1 00:00:00,640 --> 00:00:04,050 - [Narrator] We inhabit a little blue planet called Earth. 2 00:00:04,050 --> 00:00:07,240 Earth is habitable because it had the right conditions 3 00:00:07,240 --> 00:00:10,120 and ingredients to enable life as we know it 4 00:00:10,120 --> 00:00:12,250 to evolve and flourish. 5 00:00:12,250 --> 00:00:14,360 And one of the most important factors 6 00:00:14,360 --> 00:00:16,830 in making our blue planet habitable 7 00:00:16,830 --> 00:00:19,890 is the wet stuff itself, water. 8 00:00:19,890 --> 00:00:23,240 It's kind of extremely important for life. 9 00:00:23,240 --> 00:00:26,300 When it comes to the search for habitable exoplanets, 10 00:00:26,300 --> 00:00:28,870 planets outside our solar system, 11 00:00:28,870 --> 00:00:31,240 we think the ability to have liquid water 12 00:00:31,240 --> 00:00:35,140 on a planet's surface is just as important for those worlds. 13 00:00:35,140 --> 00:00:37,780 There's a handy concept astronomers use 14 00:00:37,780 --> 00:00:41,350 to help them figure out where to look around any given star 15 00:00:41,350 --> 00:00:45,450 for exoplanets that just might have the right stuff light. 16 00:00:45,450 --> 00:00:47,870 It's called the habitable zone. 17 00:00:47,870 --> 00:00:50,960 It's the distance from a star where a rocky planet 18 00:00:50,960 --> 00:00:55,090 with an atmosphere could have liquid water on its surface. 19 00:00:55,090 --> 00:00:58,260 In our solar system, the habitable zone extends 20 00:00:58,260 --> 00:01:03,060 from around the orbit of Venus to around the orbit of Mars. 21 00:01:03,060 --> 00:01:06,380 Earth happens to be nice and comfy in the middle. 22 00:01:06,380 --> 00:01:09,300 But it takes more than just a good location. 23 00:01:09,300 --> 00:01:13,130 Orbiting in the habitable zone does not guarantee a planet 24 00:01:13,130 --> 00:01:14,430 will be habitable. 25 00:01:14,430 --> 00:01:18,010 After all, the Moon is right here with us, 26 00:01:18,010 --> 00:01:20,290 but it's certainly not habitable. 27 00:01:20,290 --> 00:01:21,600 Sorry, Moon. 28 00:01:21,600 --> 00:01:23,670 The location of the habitable zone depends 29 00:01:23,670 --> 00:01:25,960 on how big and bright a star is. 30 00:01:25,960 --> 00:01:29,050 The nearest star to our sun, Proxima Centauri, 31 00:01:29,050 --> 00:01:32,440 has at least one planet in the habitable zone. 32 00:01:32,440 --> 00:01:36,730 But because Proxima is much smaller and dimmer than our sun, 33 00:01:36,730 --> 00:01:41,610 its habitable zone is way smaller and closer to the star. 34 00:01:41,610 --> 00:01:44,760 So every star has a habitable zone, 35 00:01:44,760 --> 00:01:47,820 but that doesn't mean there will be planets there. 36 00:01:47,820 --> 00:01:51,110 For example, the star known as Kepler-90 is similar 37 00:01:51,110 --> 00:01:54,490 to our sun and it too has eight planets, 38 00:01:54,490 --> 00:01:57,650 but they're all huddled super close to the star, 39 00:01:57,650 --> 00:02:00,020 well inside of the habitable zone. 40 00:02:00,020 --> 00:02:01,710 But the longer we look, 41 00:02:01,710 --> 00:02:04,060 the more likely it becomes that one day, 42 00:02:04,060 --> 00:02:07,220 we'll find another little blue water-covered planet 43 00:02:07,220 --> 00:02:10,050 right in its own comfy habitable zone. 44 00:02:10,050 --> 00:02:14,406 And that would be a planet worth a closer look, indeed. 45 00:02:14,406 --> 00:02:17,156 (playful music)