfaces. 55 00:02:21,320 --> 00:02:24,360 We can tell that some are gas giants like Jupiter 56 00:02:24,360 --> 00:02:27,870 while others are like bigger bulkier versions of Earth. 57 00:02:27,870 --> 00:02:30,540 For some, we can determine they have atmospheres 58 00:02:30,540 --> 00:02:34,010 and even some of the gases in those atmospheres. 59 00:02:34,010 --> 00:02:37,320 Most exoplanets are very different from our planet. 60 00:02:37,320 --> 00:02:40,900 They have a lot of weird wild variety with gas giants 61 00:02:40,900 --> 00:02:44,100 much bigger than our own Jupiter and other planets 62 00:02:44,100 --> 00:02:48,870 with oceans of lava or rainy glass or even gemstone. 63 00:02:48,870 --> 00:02:51,310 Funny thing is looking at how they're arranged 64 00:02:51,310 --> 00:02:53,930 as families of planets, we don't see a lot 65 00:02:53,930 --> 00:02:57,150 of exoplanet systems that look like ours so far. 66 00:02:57,150 --> 00:02:59,510 Many are arranged quite differently. 67 00:02:59,510 --> 00:03:02,640 So we might actually be the weird ones. 68 00:03:02,640 --> 00:03:05,390 Some planets are closer to their stars. 69 00:03:05,390 --> 00:03:07,050 Some are super far. 70 00:03:07,050 --> 00:03:09,620 Some even orbit multiple stars. 71 00:03:09,620 --> 00:03:13,810 Imagine having two or three suns in the sky. 72 00:03:13,810 --> 00:03:16,680 So why do we study exoplanets? 73 00:03:16,680 --> 00:03:18,670 Well, our interest in finding worlds 74 00:03:18,670 --> 00:03:21,250 with life on them is a big factor. 75 00:03:21,250 --> 00:03:24,250 We want to know more about what makes a planet a place 76 00:03:24,250 --> 00:03:27,380 with all the right ingredients and conditions for life, 77 00:03:27,380 --> 00:03:30,440 what scientists refer to as habitability. 78 00:03:30,440 --> 00:03:31,590 How does it happen? 79 00:03:31,590 --> 00:03:33,010 How common is it? 80 00:03:33,010 --> 00:03:36,640 We think the most life-ready planets are the ones 81 00:03:36,640 --> 00:03:39,460 most similar to Earth with a range of qualities 82 00:03:39,460 --> 00:03:42,660 that include similar size and composition to our planet 83 00:03:42,660 --> 00:03:45,170 and being at the right distance from their stars 84 00:03:45,170 --> 00:03:47,320 to have liquid water on the surface. 85 00:03:47,320 --> 00:03:50,430 These qualities are really challenging to observe 86 00:03:50,430 --> 00:03:54,290 from so far away, but we're working on it. 87 00:03:54,290 --> 00:03:57,260 Exoplanets teach us a bunch of other things too. 88 00:03:57,260 --> 00:04:00,210 Studying other planetary systems helps us better 89 00:04:00,210 --> 00:04:03,080 understand the story of our own planet family 90 00:04:03,080 --> 00:04:04,980 including Earth. 91 00:04:04,980 --> 00:04:08,740 Scientists detected the first exoplanets in the 1990s. 92 00:04:08,740 --> 00:04:12,840 But now we're finding tons more, thousands so far. 93 00:04:12,840 --> 00:04:14,390 We're studying their atmospheres 94 00:04:14,390 --> 00:04:16,840 and even making weather maps for some. 95 00:04:16,840 --> 00:04:20,860 We're surveying exoplanets to understand all their variety. 96 00:04:20,860 --> 00:04:24,350 And the more we learn, the more it powers our curiosity, 97 00:04:24,350 --> 00:04:27,420 the more we want to explore exoplanets, 98 00:04:27,420 --> 00:04:30,063 planets outside our solar system.