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These are the user uploaded subtitles that are being translated: 1 00:00:05,000 --> 00:00:07,298 Our solar system... 2 00:00:07,369 --> 00:00:09,360 8 planets and over 300 moons 3 00:00:09,438 --> 00:00:13,101 circling the Sun like clockwork. 4 00:00:13,175 --> 00:00:15,735 But it didn't start that way. 5 00:00:15,811 --> 00:00:20,271 Our solar system has a long history of violence. 6 00:00:20,349 --> 00:00:22,510 The solar system we see today 7 00:00:22,584 --> 00:00:26,645 is really just the final survivors of the early chaos. 8 00:00:26,722 --> 00:00:29,782 And in the future, that chaos will return. 9 00:00:29,858 --> 00:00:34,022 The entire house of cards that is our solar system 10 00:00:34,096 --> 00:00:35,563 will completely fall apart. 11 00:00:35,631 --> 00:00:37,929 From start to finish, 12 00:00:38,000 --> 00:00:40,969 this is how solar systems work. 13 00:00:56,285 --> 00:01:00,051 There are billions of stars in the Milky Way galaxy. 14 00:01:00,122 --> 00:01:02,556 One of them is our Sun. 15 00:01:07,196 --> 00:01:11,792 And around the Sun orbits a system of planets and moons... 16 00:01:11,867 --> 00:01:13,960 a solar system. 17 00:01:19,241 --> 00:01:23,678 Our solar system is clearly a precious planetary system. 18 00:01:23,745 --> 00:01:26,441 And it begs the question, 19 00:01:26,515 --> 00:01:30,042 are there other planetary systems like ours 20 00:01:30,118 --> 00:01:32,552 orbiting other stars? 21 00:01:32,621 --> 00:01:36,717 To find out, Marcy scans the skies with the Keck... 22 00:01:36,792 --> 00:01:39,989 one of the world's largest optical telescopes. 23 00:01:40,062 --> 00:01:44,761 Perched at 14,000 feet, on top of Mauna Kea in Hawaii, 24 00:01:44,833 --> 00:01:48,098 it hunts for new, distant solar systems. 25 00:01:52,341 --> 00:01:55,936 The marvelous reality is that our own Milky Way galaxy 26 00:01:56,011 --> 00:02:00,710 contains some 200 billion stars or so, 27 00:02:00,782 --> 00:02:04,218 and many of those stars have their own planetary systems. 28 00:02:07,289 --> 00:02:10,452 Our solar system, with its eight major planets, 29 00:02:10,525 --> 00:02:12,049 is not alone. 30 00:02:12,127 --> 00:02:15,528 There are other brethren planetary systems 31 00:02:15,597 --> 00:02:17,656 out there by the billions. 32 00:02:17,733 --> 00:02:21,760 Of course, astronomers hope to find another solar system 33 00:02:21,837 --> 00:02:25,273 with a planet like Earth, and they're off to a good start. 34 00:02:25,340 --> 00:02:27,570 So far, Marcy and other astronomers 35 00:02:27,643 --> 00:02:32,603 have discovered over 360 stars with orbiting planets. 36 00:02:32,681 --> 00:02:36,139 One of the exciting discoveries that we've made 37 00:02:36,218 --> 00:02:38,448 is that stars tend to be orbited 38 00:02:38,520 --> 00:02:39,953 not just by one planet 39 00:02:40,022 --> 00:02:43,583 but usually two, three, four, or a multitude of planets. 40 00:02:43,659 --> 00:02:45,627 Planets come in families, 41 00:02:45,694 --> 00:02:48,128 not unlike the family of planets 42 00:02:48,196 --> 00:02:50,960 we enjoy here around our own Sun. 43 00:02:53,669 --> 00:02:55,637 For the first time, 44 00:02:55,704 --> 00:02:58,298 scientists can study them in some detail. 45 00:02:58,373 --> 00:03:01,274 We can actually observe how planets heat up 46 00:03:01,343 --> 00:03:03,140 as they go around their sun. 47 00:03:03,211 --> 00:03:06,180 For example, we actually saw that one planet 48 00:03:06,248 --> 00:03:09,240 got hotter and colder as it orbited its star. 49 00:03:09,318 --> 00:03:11,445 And we realized that we were actually seeing 50 00:03:11,520 --> 00:03:12,817 the night side of the planet 51 00:03:12,888 --> 00:03:14,685 and then the day side of the planet. 52 00:03:14,756 --> 00:03:16,553 That was the temperature difference. 53 00:03:18,894 --> 00:03:22,022 We were observing sunrise and sunset on a planet 54 00:03:22,097 --> 00:03:23,655 in another solar system. 55 00:03:27,169 --> 00:03:30,195 But that planet is nothing like Earth, 56 00:03:30,272 --> 00:03:33,264 and most of these newly discovered solar systems 57 00:03:33,342 --> 00:03:34,900 are nothing like our own. 58 00:03:37,946 --> 00:03:41,382 Their planets are huge... much bigger than Jupiter. 59 00:03:44,453 --> 00:03:46,512 Some follow wild orbits, 60 00:03:46,588 --> 00:03:49,921 some orbit in the opposite direction, 61 00:03:49,992 --> 00:03:54,122 and some shoot billions of miles out into space, 62 00:03:54,196 --> 00:03:57,393 then dive back toward their star. 63 00:03:57,466 --> 00:04:00,094 A few orbit so close to the star, 64 00:04:00,168 --> 00:04:03,035 their surfaces vaporize. 65 00:04:03,105 --> 00:04:08,771 It's bizarre, at the least, if not completely frightening. 66 00:04:08,844 --> 00:04:12,075 Planetary systems offer a wide diversity 67 00:04:12,147 --> 00:04:15,014 of different architectures, sizes, 68 00:04:15,083 --> 00:04:17,847 masses of the planets, and so on, 69 00:04:17,919 --> 00:04:20,820 rendering our solar system just one type 70 00:04:20,889 --> 00:04:23,722 of a planetary system out of thousands. 71 00:04:23,792 --> 00:04:28,661 It could be that each and every solar system is a one-of-a-kind. 72 00:04:28,730 --> 00:04:32,291 But they all have one thing in common... 73 00:04:32,367 --> 00:04:36,098 each one begins with a star. 74 00:04:36,171 --> 00:04:41,609 First, a star is born in a cloud of dust and gas called a nebula. 75 00:04:41,676 --> 00:04:45,669 This is the Eagle nebula. 76 00:04:45,747 --> 00:04:48,841 These are the Pillars of Creation. 77 00:04:52,587 --> 00:04:56,023 And this is the Horsehead nebula, 78 00:04:56,091 --> 00:04:58,525 an enormous star nursery. 79 00:05:02,564 --> 00:05:05,931 What scientists have been trying to figure out 80 00:05:06,001 --> 00:05:09,937 is what triggers the star-making process. 81 00:05:10,005 --> 00:05:14,465 One possibility is that a nearby supernova explosion 82 00:05:14,543 --> 00:05:16,568 took place... 83 00:05:22,017 --> 00:05:24,076 ...and rammed into 84 00:05:24,152 --> 00:05:27,588 this otherwise innocuous molecular cloud... 85 00:05:29,558 --> 00:05:31,355 ...smushing it, smashing it, 86 00:05:31,426 --> 00:05:34,793 compressing it down so that gravity could take over. 87 00:05:42,504 --> 00:05:44,802 Once gravity takes over, 88 00:05:44,873 --> 00:05:46,534 the cloud begins to shrink, 89 00:05:46,608 --> 00:05:51,636 sucking in more and more gas into a giant, spinning disk. 90 00:05:51,713 --> 00:05:55,308 Gravity at the center crushes everything 91 00:05:55,383 --> 00:05:57,908 into a dense, superhot ball... 92 00:06:02,491 --> 00:06:04,925 ...that gets hotter and hotter. 93 00:06:07,429 --> 00:06:11,525 Suddenly, atoms in the gas begin to fuse, 94 00:06:11,600 --> 00:06:14,160 and the star ignites. 95 00:06:21,209 --> 00:06:23,609 The leftover dust and debris 96 00:06:23,678 --> 00:06:27,409 forms a disk spinning around the new star. 97 00:06:27,482 --> 00:06:29,882 It contains the seeds 98 00:06:29,951 --> 00:06:33,478 of planets, moons, comets, 99 00:06:33,555 --> 00:06:35,921 and asteroids. 100 00:06:39,394 --> 00:06:42,488 In 2001, the Hubble space telescope 101 00:06:42,564 --> 00:06:44,964 was scanning the Orion nebula 102 00:06:45,033 --> 00:06:48,127 and took this image of a young star 103 00:06:48,203 --> 00:06:51,195 surrounded by one of these disks. 104 00:06:51,273 --> 00:06:55,369 It's a picture of a solar system being born. 105 00:06:55,443 --> 00:06:58,435 Whenever I look at these beautiful pictures of nebulae, 106 00:06:58,513 --> 00:07:00,242 the thing that really gets me 107 00:07:00,315 --> 00:07:03,682 is that these are baby pictures of our own solar system. 108 00:07:03,752 --> 00:07:05,276 We looked like that once. 109 00:07:05,353 --> 00:07:08,880 These fuzzy images have opened the door 110 00:07:08,957 --> 00:07:12,154 to understanding how planetary systems form. 111 00:07:12,227 --> 00:07:15,162 We have this marvelous first-ever tool 112 00:07:15,230 --> 00:07:18,290 by which we can take pictures of planets 113 00:07:18,366 --> 00:07:21,460 caught in the act of formation. 114 00:07:21,536 --> 00:07:24,232 It's quite a marvelous opportunity 115 00:07:24,306 --> 00:07:28,208 for us to see the planets around other stars forming, 116 00:07:28,276 --> 00:07:30,005 thereby giving us a glimpse 117 00:07:30,078 --> 00:07:33,570 as to how our own solar system must surely have formed. 118 00:07:36,451 --> 00:07:39,978 Scientists understood where stars come from 119 00:07:40,055 --> 00:07:43,718 but not how planets grow from the disk of gas and dust. 120 00:07:43,792 --> 00:07:46,488 The answer was discovered by accident 121 00:07:46,561 --> 00:07:49,394 aboard the International Space Station. 122 00:07:51,233 --> 00:07:52,757 Astronaut Don Pettit 123 00:07:52,834 --> 00:07:56,326 was experimenting with grains of sugar and salt 124 00:07:56,404 --> 00:07:58,634 in the weightlessness of space. 125 00:07:58,707 --> 00:08:01,699 Stanley Love was watching from Mission Control 126 00:08:01,776 --> 00:08:04,267 when Pettit stumbled onto the process 127 00:08:04,346 --> 00:08:08,282 of how planets form from cosmic dust. 128 00:08:08,350 --> 00:08:10,011 Well, one of Don's 129 00:08:10,085 --> 00:08:12,485 Saturday-morning science projects 130 00:08:12,554 --> 00:08:15,580 was to take the bags that we store drinks in 131 00:08:15,657 --> 00:08:19,525 and he put other stuff in it, like salt and sugar, 132 00:08:19,594 --> 00:08:22,825 and there was one bag that he just left the coffee powder in. 133 00:08:22,897 --> 00:08:24,626 Then he inflated the bags, 134 00:08:24,699 --> 00:08:27,031 and with these particles in them, 135 00:08:27,102 --> 00:08:30,196 noticed that the particles would just clump up immediately. 136 00:08:30,272 --> 00:08:31,671 They make a little dust bunny. 137 00:08:31,740 --> 00:08:34,038 We'll be spending some time watching that. 138 00:08:34,109 --> 00:08:36,441 I said, "Don, this is incredible! 139 00:08:36,511 --> 00:08:40,572 You've just solved a 40-year-old problem in planetary science!" 140 00:08:40,649 --> 00:08:44,676 Astronaut Pettit had discovered something big. 141 00:08:44,753 --> 00:08:48,280 In the zero gravity of space, 142 00:08:48,356 --> 00:08:51,553 particles of dust don't float apart, 143 00:08:51,626 --> 00:08:53,355 they clump together. 144 00:08:53,428 --> 00:08:57,888 This is how mighty planets are made from cosmic dust. 145 00:08:57,966 --> 00:09:02,027 The dust particles would collide and stick and grow 146 00:09:02,103 --> 00:09:04,469 into ever larger dust particles 147 00:09:04,539 --> 00:09:07,337 and eventually rocks and eventually boulders. 148 00:09:09,477 --> 00:09:11,638 The bigger the boulder, 149 00:09:11,713 --> 00:09:13,180 the more gravity it has. 150 00:09:13,248 --> 00:09:17,685 It begins to eat up everything around it and grows bigger. 151 00:09:22,691 --> 00:09:25,626 It becomes larger, heavier, 152 00:09:25,694 --> 00:09:28,527 and consumes bigger and bigger rocks. 153 00:09:36,104 --> 00:09:40,063 Eventually, some of these rocks grow into planets. 154 00:09:47,015 --> 00:09:50,075 This is what happened in our solar system 155 00:09:50,151 --> 00:09:52,642 4.6 billion years ago. 156 00:10:00,829 --> 00:10:03,491 There were about 100 young planets 157 00:10:03,565 --> 00:10:06,329 all orbiting the new Sun. 158 00:10:10,472 --> 00:10:13,498 Collisions were inevitable. 159 00:10:22,217 --> 00:10:26,881 At the beginning, solar systems are violent. 160 00:10:26,955 --> 00:10:29,856 Ours was no different. 161 00:10:31,359 --> 00:10:36,456 It began with about 100 small, new planets. 162 00:10:36,531 --> 00:10:40,160 So, how did it go from 100 small planets 163 00:10:40,235 --> 00:10:43,261 to the 8 major planets of today? 164 00:10:43,338 --> 00:10:44,771 We got the answer 165 00:10:44,839 --> 00:10:48,775 by studying the evolution of other solar systems. 166 00:10:48,843 --> 00:10:52,335 We see solar systems forming planets, 167 00:10:52,414 --> 00:10:55,906 and all of a sudden, they had these giant disks around them. 168 00:10:55,984 --> 00:10:58,475 Those disks must be from huge collisions. 169 00:11:04,025 --> 00:11:07,552 If planets are smashing together in other systems, 170 00:11:07,629 --> 00:11:10,359 they probably smashed together in our own. 171 00:11:16,504 --> 00:11:19,098 We now know that all solar systems do this 172 00:11:19,174 --> 00:11:20,607 before they settle down. 173 00:11:23,845 --> 00:11:25,870 It's the way they're built. 174 00:11:33,154 --> 00:11:36,317 The nice, neat, orderly solar system that we see today 175 00:11:36,391 --> 00:11:38,052 has not always been the case. 176 00:11:38,126 --> 00:11:40,424 In the early days... a few million years, basically, 177 00:11:40,495 --> 00:11:42,156 after the planets started forming... 178 00:11:42,230 --> 00:11:46,564 there were dozens, maybe even hundreds of these young planets 179 00:11:46,634 --> 00:11:48,932 that were bouncing around the solar system. 180 00:11:55,210 --> 00:11:57,303 They would smash into each other. 181 00:11:57,378 --> 00:12:00,745 Sometimes they would collect and get to be bigger planets. 182 00:12:00,815 --> 00:12:03,249 Sometimes they would smash each other 183 00:12:03,318 --> 00:12:04,945 and turn into little bits. 184 00:12:08,590 --> 00:12:11,991 There was heavy traffic in the new solar system, 185 00:12:12,060 --> 00:12:15,223 objects of all sizes. 186 00:12:15,296 --> 00:12:18,163 They were bound to collide. 187 00:12:20,268 --> 00:12:22,964 Some of the planets grew larger, 188 00:12:23,037 --> 00:12:25,267 and so did the collisions. 189 00:12:25,340 --> 00:12:27,137 I like to try to imagine what it would have been like 190 00:12:27,208 --> 00:12:28,505 to actually stand on the early Earth 191 00:12:28,576 --> 00:12:30,134 and look up into the night sky. 192 00:12:30,211 --> 00:12:32,111 Things would have looked different. 193 00:12:36,885 --> 00:12:39,877 Planet hit planet. 194 00:12:39,954 --> 00:12:43,287 Only the largest survive. 195 00:12:43,358 --> 00:12:46,987 The rest are smashed to pieces. 196 00:12:52,467 --> 00:12:55,925 Something very large struck the young planet Mercury. 197 00:12:57,739 --> 00:12:59,639 It blew the crust off 198 00:12:59,707 --> 00:13:02,972 and left behind just the iron core. 199 00:13:10,885 --> 00:13:14,013 And the young planet Earth did not escape, either. 200 00:13:14,088 --> 00:13:16,249 A planet-sized object 201 00:13:16,324 --> 00:13:18,519 slammed into the Earth off-center 202 00:13:18,593 --> 00:13:21,994 and blew a huge amount of the Earth's crust into space. 203 00:13:35,910 --> 00:13:38,674 The debris circled around the Earth... 204 00:13:38,746 --> 00:13:42,204 And eventually coalesced to become the moon. 205 00:14:00,668 --> 00:14:04,798 This demolition derby raged for 500 million years. 206 00:14:04,872 --> 00:14:06,339 What we see now... 207 00:14:06,407 --> 00:14:08,307 Mars and Earth and Mercury and Venus... 208 00:14:08,376 --> 00:14:10,367 these planets in the inner solar system... 209 00:14:10,445 --> 00:14:12,037 they're the survivors. 210 00:14:12,113 --> 00:14:15,981 They're the ones who lived through these giant impacts. 211 00:14:16,050 --> 00:14:19,019 Debris from smashed infant planets 212 00:14:19,087 --> 00:14:21,146 ended up in the Asteroid Belt... 213 00:14:21,222 --> 00:14:24,851 a junkyard of rocky, leftover planet parts. 214 00:14:29,697 --> 00:14:31,562 Most of the big impacts happened 215 00:14:31,633 --> 00:14:33,191 in the inner solar system. 216 00:14:35,737 --> 00:14:39,195 But one of the outer planets, Uranus, 217 00:14:39,273 --> 00:14:42,470 was also hit and knocked on its side. 218 00:14:47,015 --> 00:14:51,111 A mystery, since the outer planets formed mostly from gas 219 00:14:51,185 --> 00:14:55,383 and largely escaped the violence of the inner solar system. 220 00:14:55,456 --> 00:14:59,222 These rocky cores formed. The gas accumulated around them. 221 00:14:59,293 --> 00:15:02,956 This process actually happened very rapidly, 222 00:15:03,031 --> 00:15:07,195 in astronomical terms, in only about a million years. 223 00:15:09,504 --> 00:15:12,769 And those are the giant planets we see today. 224 00:15:20,214 --> 00:15:23,877 Beyond the gas giants, Jupiter and Saturn, 225 00:15:23,951 --> 00:15:25,612 are Uranus and Neptune. 226 00:15:28,122 --> 00:15:32,286 These two are made of gas and ice. 227 00:15:42,603 --> 00:15:45,697 And beyond them lies the Kuiper Belt, 228 00:15:45,773 --> 00:15:49,539 a band of orbiting icy rocks and dwarf planets. 229 00:15:51,746 --> 00:15:55,876 We used to think that one Kuiper Belt object, Pluto, 230 00:15:55,950 --> 00:15:57,679 was the ninth planet. 231 00:16:00,822 --> 00:16:05,589 We've since decided that Pluto is, in fact, a dwarf planet... 232 00:16:05,660 --> 00:16:08,925 one of many orbiting more than 3 billion miles 233 00:16:08,996 --> 00:16:11,556 from the Sun. 234 00:16:11,632 --> 00:16:13,896 There are millions of these things out there. 235 00:16:16,671 --> 00:16:20,266 They're so far away and so faint that they're hard to see. 236 00:16:20,341 --> 00:16:23,572 These are left over from the formation 237 00:16:23,644 --> 00:16:25,271 of the solar system itself. 238 00:16:29,717 --> 00:16:33,744 The Kuiper Belt marks the edge of the Sun's influence. 239 00:16:33,821 --> 00:16:36,312 There is no warmth and not much light 240 00:16:36,390 --> 00:16:38,551 way out here. 241 00:16:41,362 --> 00:16:45,526 But the Kuiper Belt is not the end of our solar system. 242 00:16:45,600 --> 00:16:48,535 A shell of trillions of icy objects, 243 00:16:48,603 --> 00:16:51,970 called the Oort Cloud, is even further out. 244 00:16:54,442 --> 00:16:56,876 The Oort Cloud is so far away, 245 00:16:56,944 --> 00:17:01,040 light from the Sun takes a full year to reach it. 246 00:17:07,155 --> 00:17:11,387 From the cold outer edge to the hot star at the center, 247 00:17:11,459 --> 00:17:13,757 our solar system seems stable. 248 00:17:16,464 --> 00:17:20,491 Everything appears orderly and in its proper place. 249 00:17:23,905 --> 00:17:26,396 But something isn't right. 250 00:17:28,409 --> 00:17:31,867 Uranus and Neptune are in the wrong place. 251 00:17:41,122 --> 00:17:42,612 The planets of the solar system 252 00:17:42,690 --> 00:17:46,217 grew from a giant disk of dust and gas... 253 00:17:46,294 --> 00:17:51,061 the four inner rocky planets close to the Sun, 254 00:17:51,132 --> 00:17:54,329 and the giant gas planets farther out. 255 00:17:56,704 --> 00:18:00,140 But Uranus and Neptune seem out of place. 256 00:18:04,612 --> 00:18:07,547 There wasn't enough stuff this far from the Sun 257 00:18:07,615 --> 00:18:10,175 to make such big planets. 258 00:18:10,251 --> 00:18:13,709 So, what are they doing out here? 259 00:18:13,788 --> 00:18:17,121 That led us to a theory where Uranus and Neptune 260 00:18:17,191 --> 00:18:19,091 formed very close to the Sun 261 00:18:19,160 --> 00:18:22,186 and were actually violently pushed outward. 262 00:18:26,200 --> 00:18:29,260 So, what could shove two massive planets 263 00:18:29,337 --> 00:18:31,134 clear across the solar system? 264 00:18:31,205 --> 00:18:33,036 We believe that Jupiter and Saturn 265 00:18:33,107 --> 00:18:34,870 got into this funny configuration 266 00:18:34,942 --> 00:18:38,309 where Jupiter went around the Sun exactly twice 267 00:18:38,379 --> 00:18:41,906 every time Saturn went around once. 268 00:18:41,983 --> 00:18:44,508 And that configuration 269 00:18:44,585 --> 00:18:47,110 allows the planets to kick each other more 270 00:18:47,188 --> 00:18:48,655 as they pass one another, 271 00:18:48,723 --> 00:18:51,351 and that caused the whole system to go nuts. 272 00:18:54,929 --> 00:18:58,296 The combined gravity of Jupiter and Saturn 273 00:18:58,366 --> 00:19:00,664 yanked hard on Uranus and Neptune 274 00:19:00,735 --> 00:19:04,569 and pulled them away from the Sun. 275 00:19:04,639 --> 00:19:06,129 As they moved outward, 276 00:19:06,207 --> 00:19:09,973 the two planets plowed through asteroids and other debris 277 00:19:10,044 --> 00:19:13,411 left over from the formation of the other planets. 278 00:19:27,094 --> 00:19:31,258 This sent billions of chunks of rock flying in all directions. 279 00:19:38,673 --> 00:19:42,268 Some rocks formed the Asteroid Belt. 280 00:19:42,343 --> 00:19:47,804 But most were thrown out to create the vast Kuiper Belt. 281 00:19:51,953 --> 00:19:54,547 The analogy I like to use is, think of a bowling match. 282 00:19:54,622 --> 00:19:57,921 And the bowling balls go down, and the pins just go kaplooey. 283 00:19:57,992 --> 00:20:00,085 That's what happened in the outer part of the solar system. 284 00:20:03,230 --> 00:20:05,289 The gravitational push 285 00:20:05,366 --> 00:20:07,766 from Jupiter and Saturn was so strong, 286 00:20:07,835 --> 00:20:10,998 it may have reversed the position of the two planets. 287 00:20:11,072 --> 00:20:14,166 It looks like it's possible that Uranus and Neptune 288 00:20:14,241 --> 00:20:16,675 actually formed in the opposite order. 289 00:20:16,744 --> 00:20:19,269 Neptune was closer to the Sun than Uranus, 290 00:20:19,347 --> 00:20:21,577 but these gravitational interactions 291 00:20:21,649 --> 00:20:23,708 actually swapped their positions. 292 00:20:28,089 --> 00:20:30,080 It was the blizzard of rocks 293 00:20:30,157 --> 00:20:31,715 that Uranus and Neptune ran into 294 00:20:31,792 --> 00:20:33,623 that acted like a brake 295 00:20:33,694 --> 00:20:37,460 and slowed them into the orbits they keep today. 296 00:20:39,400 --> 00:20:43,029 The idea of planets changing orbits may sound crazy, 297 00:20:43,104 --> 00:20:47,063 but scientists have seen it happen in other solar systems. 298 00:20:47,141 --> 00:20:52,807 So now they think it's just the way all solar systems work. 299 00:20:52,880 --> 00:20:55,371 When we look out into the galaxy 300 00:20:55,449 --> 00:20:58,714 and look at planets around other stars, 301 00:20:58,786 --> 00:21:00,117 we see lots of evidence 302 00:21:00,187 --> 00:21:02,747 of those kind of events happening elsewhere. 303 00:21:05,659 --> 00:21:07,058 In one far-off system, 304 00:21:07,128 --> 00:21:08,618 scientists have spotted 305 00:21:08,696 --> 00:21:11,290 something completely off the charts... 306 00:21:11,365 --> 00:21:13,458 a planet as big as Jupiter, 307 00:21:13,534 --> 00:21:17,163 but it's not acting like the Jupiter we know. 308 00:21:19,373 --> 00:21:21,102 Some of these giant planets 309 00:21:21,175 --> 00:21:24,338 are found orbiting very close to their host star, 310 00:21:24,412 --> 00:21:26,710 taking only days... a few days... 311 00:21:26,781 --> 00:21:28,806 to go around the host star. 312 00:21:31,385 --> 00:21:34,183 Obviously, such close-in Jupiters 313 00:21:34,255 --> 00:21:36,450 are blowtorched by the star, 314 00:21:36,524 --> 00:21:39,118 raising the temperature of the planet 315 00:21:39,193 --> 00:21:41,787 up to 1,000 or 2,000 degrees Celsius. 316 00:21:41,862 --> 00:21:46,663 There's no way a gas giant could have formed this close in. 317 00:21:46,734 --> 00:21:48,167 It's way too hot. 318 00:21:48,235 --> 00:21:52,535 The only explanation is that it must have formed out there 319 00:21:52,606 --> 00:21:55,370 and then moved in here. 320 00:22:02,149 --> 00:22:04,379 The same thing could have happened 321 00:22:04,452 --> 00:22:05,919 in our own solar system. 322 00:22:08,089 --> 00:22:11,889 Scientists have found large amounts of the element lithium 323 00:22:11,959 --> 00:22:13,688 on the surface of the Sun. 324 00:22:17,498 --> 00:22:20,763 Lithium doesn't normally exist in stars, 325 00:22:20,835 --> 00:22:23,201 but it is found in gas planets. 326 00:22:26,907 --> 00:22:29,467 Maybe there was another gas giant 327 00:22:29,543 --> 00:22:31,204 in our own solar system 328 00:22:31,278 --> 00:22:34,406 that spiraled in and crashed into the Sun. 329 00:22:34,482 --> 00:22:37,280 That would explain how the lithium got there. 330 00:22:48,162 --> 00:22:49,925 Something very violent happened. 331 00:22:52,733 --> 00:22:55,224 Could it have been one of these Jupiter-size planets 332 00:22:55,302 --> 00:22:57,395 getting thrown in toward the Sun long ago? 333 00:22:57,471 --> 00:23:00,304 In the beginning, 334 00:23:00,374 --> 00:23:03,605 solar systems are violent and messy, 335 00:23:03,677 --> 00:23:08,410 but, over time, they settle down and become more stable. 336 00:23:08,482 --> 00:23:11,246 But stability is an illusion. 337 00:23:11,318 --> 00:23:13,445 Any planet in the solar system 338 00:23:13,521 --> 00:23:18,015 is always in danger of total annihilation. 339 00:23:23,397 --> 00:23:25,194 There are all kinds of solar systems 340 00:23:25,266 --> 00:23:27,029 in the Milky Way galaxy. 341 00:23:27,101 --> 00:23:30,593 Most seem strange compared to our own. 342 00:23:30,671 --> 00:23:33,834 Some planets follow crazy orbits. 343 00:23:33,908 --> 00:23:37,173 Some smash into each other. 344 00:23:43,050 --> 00:23:46,247 Others dive into their stars. 345 00:23:53,961 --> 00:23:57,761 So, why are the orbits of our own planets 346 00:23:57,831 --> 00:23:59,856 so regular and stable? 347 00:23:59,934 --> 00:24:03,199 Well, that's because all the planets have motion left over 348 00:24:03,270 --> 00:24:05,602 from the formation of the solar system. 349 00:24:05,673 --> 00:24:08,369 When the nebula collapsed around the Sun, 350 00:24:08,442 --> 00:24:11,878 as the Sun was forming, there was an intrinsic motion, 351 00:24:11,946 --> 00:24:14,380 and that gave our planet a velocity. 352 00:24:14,448 --> 00:24:18,214 Literally, we are falling freely toward the Sun at all times, 353 00:24:18,285 --> 00:24:21,083 but we're going so fast, we keep missing it. 354 00:24:21,155 --> 00:24:22,679 That's what an orbit is. 355 00:24:26,594 --> 00:24:28,755 Think of a merry-go-round. 356 00:24:28,829 --> 00:24:30,126 The faster it spins, 357 00:24:30,197 --> 00:24:33,394 the farther and farther you're thrown from the center. 358 00:24:33,467 --> 00:24:35,765 When it slows down, 359 00:24:35,836 --> 00:24:39,738 you lose momentum and fall back inwards. 360 00:24:42,109 --> 00:24:44,907 It's something like that with planets. 361 00:24:44,979 --> 00:24:49,678 The disk that gave birth to the planets was spinning, 362 00:24:49,750 --> 00:24:52,184 and the momentum left over from that 363 00:24:52,253 --> 00:24:55,051 keeps everything going around to this day. 364 00:24:57,524 --> 00:25:00,254 Moving at 66,000 miles an hour, 365 00:25:00,327 --> 00:25:03,228 the Earth takes one year to orbit the Sun. 366 00:25:03,297 --> 00:25:06,528 Planets farther from the Sun have bigger orbits, 367 00:25:06,600 --> 00:25:09,797 move slower, and take longer. 368 00:25:09,870 --> 00:25:14,170 Saturn orbits the Sun once every 29 years. 369 00:25:16,910 --> 00:25:21,745 Neptune takes 164 years. 370 00:25:21,815 --> 00:25:26,081 Each planet stays on a precise path around the Sun, 371 00:25:26,153 --> 00:25:28,781 and for us, that's a good thing. 372 00:25:30,791 --> 00:25:34,420 Our solar system has a somewhat fortunate 373 00:25:34,495 --> 00:25:36,224 spacing of the planets, 374 00:25:36,297 --> 00:25:38,492 with nearly circular orbits, 375 00:25:38,565 --> 00:25:41,591 which keeps the whole house of cards 376 00:25:41,669 --> 00:25:45,196 from falling apart, crumbling, scattering to the wind. 377 00:25:51,078 --> 00:25:53,239 If our solar system did not have 378 00:25:53,314 --> 00:25:56,340 nice, neat, stable, nearly circular orbits, 379 00:25:56,417 --> 00:25:57,884 the Earth wouldn't be here 380 00:25:57,951 --> 00:26:00,317 and we wouldn't be here talking about it. 381 00:26:05,125 --> 00:26:08,253 The planets are on safe, stable orbits... 382 00:26:10,831 --> 00:26:13,959 ...but billions of comets and asteroids are not. 383 00:26:18,439 --> 00:26:22,899 Many come streaking into the inner solar system. 384 00:26:22,976 --> 00:26:26,036 And when they do, watch out. 385 00:26:34,621 --> 00:26:38,352 The meteor crater which we see here today 386 00:26:38,425 --> 00:26:42,384 formed as a result of a 150-foot rocky iron object 387 00:26:42,463 --> 00:26:45,523 coming in and slamming into the Earth 388 00:26:45,599 --> 00:26:47,590 roughly 50,000 years ago. 389 00:26:47,668 --> 00:26:53,038 Some of the objects coming our way can be much bigger. 390 00:26:53,107 --> 00:26:54,904 Look at the moon. 391 00:26:54,975 --> 00:26:58,968 It's covered with large impact craters. 392 00:26:59,046 --> 00:27:02,345 Earth has been hit, too... a lot. 393 00:27:07,955 --> 00:27:09,946 But the craters have eroded. 394 00:27:11,625 --> 00:27:15,425 We know that a huge asteroid smashed into the Earth, 395 00:27:15,496 --> 00:27:18,932 off the coast of Mexico, 65 million years ago. 396 00:27:18,999 --> 00:27:22,730 It was going 45,000 miles an hour, 397 00:27:22,803 --> 00:27:24,532 and when it hit, 398 00:27:24,605 --> 00:27:28,371 it released more energy than 5 billion Hiroshima bombs. 399 00:28:02,643 --> 00:28:06,579 It wiped out 70% of life on Earth. 400 00:28:13,053 --> 00:28:17,615 A few more impacts like that could destroy all life on Earth. 401 00:28:17,691 --> 00:28:22,128 But, believe it or not, Earth has a giant bodyguard. 402 00:28:24,665 --> 00:28:26,826 Jupiter is more than just another pretty face 403 00:28:26,900 --> 00:28:28,094 through the telescope. 404 00:28:28,168 --> 00:28:30,363 It's actually really important for life on Earth. 405 00:28:30,437 --> 00:28:31,927 Jupiter's gravity is so huge 406 00:28:32,005 --> 00:28:34,906 and it's just in the right place in the solar system, 407 00:28:34,975 --> 00:28:37,170 that it protects the Earth from comets 408 00:28:37,244 --> 00:28:39,474 that come from deep in the solar system 409 00:28:39,546 --> 00:28:44,108 and swing by the Sun and could possibly hit the Earth. 410 00:28:44,184 --> 00:28:46,414 Jupiter plays the role 411 00:28:46,487 --> 00:28:49,422 of the biggest baseball bat in the solar system. 412 00:28:49,490 --> 00:28:50,889 As these comets come by, 413 00:28:50,958 --> 00:28:54,394 most of them get knocked out of the solar system by Jupiter. 414 00:28:57,397 --> 00:28:58,887 In 1994, 415 00:28:58,966 --> 00:29:03,562 comet Shoemaker-Levy 9 raced toward the inner solar system. 416 00:29:06,273 --> 00:29:08,741 But it never got past Jupiter. 417 00:29:11,445 --> 00:29:14,881 Astronomers watched as Jupiter tore it to pieces 418 00:29:14,948 --> 00:29:18,679 and dragged its remains down to the planet's surface. 419 00:29:21,688 --> 00:29:23,588 We have seen comets smash into Jupiter, 420 00:29:23,657 --> 00:29:26,023 creating fireballs that were bigger than the Earth. 421 00:29:31,899 --> 00:29:34,527 They were the biggest explosions 422 00:29:34,601 --> 00:29:36,398 ever seen in our solar system. 423 00:29:39,973 --> 00:29:42,407 Had that comet hit us, 424 00:29:42,476 --> 00:29:43,966 it would have resurfaced the planet. 425 00:29:44,044 --> 00:29:45,875 It would have been the end of life as we know it. 426 00:29:45,946 --> 00:29:47,072 If Jupiter wasn't there, 427 00:29:47,147 --> 00:29:49,445 we believe that the impact rate on the Earth 428 00:29:49,516 --> 00:29:53,350 would be something like 1,000 times more than we see today. 429 00:30:01,261 --> 00:30:04,753 Lucky for us, Earth has the perfect orbit. 430 00:30:06,366 --> 00:30:09,858 Jupiter protects us from asteroids and comets. 431 00:30:12,739 --> 00:30:15,401 We're close enough to the Sun for liquid water 432 00:30:15,475 --> 00:30:18,501 but not so close that it boils away. 433 00:30:18,579 --> 00:30:23,380 It's just the right combination for life. 434 00:30:25,819 --> 00:30:27,081 Question is, 435 00:30:27,154 --> 00:30:29,987 if our solar system could create the perfect conditions, 436 00:30:30,057 --> 00:30:32,355 could other solar systems do it, too? 437 00:30:34,027 --> 00:30:37,121 Planet hunters have spotted a solar system 438 00:30:37,197 --> 00:30:38,687 20 light-years away, 439 00:30:38,765 --> 00:30:41,700 and it has a planet just the right size 440 00:30:41,768 --> 00:30:43,736 in just the right place. 441 00:30:49,409 --> 00:30:52,606 Astronomers around the world are looking for new planets 442 00:30:52,679 --> 00:30:55,512 in distant solar systems. 443 00:30:57,618 --> 00:31:01,486 So far, they've discovered more than 420. 444 00:31:07,527 --> 00:31:10,519 Most are huge gas giants, like Jupiter... 445 00:31:14,701 --> 00:31:17,602 ...but they're either very close to the star 446 00:31:17,671 --> 00:31:19,639 or much farther away. 447 00:31:27,714 --> 00:31:32,378 Then, in 2005, astronomers made an exciting discovery. 448 00:31:35,889 --> 00:31:40,519 They detected a solar system with rocky planets like our own. 449 00:31:43,497 --> 00:31:49,197 These planets orbit a star called Gliese 581. 450 00:31:49,269 --> 00:31:52,705 This star, Gliese 581, and its 4 planets 451 00:31:52,773 --> 00:31:56,539 is, frankly, quite bizarre relative to our solar system. 452 00:31:56,610 --> 00:31:59,773 The four planets we know of 453 00:31:59,846 --> 00:32:02,508 all orbit very close to the host star, 454 00:32:02,582 --> 00:32:04,675 all four of them orbiting closer 455 00:32:04,751 --> 00:32:07,743 than the planet Mercury, our closest planet, 456 00:32:07,821 --> 00:32:08,913 orbits the Sun. 457 00:32:13,760 --> 00:32:16,593 But Gliese 581 is a small star. 458 00:32:16,663 --> 00:32:18,460 It doesn't burn as brightly 459 00:32:18,532 --> 00:32:21,092 or give off as much heat as our Sun, 460 00:32:21,168 --> 00:32:24,467 so the planets can orbit much closer 461 00:32:24,538 --> 00:32:26,631 without being vaporized. 462 00:32:26,707 --> 00:32:30,837 We know of four planets going around this star, 463 00:32:30,911 --> 00:32:33,641 and a few of them are quite interesting. 464 00:32:33,714 --> 00:32:36,979 There's one that's only about twice the mass of Earth. 465 00:32:37,050 --> 00:32:39,814 Now, that particular one is very close to the star. 466 00:32:39,886 --> 00:32:42,252 It's probably very hot... too hot for life. 467 00:32:42,322 --> 00:32:43,516 But there's another one, 468 00:32:43,590 --> 00:32:45,683 about eight times the mass of the Earth, 469 00:32:45,759 --> 00:32:48,125 which is getting far enough away from the star 470 00:32:48,195 --> 00:32:50,220 that it might be in the habitable zone. 471 00:32:50,297 --> 00:32:52,356 Like Earth, 472 00:32:52,432 --> 00:32:56,300 this planet orbits at a distance where water is a liquid. 473 00:32:59,072 --> 00:33:03,873 And where there's liquid water, there could be oceans and life. 474 00:33:18,859 --> 00:33:23,262 In March 2009, NASA launched the Kepler Space Telescope. 475 00:33:23,330 --> 00:33:24,558 Its mission... 476 00:33:24,631 --> 00:33:27,862 to search for planets similar to our own 477 00:33:27,934 --> 00:33:30,459 in new solar systems. 478 00:33:32,773 --> 00:33:35,765 We may find planets that have methane atmospheres... 479 00:33:41,782 --> 00:33:44,148 ...that have ammonia atmospheres. 480 00:33:47,988 --> 00:33:51,549 We may find planets that are covered in heavy organics... 481 00:33:53,426 --> 00:33:55,724 ...a tarlike material. 482 00:33:58,832 --> 00:34:01,596 We may find some that are covered by water. 483 00:34:04,504 --> 00:34:06,699 I think one of the glorious quests here 484 00:34:06,773 --> 00:34:09,003 in the next decade or two 485 00:34:09,075 --> 00:34:11,873 is to learn the full diversity 486 00:34:11,945 --> 00:34:13,845 of the family of Earth-like planets 487 00:34:13,914 --> 00:34:15,905 that may be out there in the universe. 488 00:34:20,320 --> 00:34:21,719 With Kepler, 489 00:34:21,788 --> 00:34:24,416 astronomers expect to discover hundreds, 490 00:34:24,491 --> 00:34:27,153 possibly thousands, of new solar systems. 491 00:34:31,298 --> 00:34:34,199 Think about our own Milky Way galaxy. 492 00:34:34,267 --> 00:34:38,761 The galaxy has roughly 500 billion to a trillion stars. 493 00:34:38,839 --> 00:34:43,742 Some fairly large percentage of that have planets. 494 00:34:43,810 --> 00:34:46,745 Now, think about how many galaxies we know of. 495 00:34:46,813 --> 00:34:49,714 We certainly haven't found all the galaxies 496 00:34:49,783 --> 00:34:51,114 in the universe yet. 497 00:34:51,184 --> 00:34:53,744 But the ones we can take a picture of 498 00:34:53,820 --> 00:34:56,482 are actually about 60 billion galaxies. 499 00:35:00,060 --> 00:35:03,188 When you look up at the night sky tonight, 500 00:35:03,263 --> 00:35:05,823 simply in the path of your sight, 501 00:35:05,899 --> 00:35:09,357 even if you can't see it, 502 00:35:09,436 --> 00:35:14,135 there are billions of solar systems all around you. 503 00:35:14,207 --> 00:35:17,108 And there could be a solar system 504 00:35:17,177 --> 00:35:20,010 with a planet just like Earth. 505 00:35:22,048 --> 00:35:25,882 If it happened once, it could happen again. 506 00:35:31,725 --> 00:35:35,217 Solar systems don't last forever. 507 00:35:35,295 --> 00:35:37,195 Orbits fall apart. 508 00:35:37,264 --> 00:35:38,856 Planets collide. 509 00:35:38,932 --> 00:35:40,991 It might happen to us. 510 00:35:41,067 --> 00:35:43,228 But even if it doesn't, 511 00:35:43,303 --> 00:35:45,771 in another 5 billion years, 512 00:35:45,839 --> 00:35:50,401 a catastrophe will end our solar system as we know it. 513 00:35:59,185 --> 00:36:03,178 Nothing lasts forever, not even solar systems. 514 00:36:03,256 --> 00:36:05,349 Ours may seem stable now, 515 00:36:05,425 --> 00:36:09,327 but, actually, it's very slowly coming apart. 516 00:36:15,101 --> 00:36:18,070 If the solar system was chaotic in the past, 517 00:36:18,138 --> 00:36:20,606 that doesn't mean it's all settled down now. 518 00:36:20,674 --> 00:36:22,437 There is still a possibility 519 00:36:22,509 --> 00:36:25,103 of a little bit of chaos in the future. 520 00:36:25,178 --> 00:36:26,805 In the future, 521 00:36:26,880 --> 00:36:30,338 the gravitational pull of the planets on each other 522 00:36:30,417 --> 00:36:32,977 will gradually disrupt their orbits. 523 00:36:33,053 --> 00:36:36,545 Perhaps, over the billions of years, 524 00:36:36,623 --> 00:36:40,320 the planets will jostle each other in this gravitational way 525 00:36:40,393 --> 00:36:41,724 so that, eventually, 526 00:36:41,795 --> 00:36:44,889 two of the planets will come close to each other. 527 00:36:48,902 --> 00:36:51,803 When that happens... and it will... 528 00:36:51,871 --> 00:36:56,205 those two planets will engage in a sort of a do-si-do, 529 00:36:56,276 --> 00:36:59,837 flinging one or the other of them, maybe both, 530 00:36:59,913 --> 00:37:01,312 into wild orbits, 531 00:37:01,381 --> 00:37:05,374 perhaps ejecting one or both of them from the solar system. 532 00:37:07,787 --> 00:37:11,018 Mars could be thrown out of the solar system, 533 00:37:11,091 --> 00:37:13,525 and Mercury might crash into the Earth. 534 00:37:25,405 --> 00:37:29,034 The entire house of cards that is our solar system 535 00:37:29,109 --> 00:37:31,100 would completely fall apart. 536 00:37:31,177 --> 00:37:35,238 Solar systems begin and end 537 00:37:35,315 --> 00:37:38,773 with a lot of collisions and destruction. 538 00:37:38,852 --> 00:37:40,649 But don't panic yet. 539 00:37:42,422 --> 00:37:44,788 This is gonna take billions of years, 540 00:37:44,858 --> 00:37:46,985 but over the lifetime of the solar system, 541 00:37:47,060 --> 00:37:49,620 these are eventualities that could come to pass. 542 00:37:49,696 --> 00:37:53,462 But one way or another, 543 00:37:53,533 --> 00:37:56,661 our solar system is doomed. 544 00:37:59,539 --> 00:38:02,201 Like all solar systems, the end will come 545 00:38:02,275 --> 00:38:06,211 when the star at the center dies. 546 00:38:06,279 --> 00:38:09,680 In 5 billion years, 547 00:38:09,749 --> 00:38:12,684 our own star will run out of fuel 548 00:38:12,752 --> 00:38:15,243 and become a red giant. 549 00:38:17,490 --> 00:38:21,790 It'll heat up, swell, and engulf the inner planets. 550 00:38:27,967 --> 00:38:31,095 The Earth's surface will be scorched... 551 00:38:34,441 --> 00:38:37,808 ...the seas will evaporate... 552 00:38:37,877 --> 00:38:40,675 And the land will melt. 553 00:38:46,119 --> 00:38:50,078 The Sun will become about as big as where the Earth's orbit is, 554 00:38:50,156 --> 00:38:52,522 so a likely scenario for the end of the world 555 00:38:52,592 --> 00:38:55,322 is that we're going to be inside the Sun for a while. 556 00:39:07,574 --> 00:39:10,907 The Earth's gonna get swallowed right up into the Sun, 557 00:39:10,977 --> 00:39:13,343 and it's gonna be toast... vapor, literally. 558 00:39:14,981 --> 00:39:16,505 After a while, 559 00:39:16,583 --> 00:39:18,813 the red giant will fall apart, too, 560 00:39:18,885 --> 00:39:23,845 leaving behind a tiny corpse of a star called a white dwarf. 561 00:39:34,567 --> 00:39:36,933 Lt'll be about the size of the Earth, 562 00:39:37,003 --> 00:39:39,801 and it will cool off over many millions or billions of years. 563 00:39:44,611 --> 00:39:47,512 That will be the real end of our solar system. 564 00:39:53,586 --> 00:39:55,178 From the Earth... 565 00:39:55,255 --> 00:39:58,224 this dead, rocky planet that used to harbor 566 00:39:58,291 --> 00:40:00,885 an enormously vibrant civilization... 567 00:40:00,960 --> 00:40:03,952 we will look out... 568 00:40:04,030 --> 00:40:08,160 And there will be this fairly faint dot which is our Sun, 569 00:40:08,234 --> 00:40:12,261 now a white dwarf, a dying, almost dead star. 570 00:40:15,775 --> 00:40:17,800 The remains of the inner planets 571 00:40:17,877 --> 00:40:19,811 will continue to orbit the white dwarf. 572 00:40:26,052 --> 00:40:30,318 But the giant outer planets will live on, untouched. 573 00:40:33,860 --> 00:40:35,487 They will have warmed up 574 00:40:35,562 --> 00:40:37,496 during the red-giant phase of the Sun. 575 00:40:37,564 --> 00:40:40,328 But once the Sun is a white dwarf, 576 00:40:40,400 --> 00:40:43,961 those giant planets will survive just as well, 577 00:40:44,037 --> 00:40:46,631 holding on to their hydrogen and helium, 578 00:40:46,706 --> 00:40:49,004 albeit colder than they used to be, 579 00:40:49,075 --> 00:40:52,374 because that white dwarf will no longer be warming them up. 580 00:40:58,851 --> 00:41:02,309 Even though this is 5 billion years in the future 581 00:41:02,388 --> 00:41:03,650 for our solar system, 582 00:41:03,723 --> 00:41:05,315 it may already have happened 583 00:41:05,391 --> 00:41:08,121 to many other systems throughout the universe. 584 00:41:11,931 --> 00:41:15,332 Our solar system emerged from chaos 585 00:41:15,401 --> 00:41:17,392 to eventually support life. 586 00:41:17,470 --> 00:41:18,664 We were lucky. 587 00:41:18,738 --> 00:41:21,832 We've just the right amount of planets, 588 00:41:21,908 --> 00:41:23,136 in the right place, 589 00:41:23,209 --> 00:41:25,700 at the right distance from each other, 590 00:41:25,778 --> 00:41:28,178 all orbiting the right type of star. 591 00:41:28,248 --> 00:41:33,208 But it could have been a very different story. 592 00:41:33,286 --> 00:41:35,049 There are so many things 593 00:41:35,121 --> 00:41:37,089 that are fortunate about our solar system, 594 00:41:37,156 --> 00:41:38,145 starting with the Sun. 595 00:41:38,224 --> 00:41:41,159 The Sun is a very stable, easy star... 596 00:41:41,227 --> 00:41:44,424 a perfect thing for life to evolve around. 597 00:41:44,497 --> 00:41:46,431 That's probably not a coincidence that we're here. 598 00:41:48,434 --> 00:41:50,800 An extraordinary chain of events 599 00:41:50,870 --> 00:41:52,337 over billions of years 600 00:41:52,405 --> 00:41:55,374 have made our solar system the perfect place 601 00:41:55,441 --> 00:41:57,773 for life to evolve. 602 00:42:04,117 --> 00:42:07,746 What we see today is not the way things have always been 603 00:42:07,820 --> 00:42:09,947 and not the way things will always be. 604 00:42:10,023 --> 00:42:11,081 We're not unique, 605 00:42:11,157 --> 00:42:13,284 but it is just the way things worked out. 606 00:42:16,162 --> 00:42:18,357 The Earth has to be in the right place. 607 00:42:18,431 --> 00:42:20,228 The planets had to be in the right place. 608 00:42:20,300 --> 00:42:23,201 The giant planets have to be in the right place 609 00:42:23,269 --> 00:42:25,601 to protect us from impacts. 610 00:42:28,174 --> 00:42:31,905 All that has to be right in order to get life on Earth. 611 00:42:35,615 --> 00:42:38,812 Ours is the only planetary system we know 612 00:42:38,885 --> 00:42:40,113 that supports life. 613 00:42:40,186 --> 00:42:41,881 As solar systems go, 614 00:42:41,954 --> 00:42:46,186 does that make us extraordinary or perfectly normal? 615 00:42:46,259 --> 00:42:48,318 We don't know. 616 00:42:48,394 --> 00:42:49,622 But every week, 617 00:42:49,696 --> 00:42:52,494 we're discovering new solar systems 618 00:42:52,565 --> 00:42:53,930 with new planets. 619 00:42:54,000 --> 00:42:56,594 It could be just a matter of time 620 00:42:56,669 --> 00:42:58,227 before we discover... 621 00:42:58,304 --> 00:43:00,534 We're not alone. 622 00:43:00,584 --> 00:43:05,134 Repair and Synchronization by Easy Subtitles Synchronizer 1.0.0.0 48693