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These are the user uploaded subtitles that are being translated: 1 00:00:02,934 --> 00:00:04,467 (crickets) 2 00:00:04,600 --> 00:00:09,166 (owl hoot) 3 00:00:18,600 --> 00:00:21,467 TYSON: John Goodricke was a man who was permitted only the 4 00:00:21,600 --> 00:00:23,467 briefest glimpse of the stars. 5 00:00:24,266 --> 00:00:26,667 And yet, it could be said that he made one of the 6 00:00:26,800 --> 00:00:28,667 greatest discoveries of all. 7 00:00:32,166 --> 00:00:35,100 He had been left completely deaf by a childhood illness. 8 00:00:35,967 --> 00:00:38,667 And maybe that's why he looked so carefully. 9 00:00:42,467 --> 00:00:44,867 On a clear summer night in 1784, 10 00:00:45,767 --> 00:00:49,533 he went outside to see if a particular star was still 11 00:00:49,667 --> 00:00:52,600 doing something that mystified him. 12 00:00:53,400 --> 00:00:57,100 Something that no other astronomer had ever reported before. 13 00:00:59,033 --> 00:01:01,667 Goodricke couldn't believe his own eyes. 14 00:01:02,166 --> 00:01:04,100 The star, called Beta Lyrae, 15 00:01:04,233 --> 00:01:08,266 changed regularly in brightness over a very brief period of time. 16 00:01:08,734 --> 00:01:10,934 Only days. 17 00:01:11,066 --> 00:01:13,800 What could possibly make a star do that? 18 00:01:17,066 --> 00:01:19,700 Even more surprising, Goodricke found that he could 19 00:01:19,834 --> 00:01:22,033 predict its variations with high accuracy. 20 00:01:24,367 --> 00:01:26,533 What could cause such a change in a star's brightness? 21 00:01:28,633 --> 00:01:31,033 None of the scenarios that came to mind explained the 22 00:01:31,166 --> 00:01:33,333 evidence before him. 23 00:01:35,066 --> 00:01:37,500 And then, he thought of another possibility. 24 00:01:42,834 --> 00:01:45,734 Suppose there was something orbiting Beta Lyrae 25 00:01:45,867 --> 00:01:48,333 that eclipsed the star on a regular basis. 26 00:01:53,667 --> 00:01:55,600 But what could it be? 27 00:02:07,133 --> 00:02:09,533 "A world perhaps?" 28 00:02:21,266 --> 00:02:23,734 How about a trillion? 29 00:02:30,433 --> 00:02:35,934 (theme music plays) 30 00:02:56,166 --> 00:03:02,400 ♪ ♪ 31 00:03:21,934 --> 00:03:27,633 ♪ ♪ 32 00:03:33,533 --> 00:03:35,533 TYSON: When John Goodricke's discovery came to the attention 33 00:03:35,667 --> 00:03:38,734 of the prestigious British Royal Society in 1786, 34 00:03:39,700 --> 00:03:41,767 he was immediately made a member. 35 00:03:45,166 --> 00:03:48,100 Word of this honor never reached him, 36 00:03:48,667 --> 00:03:51,867 days later he was dead of pneumonia. 37 00:03:54,200 --> 00:03:56,967 He was only 21. 38 00:04:01,600 --> 00:04:04,633 It would be 150 years before another astronomer 39 00:04:04,767 --> 00:04:06,934 would solve Goodricke's mystery. 40 00:04:07,400 --> 00:04:11,533 And in the process, change our cosmos forever. 41 00:04:12,400 --> 00:04:15,400 Even as a child, Gerard Peter Kuiper could 42 00:04:15,533 --> 00:04:17,166 see farther than anyone else. 43 00:04:18,967 --> 00:04:22,000 He saw stars too distant and too faint for others 44 00:04:22,133 --> 00:04:24,200 to find without a telescope. 45 00:04:25,700 --> 00:04:28,667 This was in the Netherlands more than a century ago. 46 00:04:29,533 --> 00:04:31,900 Back then, the son of a poor tailor could not 47 00:04:32,033 --> 00:04:34,300 hope to become an astronomer. 48 00:04:34,433 --> 00:04:37,333 But the boy would not be stopped. 49 00:04:37,767 --> 00:04:40,800 Back then, astronomers thought that the cosmos consisted of 50 00:04:40,934 --> 00:04:44,300 only a handful of planets, those of our own solar system. 51 00:04:45,867 --> 00:04:49,433 The great multitude of other stars were just barren points 52 00:04:49,567 --> 00:04:52,633 of light that had never given birth to worlds. 53 00:04:54,166 --> 00:04:58,567 We on Earth could still feel special. 54 00:04:59,300 --> 00:05:01,433 Our star system, the scientists told us, 55 00:05:01,567 --> 00:05:05,900 was the rarest of all, one blessed by worlds and moons. 56 00:05:13,600 --> 00:05:16,834 Kuiper yearned to know how our Sun and its planets 57 00:05:16,967 --> 00:05:19,233 came to be. 58 00:05:21,000 --> 00:05:23,700 And made his way to the University of Leiden, 59 00:05:23,834 --> 00:05:25,700 where he quickly distinguished himself. 60 00:05:27,900 --> 00:05:30,600 He was invited to join the dynamic astronomical community 61 00:05:30,734 --> 00:05:34,066 in the United States, but Kuiper had rough edges, 62 00:05:35,266 --> 00:05:37,934 he was argumentative and easily drawn into conflict 63 00:05:38,066 --> 00:05:39,800 with his colleagues. 64 00:05:39,934 --> 00:05:43,266 The prospect of directing a remote observatory far away 65 00:05:43,400 --> 00:05:45,767 from the capitals of scientific culture must have 66 00:05:45,900 --> 00:05:47,533 appealed to him. 67 00:05:47,667 --> 00:05:50,900 And besides, you could see the stars better there 68 00:05:51,100 --> 00:05:53,567 than just about anywhere else. 69 00:05:54,400 --> 00:05:58,033 Kuiper was given an appointment at the McDonald Observatory, 70 00:05:58,166 --> 00:06:01,166 situated in a corner of West Texas. 71 00:06:02,333 --> 00:06:05,200 At the turn of the century, it had been discovered that half 72 00:06:05,333 --> 00:06:09,033 the visible stars were really gravitational pairs. 73 00:06:10,667 --> 00:06:13,033 Most binary stars are like twins, 74 00:06:13,166 --> 00:06:16,033 forming from the same womb of gas and dust. 75 00:06:17,233 --> 00:06:19,867 Others come of age separately and become gravitationally 76 00:06:20,000 --> 00:06:22,867 involved with each other later in their development. 77 00:06:23,700 --> 00:06:27,333 And the other half remain single throughout their lives. 78 00:06:28,100 --> 00:06:31,033 Kuiper chose to concentrate on the binary stars. 79 00:06:32,000 --> 00:06:34,100 He wondered if they could shed light on the way that the 80 00:06:34,233 --> 00:06:37,233 planets in our solar system formed and came to be 81 00:06:37,367 --> 00:06:39,734 gravitationally bound to our Sun. 82 00:06:40,233 --> 00:06:42,700 KUIPER: Bright ascension. 18 hours, 50 minutes. 83 00:06:43,033 --> 00:06:45,600 Declination plus 33 degrees. 84 00:06:45,734 --> 00:06:47,667 2175 minutes. 85 00:06:48,133 --> 00:06:49,500 ASSISTANT: Mm-hmm. 86 00:06:49,934 --> 00:06:52,166 TYSON: Kuiper looked at the very same star that 87 00:06:52,300 --> 00:06:54,900 had baffled John Goodricke 150 years before, 88 00:06:55,734 --> 00:06:59,433 but Kuiper was looking at it with a much bigger telescope. 89 00:07:01,000 --> 00:07:03,834 And Kuiper was armed with an awesome power that didn't 90 00:07:03,967 --> 00:07:07,266 exist in Goodricke's time, spectroscopy. 91 00:07:08,066 --> 00:07:10,533 Spectroscopy is a way to dissect the light of any 92 00:07:10,667 --> 00:07:13,834 single star to find its particular atomic and 93 00:07:13,967 --> 00:07:15,633 molecular composition. 94 00:07:16,400 --> 00:07:18,934 Kuiper looked at the spectrum of the light produced 95 00:07:19,066 --> 00:07:22,100 by Beta Lyrae and saw that, as with all stars, 96 00:07:22,633 --> 00:07:24,934 there was plenty of hydrogen and helium, 97 00:07:25,066 --> 00:07:29,000 but there was also iron sodium and silicon. 98 00:07:29,600 --> 00:07:31,333 So far, no surprises there. 99 00:07:31,467 --> 00:07:33,567 Now, here comes the twist. 100 00:07:34,266 --> 00:07:35,567 Bright lines? 101 00:07:35,700 --> 00:07:38,133 Where were those bright lines coming from? 102 00:07:38,266 --> 00:07:41,600 At that time, no astronomer understood why bright lines 103 00:07:41,734 --> 00:07:43,400 would appear in the spectrum of a star. 104 00:07:44,567 --> 00:07:47,400 Kuiper leapt to the conclusion that the two stars 105 00:07:47,533 --> 00:07:50,100 were so close that they were exchanging matter, 106 00:07:51,400 --> 00:07:54,400 super-hot gases that would produce such a signature. 107 00:07:55,734 --> 00:07:58,333 In trying to understand what he had seen that night, 108 00:07:59,100 --> 00:08:02,300 Kuiper discovered and named the most interstellar 109 00:08:02,433 --> 00:08:04,934 relationship in the cosmos. 110 00:08:05,233 --> 00:08:08,867 Stars that are physically locked in everlasting oneness, 111 00:08:09,000 --> 00:08:12,133 bound together by gravity and a bridge of fire 112 00:08:13,033 --> 00:08:15,033 made of star stuff. 113 00:08:17,600 --> 00:08:21,233 A bridge eight million miles long, 114 00:08:22,500 --> 00:08:24,400 connecting two stars, 115 00:08:24,533 --> 00:08:27,233 one three times more massive than our Sun, 116 00:08:27,367 --> 00:08:31,066 the other 13 times greater still. 117 00:08:33,367 --> 00:08:36,667 A contact binary star system. 118 00:08:37,100 --> 00:08:39,834 Why aren't they round like our own star? 119 00:08:40,233 --> 00:08:42,166 They are so closed to one another, 120 00:08:42,300 --> 00:08:45,734 tidal forces of gravity pull them together and stretch them 121 00:08:45,867 --> 00:08:48,433 into flaming teardrops. 122 00:08:49,867 --> 00:08:54,333 The Beta Lyrae system is about 1,000 light-years from earth. 123 00:08:54,934 --> 00:08:57,867 The largest telescopes of the mid-20th century were just not 124 00:08:58,000 --> 00:09:01,166 powerful enough to resolve them as individual stars. 125 00:09:02,400 --> 00:09:04,867 You needed that new power of spectroscopy 126 00:09:05,200 --> 00:09:07,533 to disentangle them. 127 00:09:07,667 --> 00:09:10,133 Kuiper imagined how the formation of the contact 128 00:09:10,266 --> 00:09:13,166 binary star system could have happened. 129 00:09:13,734 --> 00:09:16,567 He deduced that they were formed when a vast cloud of 130 00:09:16,700 --> 00:09:21,500 gas and dust become so dense that gravitational whirlpools formed. 131 00:09:26,700 --> 00:09:29,400 In thinking about these contact binaries, 132 00:09:29,533 --> 00:09:32,166 Kuiper couldn't help but wonder if any of these stellar 133 00:09:32,300 --> 00:09:34,800 courtships ever failed to catch on fire. 134 00:09:37,100 --> 00:09:41,033 Kuiper asked himself, was our world, 135 00:09:41,166 --> 00:09:44,533 our Moon and all the planets of our solar system nothing 136 00:09:44,667 --> 00:09:47,166 more than a failed binary star system? 137 00:09:48,734 --> 00:09:52,600 And if that's how our solar system was created, 138 00:09:52,967 --> 00:09:56,400 had the same thing happened around other stars throughout the cosmos? 139 00:10:02,834 --> 00:10:05,400 Gerard Kuiper had a special power, 140 00:10:05,533 --> 00:10:08,133 he could see farther than anyone else. 141 00:10:08,667 --> 00:10:11,767 He was the first to envision the universe we now live in. 142 00:10:12,533 --> 00:10:16,266 Not a barren vastness meagerly dotted by childless stars, 143 00:10:17,033 --> 00:10:19,567 but one overflowing with possible worlds, 144 00:10:19,700 --> 00:10:22,200 countless planets and moons. 145 00:10:24,600 --> 00:10:28,467 In 1949, Kuiper astonished the world by declaring that 146 00:10:28,600 --> 00:10:31,867 our solar system was not so special after all, 147 00:10:32,533 --> 00:10:36,066 that every other star had its own family of worlds. 148 00:10:38,767 --> 00:10:41,266 A world perhaps? 149 00:10:42,734 --> 00:10:46,500 But science wasn't ready for that universe, 150 00:10:47,000 --> 00:10:50,934 it wasn't even ready to take its first baby steps off the planet. 151 00:10:51,133 --> 00:10:52,533 Why not? 152 00:10:52,667 --> 00:10:55,400 Science was carved up into little kingdoms, 153 00:10:55,533 --> 00:10:58,200 the various scientific disciplines and scientists of 154 00:10:58,333 --> 00:11:01,033 one discipline didn't collaborate with anyone from another. 155 00:11:02,500 --> 00:11:05,600 But this had to change for us to venture beyond Earth. 156 00:11:06,233 --> 00:11:09,800 It all came to a head in a feud between Kuiper and 157 00:11:09,934 --> 00:11:12,033 another great scientist. 158 00:11:13,000 --> 00:11:15,633 Like two stars of a contact binary system, 159 00:11:15,767 --> 00:11:17,500 they could not disengage. 160 00:11:17,633 --> 00:11:19,667 But despite their loathing for each other, 161 00:11:19,800 --> 00:11:22,934 they managed to create a new kind of science and they 162 00:11:23,066 --> 00:11:25,400 pioneered the Space Age, 163 00:11:25,767 --> 00:11:28,900 mentoring its greatest visionary and voice. 164 00:11:35,133 --> 00:11:38,000 ♪ ♪ 165 00:11:43,700 --> 00:11:49,133 ♪ ♪ 166 00:11:49,467 --> 00:11:51,967 TYSON: Sometimes, the cosmos just barges right in 167 00:11:52,100 --> 00:11:54,233 and breaks down your door, like tonight. 168 00:11:56,633 --> 00:11:58,133 What's going on here? 169 00:11:58,266 --> 00:12:02,033 Our planet is passing through the epic remnants of a comet, 170 00:12:02,433 --> 00:12:05,000 a debris field millions of miles long. 171 00:12:05,633 --> 00:12:08,700 That's why it looks like it's raining stars tonight. 172 00:12:09,233 --> 00:12:10,767 But they're not stars at all, 173 00:12:10,900 --> 00:12:13,834 just bits of rock and ice burning up in Earth's atmosphere. 174 00:12:15,033 --> 00:12:17,033 It's called a meteor shower. 175 00:12:17,166 --> 00:12:19,767 And this one happens at the same time every year. 176 00:12:20,934 --> 00:12:22,266 Why? 177 00:12:22,400 --> 00:12:24,500 Because it takes a year for Earth to orbit the Sun and 178 00:12:24,633 --> 00:12:26,533 return to that same place where the comets 179 00:12:26,667 --> 00:12:29,100 streaked by so long ago. 180 00:12:29,233 --> 00:12:31,266 That's what a year is. 181 00:12:32,166 --> 00:12:36,533 This could be a piece of that comet or possibly 182 00:12:36,667 --> 00:12:38,500 a fragment of an asteroid. 183 00:12:39,100 --> 00:12:40,834 It came from another world, 184 00:12:40,967 --> 00:12:44,000 a leftover from the creation of our solar system. 185 00:12:44,133 --> 00:12:46,800 But how to understand it? 186 00:12:47,300 --> 00:12:49,100 Well, back in Gerard Kuiper's time, 187 00:12:49,233 --> 00:12:50,867 during the middle of the 20th century, 188 00:12:51,066 --> 00:12:53,934 it depended on what kind of a scientist you were. 189 00:12:54,667 --> 00:12:57,367 The geologists would bring their hammers and break this 190 00:12:57,500 --> 00:13:00,433 sucker apart and look at its dust under a microscope to 191 00:13:00,567 --> 00:13:03,467 study its crystalline structure. 192 00:13:03,800 --> 00:13:06,200 It was their way of finding out which missing piece in 193 00:13:06,333 --> 00:13:08,834 this puzzle of Earth the meteorite could provide. 194 00:13:10,200 --> 00:13:12,800 The chemists were searching for the same answers, 195 00:13:12,934 --> 00:13:15,200 but they would drop it in acid to see if it could be 196 00:13:15,333 --> 00:13:17,600 transformed from one compound into another, 197 00:13:18,633 --> 00:13:20,667 torturing it to see if it would give up 198 00:13:20,800 --> 00:13:22,800 its secrets about nature. 199 00:13:28,867 --> 00:13:32,900 The physicists would want to see it at its most naked. 200 00:13:35,200 --> 00:13:38,467 Stripped down to its mass, its density, its hardness. 201 00:13:39,200 --> 00:13:42,166 Its resistance to heat. 202 00:13:42,767 --> 00:13:46,166 The biologist wouldn't even stop to pick it up. 203 00:13:46,533 --> 00:13:49,266 Back then, they would've walked right by it because 204 00:13:49,400 --> 00:13:52,266 they didn't think there was any chance that a meteorite 205 00:13:52,400 --> 00:13:55,800 from space had anything to do with them. 206 00:13:56,200 --> 00:14:01,367 Life could only be from one place, right here, Earth. 207 00:14:07,166 --> 00:14:09,367 And you want to know the craziest thing? 208 00:14:09,867 --> 00:14:11,033 Back then, 209 00:14:11,166 --> 00:14:13,934 the astronomers would've walked right by it, too. 210 00:14:14,066 --> 00:14:17,100 Their sights were focused on the distance and we can't 211 00:14:17,233 --> 00:14:18,834 really blame them. 212 00:14:18,967 --> 00:14:21,266 What was happening in astronomy back then? 213 00:14:21,400 --> 00:14:24,667 Big ideas about things far beyond our solar system, 214 00:14:25,266 --> 00:14:27,567 Einstein's theory of relativity, 215 00:14:27,700 --> 00:14:30,667 with its vision of riding a light beam across the cosmos 216 00:14:31,233 --> 00:14:34,567 and Edwin Hubble's discovery that the universe was expanding, 217 00:14:35,533 --> 00:14:38,567 that distant galaxies were flying away from one another. 218 00:14:38,700 --> 00:14:42,133 That's what raised goosebumps, not looking at a dumb rock 219 00:14:42,266 --> 00:14:44,367 lying in your own backyard. 220 00:14:44,700 --> 00:14:47,100 Studying the planets, moons, comets and meteors of our own 221 00:14:47,233 --> 00:14:50,133 tiny solar system seemed like little league. 222 00:14:52,266 --> 00:14:54,934 Until Kuiper dared to venture into territories 223 00:14:55,066 --> 00:14:57,467 off-limits to astronomy. 224 00:14:57,800 --> 00:15:00,166 Night after night, he would stay up here... 225 00:15:00,300 --> 00:15:04,600 A virtuoso playing the 45-ton instrument like a violin. 226 00:15:04,967 --> 00:15:08,133 Searching the solar system for clues to its origin. 227 00:15:08,567 --> 00:15:12,000 A mystery that he alone recognized was insoluble 228 00:15:12,133 --> 00:15:16,233 without the cooperative enterprise of all the scientific disciplines. 229 00:15:17,300 --> 00:15:20,333 But the scientists didn't know they needed one another. 230 00:15:20,767 --> 00:15:23,266 There wasn't a single university department where 231 00:15:23,400 --> 00:15:27,100 scientists of multiple disciplines could study planetary astronomy. 232 00:15:27,867 --> 00:15:31,100 So here, in the middle of nowhere, 233 00:15:32,000 --> 00:15:36,066 in a corner of West Texas, Kuiper conducted his one-man 234 00:15:36,200 --> 00:15:38,467 exploration of the solar system. 235 00:15:52,000 --> 00:15:55,033 He looked at Titan, one of Saturn's moons, 236 00:15:55,166 --> 00:15:57,500 and discovered that it had an atmosphere, 237 00:15:58,133 --> 00:16:00,667 it was thick with methane. 238 00:16:01,000 --> 00:16:04,633 A point of light in the sky had suddenly become a real place. 239 00:16:05,700 --> 00:16:08,967 Kuiper used the spectroscope to probe the acrid clouds in 240 00:16:09,100 --> 00:16:12,934 the upper atmosphere of Jupiter to see what they were made of, 241 00:16:13,066 --> 00:16:15,433 their chemical and atomic structures. 242 00:16:15,567 --> 00:16:17,800 And when he looked at the red planet, Mars, 243 00:16:17,934 --> 00:16:21,166 he found carbon dioxide in its atmosphere and he wondered, 244 00:16:22,033 --> 00:16:26,533 "Am I looking at my planet's future or its past?" 245 00:16:27,400 --> 00:16:31,367 But to some people, Kuiper was doing nothing more than trespassing. 246 00:16:32,166 --> 00:16:34,500 Butting into chemical matters where an astronomer 247 00:16:34,633 --> 00:16:36,800 had no business. 248 00:16:36,934 --> 00:16:39,633 Harold Urey was a chemist. 249 00:16:39,967 --> 00:16:41,400 Like Gerard Kuiper, 250 00:16:41,533 --> 00:16:44,533 he also had to fight his way into science. 251 00:16:44,900 --> 00:16:47,433 Urey's family was poor like Kuiper's. 252 00:16:47,567 --> 00:16:50,834 So he took a job teaching grammar school in a 253 00:16:50,967 --> 00:16:53,367 mining camp in Montana. 254 00:16:54,900 --> 00:16:56,800 The parents of one of his students urged him to 255 00:16:56,934 --> 00:16:59,367 find a way to get to college. 256 00:17:00,934 --> 00:17:03,233 Harold Urey took that advice all the way to a 257 00:17:03,367 --> 00:17:05,767 Nobel Prize in chemistry. 258 00:17:07,800 --> 00:17:10,700 By 1949, he was riding high, 259 00:17:11,300 --> 00:17:14,533 a distinguished professor at the University of Chicago. 260 00:17:14,900 --> 00:17:16,433 Then, and now, 261 00:17:16,567 --> 00:17:19,400 one of the world's great capitals of science. 262 00:17:19,767 --> 00:17:21,600 But when Urey read his morning paper, 263 00:17:21,734 --> 00:17:24,200 something began to curdle inside him, 264 00:17:24,333 --> 00:17:26,934 a rising resentment. 265 00:17:27,066 --> 00:17:30,867 First, a pang at a fellow scientist's heightened celebrity. 266 00:17:31,200 --> 00:17:33,367 Well, that was normal. 267 00:17:33,734 --> 00:17:37,834 Then he got to the part about the origin of the planets. 268 00:17:38,133 --> 00:17:40,667 He was offended that an astronomer was making 269 00:17:40,800 --> 00:17:44,100 pronouncements about the chemical nature of the solar system. 270 00:17:44,467 --> 00:17:46,867 That was his turf. 271 00:17:49,367 --> 00:17:51,567 Scientists are human. 272 00:17:51,700 --> 00:17:53,166 We're primates. 273 00:17:53,533 --> 00:17:56,767 We carry the same evolutionary baggage as everyone else. 274 00:17:57,967 --> 00:18:01,000 Kuiper and Urey were two alpha males who chose 275 00:18:01,133 --> 00:18:03,567 scientific argument as their weapon of combat. 276 00:18:05,633 --> 00:18:08,967 And the two men fought over a single hostage, 277 00:18:09,333 --> 00:18:11,166 a young student. 278 00:18:15,467 --> 00:18:17,166 When Carl Sagan was a kid, 279 00:18:17,300 --> 00:18:20,300 he lived here, in a small apartment in Brooklyn. 280 00:18:25,100 --> 00:18:28,266 (ticking) 281 00:18:30,700 --> 00:18:33,800 (street sounds) 282 00:18:38,433 --> 00:18:41,567 In the mid-1940s, he made this drawing, 283 00:18:41,700 --> 00:18:43,734 filled with predictions, 284 00:18:43,867 --> 00:18:47,100 that is now in the US Library of Congress. 285 00:18:57,400 --> 00:19:01,200 ♪ ♪ 286 00:19:06,834 --> 00:19:11,867 MAN (over PA): 3, 2, 1, 0. All engine running. 287 00:19:13,166 --> 00:19:15,667 Liftoff, we have a liftoff! 288 00:19:17,367 --> 00:19:19,433 TYSON: In an era where life here was in the last seconds 289 00:19:19,567 --> 00:19:22,166 of its four billion captivity on Earth, 290 00:19:23,100 --> 00:19:27,000 he dreamed of going to the planets and even to the stars. 291 00:19:29,200 --> 00:19:31,934 But he didn't want to just go in his imagination, 292 00:19:32,066 --> 00:19:33,867 he wanted to really go. 293 00:19:34,300 --> 00:19:37,200 He wanted to know what those worlds were really like. 294 00:19:38,233 --> 00:19:42,133 And he knew that the only way to do that was to become a scientist. 295 00:19:44,100 --> 00:19:47,300 The boy would come under the wings of the two warring giants. 296 00:19:48,233 --> 00:19:50,133 As much as they hated each other, 297 00:19:50,266 --> 00:19:52,633 he loved them both. 298 00:19:52,934 --> 00:19:55,467 Together, the three of them would tear down the walls 299 00:19:55,600 --> 00:19:57,700 between the scientists. 300 00:19:57,834 --> 00:20:00,467 And the boy would tear down the tallest wall, 301 00:20:00,600 --> 00:20:04,266 the one between science and everyone else. 302 00:20:12,667 --> 00:20:14,400 TYSON: Do something for me. 303 00:20:14,533 --> 00:20:17,633 I need you to pretend that we live in a time before any 304 00:20:17,767 --> 00:20:21,233 spacecraft or human had ever left Earth, 305 00:20:21,633 --> 00:20:24,734 no one had ever seen our world from space. 306 00:20:25,700 --> 00:20:28,467 The most extravagant fantasies of the greatest artists were 307 00:20:28,600 --> 00:20:31,033 no match for what was coming. 308 00:20:31,700 --> 00:20:34,500 This is how one of them imagined Earth must look from space. 309 00:20:36,066 --> 00:20:38,600 And then, in one instant on a single day, 310 00:20:39,767 --> 00:20:42,066 everything changed. 311 00:20:43,667 --> 00:20:47,567 This is how Mother Earth looked when she was naked, 312 00:20:47,700 --> 00:20:50,600 before nearly 5,000 satellites were in orbit around her, 313 00:20:52,400 --> 00:20:55,800 before anyone had ever counted backwards from ten. 314 00:20:58,333 --> 00:21:04,300 (counting down from ten in Russian) 315 00:21:10,734 --> 00:21:14,233 (counting down from ten in Russian) 316 00:21:44,867 --> 00:21:47,166 TYSON: On October 4, 1957, 317 00:21:47,300 --> 00:21:50,500 the Soviet Union became the first nation to dip its 318 00:21:50,633 --> 00:21:54,333 toe into the shallows of the cosmic ocean. 319 00:21:55,900 --> 00:21:58,367 It launched Sputnik 1, 320 00:21:58,934 --> 00:22:03,333 a simple radio transmitter that circled Earth every 96 minutes. 321 00:22:10,934 --> 00:22:13,700 All over the planet, people came outside to find 322 00:22:13,834 --> 00:22:17,967 this new light in the sky, a man-made moon. 323 00:22:19,800 --> 00:22:21,734 Nothing could stop us from achieving our 324 00:22:21,867 --> 00:22:25,266 most daring dreams. 325 00:22:25,400 --> 00:22:30,333 Think of it, something we made was a new light in the night sky. 326 00:22:31,233 --> 00:22:34,500 Something like a star. 327 00:22:34,834 --> 00:22:36,433 As this was happening, 328 00:22:36,567 --> 00:22:39,233 the boy was becoming a scientist, 329 00:22:39,667 --> 00:22:43,600 and this new knowledge moved him as nothing before had. 330 00:22:44,567 --> 00:22:47,033 All he could think was that he wanted to share it with 331 00:22:47,166 --> 00:22:49,333 everyone on Earth, 332 00:22:49,700 --> 00:22:52,667 but that kind of thing was frowned upon by scientists, 333 00:22:53,000 --> 00:22:56,133 they saw themselves as being members of an elite club. 334 00:22:57,433 --> 00:23:01,033 In 1950, when Carl Sagan was just a high school student, 335 00:23:01,166 --> 00:23:03,967 he wrote a paper that earned him an invitation to work in 336 00:23:04,100 --> 00:23:06,533 the lab of H.J. Muller, 337 00:23:06,667 --> 00:23:09,800 who had won the Nobel Prize for his discovery that radiation 338 00:23:09,934 --> 00:23:12,400 causes mutations in genes. 339 00:23:13,934 --> 00:23:16,633 By the time Carl got to the University of Chicago, 340 00:23:16,767 --> 00:23:19,633 he was beginning to make a name for himself, 341 00:23:19,767 --> 00:23:22,333 and Harold Urey chose to mentor him. 342 00:23:22,800 --> 00:23:24,166 Urey, the chemist, 343 00:23:24,300 --> 00:23:27,166 was now doing the thing that he had resented Kuiper for, 344 00:23:27,300 --> 00:23:30,367 trespassing on the turf of another scientific discipline. 345 00:23:31,333 --> 00:23:33,533 This time it was biology. 346 00:23:33,667 --> 00:23:36,633 Urey and his team wanted to know how life could have 347 00:23:36,767 --> 00:23:38,934 originated from lifeless matter. 348 00:23:41,266 --> 00:23:43,433 Working with another student of his, 349 00:23:44,166 --> 00:23:47,667 Stanley Miller, Urey designed an experiment to simulate the 350 00:23:47,800 --> 00:23:51,066 chemical conditions of the atmosphere on the early Earth. 351 00:23:51,834 --> 00:23:54,400 They wanted to see whether those basic chemicals could 352 00:23:54,533 --> 00:23:58,333 have led to amino acids, the building blocks of life. 353 00:24:00,834 --> 00:24:04,867 Could lightning have provided the spark that awakened matter into life? 354 00:24:06,734 --> 00:24:09,934 "And if it could happen here on Earth, 355 00:24:10,400 --> 00:24:13,467 where else could it have happened?" Carl wondered. 356 00:24:15,867 --> 00:24:18,533 When he wrote a paper speculating on that possibility, 357 00:24:18,667 --> 00:24:20,934 Urey responded harshly. 358 00:24:21,834 --> 00:24:24,867 He scolded his apprentice for venturing beyond his expertise. 359 00:24:26,066 --> 00:24:29,066 But still, Carl loved Urey because he knew that this 360 00:24:29,200 --> 00:24:31,967 toughness would make him a better scientist. 361 00:24:33,567 --> 00:24:36,567 In the summer, Carl traveled to the enemy camp, 362 00:24:36,700 --> 00:24:38,266 to McDonald Observatory, 363 00:24:38,400 --> 00:24:41,133 to observe Mars with Gerard Kuiper, 364 00:24:41,433 --> 00:24:44,867 the only planetary astronomer on Earth. 365 00:24:45,000 --> 00:24:48,033 That year, Mars was in a favorable opposition to Earth. 366 00:24:49,400 --> 00:24:53,200 The two worlds would be the closest they'd been in 30 years. 367 00:24:54,000 --> 00:24:56,633 But the weather didn't cooperate, 368 00:24:56,767 --> 00:24:59,033 not in Texas, but on Mars. 369 00:24:59,834 --> 00:25:03,166 A global windblown dust storm there prevented Kuiper 370 00:25:03,300 --> 00:25:05,767 and Sagan from seeing anything new. 371 00:25:06,600 --> 00:25:08,633 Instead, they spent those summer nights talking 372 00:25:08,767 --> 00:25:10,467 of many things. 373 00:25:10,600 --> 00:25:12,800 The older man taught the young scientist the 374 00:25:12,934 --> 00:25:16,367 most efficient ways to test his bold new ideas. 375 00:25:16,900 --> 00:25:19,834 They fantasized about what those possible worlds circling 376 00:25:19,967 --> 00:25:22,400 other stars might be like. 377 00:25:22,734 --> 00:25:25,600 These two fearless scientific imaginations ventured 378 00:25:25,734 --> 00:25:28,467 throughout the galaxy all that summer. 379 00:25:28,834 --> 00:25:32,433 The gates to the wonderworld were swinging open for Carl. 380 00:25:32,867 --> 00:25:34,967 And all of this was happening as we were reaching 381 00:25:35,100 --> 00:25:38,767 beyond the planet for the very first time. 382 00:25:39,700 --> 00:25:43,900 (Sputnik radio signal) 383 00:25:46,734 --> 00:25:49,100 Soviet Union's Sputnik scared the hell out of 384 00:25:49,233 --> 00:25:50,967 the United States. 385 00:25:51,166 --> 00:25:54,200 The Cold War was a contest between dueling ideologies 386 00:25:54,333 --> 00:25:56,600 about property and freedom. 387 00:25:57,166 --> 00:25:58,967 When the Russians got there first, 388 00:25:59,100 --> 00:26:02,000 it seemed to reflect badly on our world view. 389 00:26:02,600 --> 00:26:05,967 And if they could send an object into orbit above our heads, 390 00:26:06,100 --> 00:26:09,066 we could no longer protect our skies. 391 00:26:09,467 --> 00:26:11,500 Suddenly, there was a new delivery system 392 00:26:11,633 --> 00:26:13,000 for nuclear weapons. 393 00:26:13,133 --> 00:26:14,800 Nowhere on Earth could be safeguarded against 394 00:26:14,934 --> 00:26:17,066 espionage or attack. 395 00:26:17,200 --> 00:26:19,834 We needed a space program of our own. 396 00:26:20,467 --> 00:26:23,166 The National Aeronautics and Space Administration was 397 00:26:23,300 --> 00:26:25,967 founded a year after Sputnik in 1958. 398 00:26:27,133 --> 00:26:30,233 Science was at last ready to see Earth as Kuiper 399 00:26:30,367 --> 00:26:33,033 had been seeing it for years, as a planet. 400 00:26:34,333 --> 00:26:35,867 What a concept. 401 00:26:36,300 --> 00:26:39,233 It may seem obvious to us now, but in a time of fanatical, 402 00:26:39,367 --> 00:26:42,633 fight to the death nationalism, it was a thunderbolt. 403 00:26:44,567 --> 00:26:47,367 But Kuiper's feud with Urey still raged, 404 00:26:47,500 --> 00:26:49,133 even as they both took leadership roles in the 405 00:26:49,266 --> 00:26:51,433 fledgling space program. 406 00:26:52,033 --> 00:26:54,934 Carl continued ferrying between their warring labs. 407 00:26:55,433 --> 00:26:59,266 The enmity between the two men was emotionally so corrosive 408 00:26:59,400 --> 00:27:01,333 that he said at the time he, 409 00:27:01,467 --> 00:27:03,900 "Felt like the child of divorced parents and he was 410 00:27:04,033 --> 00:27:07,166 the only bridge left between them." 411 00:27:07,533 --> 00:27:10,400 Urey fought for NASA to go to the Moon. 412 00:27:10,533 --> 00:27:14,200 Among his reasons was a desire to know, at last, 413 00:27:15,166 --> 00:27:17,867 how the solar system formed. 414 00:27:23,266 --> 00:27:26,233 Kuiper predicted what it would be like when we got there. 415 00:27:26,367 --> 00:27:29,767 That when we stepped down on the lunar surface for the first time, 416 00:27:29,900 --> 00:27:32,834 it would feel like walking on crunchy snow. 417 00:27:35,066 --> 00:27:38,200 The Moon is a silent world because it has no atmosphere 418 00:27:38,333 --> 00:27:40,266 to carry sound waves. 419 00:27:40,400 --> 00:27:43,834 But Neil Armstrong later said that he felt Kuiper's crunchy 420 00:27:43,967 --> 00:27:46,500 snow when he stepped down onto the surface for the 421 00:27:46,633 --> 00:27:49,066 very first time. 422 00:27:49,767 --> 00:27:52,867 Some of the things the wanderers left behind. 423 00:28:00,100 --> 00:28:01,900 Thanks to Urey and Kuiper, 424 00:28:02,033 --> 00:28:04,600 Carl Sagan was part of this great adventure. 425 00:28:05,467 --> 00:28:08,700 He was living his most extravagant childhood fantasies. 426 00:28:09,433 --> 00:28:11,467 He briefed the Apollo astronauts before they left 427 00:28:11,600 --> 00:28:12,967 for the Moon. 428 00:28:13,100 --> 00:28:15,300 And he was there when scientists first met to 429 00:28:15,433 --> 00:28:18,033 evaluate the information gained from the dawn 430 00:28:18,166 --> 00:28:20,166 of space exploration. 431 00:28:20,800 --> 00:28:24,300 For the first time ever, the biologist, the geologist, 432 00:28:24,934 --> 00:28:26,133 the astronomers, 433 00:28:26,266 --> 00:28:28,867 the physicists, the chemists were all talking 434 00:28:29,000 --> 00:28:30,533 to one another. 435 00:28:30,667 --> 00:28:32,633 Actually, mostly shouting. 436 00:28:33,433 --> 00:28:35,600 The young Carl Sagan stood up at one of their 437 00:28:35,734 --> 00:28:38,200 joint scientific meetings and said, 438 00:28:38,333 --> 00:28:42,867 "Hey, guys, we're the first generation of scientists to receive these riches. 439 00:28:44,133 --> 00:28:46,600 We're in this together." 440 00:28:46,934 --> 00:28:50,567 He set a tone for planetary science that still holds today. 441 00:28:52,500 --> 00:28:55,700 He edited the first modern interdisciplinary journal for 442 00:28:55,834 --> 00:28:58,367 researchers studying the world of the cosmos, 443 00:28:59,500 --> 00:29:02,300 Icarus, which continues to this day. 444 00:29:02,900 --> 00:29:04,467 And he did something else. 445 00:29:04,600 --> 00:29:07,567 He started a lifelong campaign to bring the revelations of 446 00:29:07,700 --> 00:29:11,934 science to everyone, and he was one of a handful of 447 00:29:12,367 --> 00:29:15,066 scientists who made the search for possible worlds, 448 00:29:15,200 --> 00:29:18,600 for extra-terrestrial life and for intelligence respectable 449 00:29:18,734 --> 00:29:20,700 scientific pursuits. 450 00:29:21,767 --> 00:29:25,100 We've only been hunting for new worlds for a few decades, 451 00:29:25,233 --> 00:29:28,200 but we've already discovered many thousands of them. 452 00:29:30,333 --> 00:29:32,900 We think some of them are hospitable to life and at 453 00:29:33,033 --> 00:29:36,133 least a dozen of them are earth-like. 454 00:29:39,700 --> 00:29:42,633 What will they be like? 455 00:29:43,867 --> 00:29:45,900 Come with me. 456 00:30:00,333 --> 00:30:02,900 TYSON: Carl Sagan wanted to liberate a scientific 457 00:30:03,033 --> 00:30:06,333 imagination from the single example of life that we know, 458 00:30:07,500 --> 00:30:08,867 Earth life. 459 00:30:09,000 --> 00:30:11,667 He envisioned what the life of another very different 460 00:30:11,800 --> 00:30:13,567 world would be like. 461 00:30:13,700 --> 00:30:17,000 Sagan collaborated with fellow astrophysicist Ed Salpeter in 462 00:30:17,133 --> 00:30:20,967 the design of plausible ecological systems for life in 463 00:30:21,100 --> 00:30:23,166 the roiling clouds of Jupiter. 464 00:30:24,967 --> 00:30:28,100 The challenge was to imagine such life-forms without 465 00:30:28,233 --> 00:30:31,467 violating the laws of physics, chemistry or biology. 466 00:30:33,633 --> 00:30:39,066 Is life so tenacious that it could even make a home in this storm of hydrogen, 467 00:30:39,667 --> 00:30:42,600 helium, water, ammonia and methane? 468 00:30:43,867 --> 00:30:46,400 There's no accessible solid surface. 469 00:30:46,533 --> 00:30:49,834 It's just this thick cloudy atmosphere in which organic 470 00:30:49,967 --> 00:30:53,033 molecules are falling like manna from heaven, 471 00:30:54,133 --> 00:30:58,734 like the products of Harold Urey and Stanley Miller's laboratory experiment on life's origin. 472 00:30:59,266 --> 00:31:02,300 However, this environment poses a problem for life. 473 00:31:02,900 --> 00:31:07,200 The atmosphere is turbulent and deep down it's very hot. 474 00:31:08,033 --> 00:31:10,800 An organism must be careful that it's not carried downward 475 00:31:10,934 --> 00:31:13,300 to the hell below. 476 00:31:14,734 --> 00:31:16,767 One way to make a living under these conditions is to 477 00:31:16,900 --> 00:31:19,400 reproduce before you sink and get fried. 478 00:31:20,800 --> 00:31:23,567 Your only hope is that convection will carry some of 479 00:31:23,700 --> 00:31:26,133 your offspring to the higher and cooler layers 480 00:31:26,266 --> 00:31:28,667 of the atmosphere. 481 00:31:30,367 --> 00:31:33,000 Such organisms could be very small. 482 00:31:33,667 --> 00:31:36,133 Sagan and Salpeter call them "sinkers." 483 00:31:39,100 --> 00:31:41,266 But you could also be a "floater," 484 00:31:41,400 --> 00:31:45,734 a vast hydrogen blimp pumping helium and heavier gases out of your interior and 485 00:31:45,867 --> 00:31:48,834 retaining only the lightest gas, hydrogen. 486 00:31:50,734 --> 00:31:53,800 Sagan and Salpeter reasoned that like a hot air balloon 487 00:31:53,934 --> 00:31:57,200 you'd stay buoyant by keeping your interior warm using 488 00:31:57,333 --> 00:32:00,133 energy acquired from the foods you eat. 489 00:32:00,734 --> 00:32:04,200 A floater must eat organic molecules or make its own food 490 00:32:04,333 --> 00:32:07,200 from sunlight and air, as plants do on Earth. 491 00:32:09,533 --> 00:32:13,000 The bigger a floater is, the more efficient it will be, 492 00:32:13,133 --> 00:32:15,300 up to a point. 493 00:32:15,934 --> 00:32:18,934 Floaters would be immense, several kilometers across, 494 00:32:20,800 --> 00:32:24,133 enormously larger than the greatest whale that ever was, 495 00:32:24,700 --> 00:32:27,367 beings the size of cities. 496 00:32:27,500 --> 00:32:29,367 The floaters may propel themselves through the 497 00:32:29,500 --> 00:32:32,200 planetary atmosphere with gusts of gas, 498 00:32:32,333 --> 00:32:34,300 like a ramjet or a rocket. 499 00:32:36,133 --> 00:32:39,066 Sagan and Salpeter imagined them arranged in great lazy 500 00:32:39,200 --> 00:32:41,700 herds for as far as the eye could see. 501 00:32:43,467 --> 00:32:46,533 The patterns on their skin are adaptive camouflage, 502 00:32:46,667 --> 00:32:49,367 implying that they have problems, too, 503 00:32:49,667 --> 00:32:53,767 because there's at least one other ecological niche in such an environment... 504 00:33:02,033 --> 00:33:04,100 Hunters. 505 00:33:04,233 --> 00:33:06,633 Hunters are fast, maneuverable. 506 00:33:11,433 --> 00:33:13,100 Hunters eat the floaters, 507 00:33:13,233 --> 00:33:15,433 both for their organic molecules and for their 508 00:33:15,567 --> 00:33:17,700 store of pure hydrogen. 509 00:33:42,133 --> 00:33:46,100 There cannot be very many hunters because if they consume all the floaters, 510 00:33:46,934 --> 00:33:49,333 the hunters themselves will parish. 511 00:34:03,166 --> 00:34:05,967 When scientists of the 21st century tested Sagan's 512 00:34:06,100 --> 00:34:08,867 imaginary life-forms against what they knew of life, 513 00:34:09,767 --> 00:34:13,333 they realized that the concept of a habitable zone 514 00:34:13,467 --> 00:34:15,500 had to be expanded. 515 00:34:15,633 --> 00:34:18,467 It moved into the cloud tops of gas giants and 516 00:34:18,600 --> 00:34:20,834 the subsurface oceans of ice worlds, 517 00:34:21,333 --> 00:34:24,200 and places we've yet to imagine. 518 00:34:24,900 --> 00:34:27,800 Of all those worlds, of all those stars, 519 00:34:29,400 --> 00:34:32,266 one must have been first. 520 00:34:35,433 --> 00:34:38,467 Come with me to the oldest world we know. 521 00:34:46,700 --> 00:34:49,166 TYSON: We're in a globular cluster, 522 00:34:49,300 --> 00:34:53,633 a densely packed ball of a million stars, called M4, 523 00:34:54,033 --> 00:34:56,867 on the outskirts of the Milky Way galaxy. 524 00:34:57,200 --> 00:34:59,900 When pulsars, rapidly rotating neutron stars, 525 00:35:00,033 --> 00:35:03,533 were first discovered, scientists wondered if they 526 00:35:03,667 --> 00:35:06,900 were a sign of intelligent life because of the regularity 527 00:35:07,033 --> 00:35:08,834 of their radio signals. 528 00:35:09,934 --> 00:35:12,900 Once upon a time, this star was a blue supergiant, 529 00:35:13,033 --> 00:35:15,934 but after a few million years, it ran out of fuel, 530 00:35:16,533 --> 00:35:19,934 went supernova, then collapsed into this ball of neutrons, 531 00:35:20,734 --> 00:35:23,233 no larger than a small town. 532 00:35:23,367 --> 00:35:25,867 It's nearby companion, a white dwarf star, 533 00:35:26,000 --> 00:35:28,133 another burnt-out stellar corpse, 534 00:35:28,266 --> 00:35:30,934 orbits only a few million miles away. 535 00:35:31,066 --> 00:35:32,667 That's not why we've come here. 536 00:35:32,800 --> 00:35:36,700 We've come in search of the oldest known planet in the cosmos. 537 00:35:39,667 --> 00:35:41,667 The cosmos was young when this star, 538 00:35:41,800 --> 00:35:45,333 a white dwarf, was born, 12.7 billion years ago. 539 00:35:46,767 --> 00:35:49,667 The star was single then, long before it was captured 540 00:35:49,800 --> 00:35:52,667 by the pulsar that gave birth to a world. 541 00:35:53,400 --> 00:35:55,700 That world is out here somewhere, 542 00:35:55,834 --> 00:35:58,867 taking 100 Earth years to orbit these two shrunken stars. 543 00:36:01,000 --> 00:36:04,100 The fact that it exists bodes well for those who dream of 544 00:36:04,233 --> 00:36:06,433 virtually infinite possible worlds. 545 00:36:07,867 --> 00:36:11,767 If it formed less than a billion years after the cosmos itself, 546 00:36:11,900 --> 00:36:14,967 then stars started fostering planets soon after 547 00:36:15,100 --> 00:36:17,633 the beginning of time. 548 00:36:18,133 --> 00:36:21,633 Nurturing worlds is what stars do. 549 00:36:23,200 --> 00:36:26,700 And what will the fate of this oldest of planets be? 550 00:36:27,500 --> 00:36:30,166 Sorry to say, it's a lonely one. 551 00:36:30,300 --> 00:36:32,567 Sometime in the next billion years, 552 00:36:32,700 --> 00:36:36,400 the two stars will be gravitationally ambushed by a third. 553 00:36:44,233 --> 00:36:47,934 A red dwarf star will come barreling into their vicinity. 554 00:36:48,066 --> 00:36:51,567 It's gravity will send this ancient world careening out of 555 00:36:51,700 --> 00:36:56,600 its system and into the lonely dark between the stars. 556 00:36:57,400 --> 00:37:02,266 A rogue planet doomed to wander a never-ending oblivion. 557 00:37:03,433 --> 00:37:06,967 But there are also homes away from home that call to us, 558 00:37:07,100 --> 00:37:09,633 illuminated in warmth not by one star, 559 00:37:09,767 --> 00:37:11,000 but three. 560 00:37:11,433 --> 00:37:14,700 I want to take you to Gliese 667, 561 00:37:15,000 --> 00:37:17,333 a triple-star system with six worlds, 562 00:37:17,467 --> 00:37:21,934 three of them enough like earth to hold the promise of life as we know it. 563 00:37:37,633 --> 00:37:42,300 Stars A and B are both a little smaller than our Sun. 564 00:37:44,166 --> 00:37:47,533 This pair of orange dwarfs orbit each other. 565 00:37:48,567 --> 00:37:52,233 Star C orbits them both, it's a red dwarf. 566 00:37:53,667 --> 00:37:56,500 They're the most common kind of star in the galaxy. 567 00:37:57,033 --> 00:38:00,100 As many as 80% of all the stars in the cosmos may 568 00:38:00,233 --> 00:38:02,567 be red dwarfs. 569 00:38:02,967 --> 00:38:05,533 They consume their hydrogen fuel slowly, 570 00:38:05,667 --> 00:38:07,633 so they last longer. 571 00:38:07,767 --> 00:38:10,000 More massive stars, like blue giants, 572 00:38:10,133 --> 00:38:13,667 maintain such high pressures that they burn out quickly. 573 00:38:27,200 --> 00:38:30,867 This outermost world of the Gliese 667 system is 574 00:38:31,000 --> 00:38:34,367 four times the size of earth, but it's too far from 575 00:38:34,500 --> 00:38:37,667 its stars to have liquid water on its surface. 576 00:38:38,100 --> 00:38:40,033 That doesn't mean it's lifeless. 577 00:38:40,166 --> 00:38:42,433 We don't yet know enough about life to say what 578 00:38:42,567 --> 00:38:45,600 might be going on beneath its frozen shell. 579 00:38:46,066 --> 00:38:47,934 We haven't yet reached the habitable zone of 580 00:38:48,066 --> 00:38:49,734 this star system. 581 00:38:49,867 --> 00:38:52,600 Getting closer, but not there yet, 582 00:38:53,200 --> 00:38:55,266 this even larger world is impressive, 583 00:38:56,100 --> 00:38:58,834 but still just outside that region considered to be 584 00:38:58,967 --> 00:39:03,400 hospitable to life and to the human scientific imagination. 585 00:39:07,834 --> 00:39:10,233 Now, this is more like it. 586 00:39:10,734 --> 00:39:14,033 The kind of atmosphere that promises life is here. 587 00:39:33,667 --> 00:39:39,433 ♪ ♪ 588 00:39:59,333 --> 00:40:01,367 ♪ ♪ 589 00:40:02,734 --> 00:40:05,900 (animal call) 590 00:40:36,767 --> 00:40:42,667 (waves and wind) 591 00:40:43,400 --> 00:40:48,033 (distant animal calls) 592 00:41:07,033 --> 00:41:11,433 (waves and wind) 593 00:41:29,200 --> 00:41:31,867 This isn't the stuff of distant worlds, 594 00:41:32,000 --> 00:41:34,133 this little guy is one of our own. 595 00:41:34,533 --> 00:41:38,467 All the other life-forms we've just seen were actually homegrown, 596 00:41:38,600 --> 00:41:40,500 right here on Earth. 597 00:41:40,867 --> 00:41:42,800 We haven't even begun to get to know all the 598 00:41:42,934 --> 00:41:45,433 living things on this tiny world. 599 00:41:46,000 --> 00:41:47,700 Think of all the possibilities, 600 00:41:47,834 --> 00:41:50,400 the different kinds of life there must have been, 601 00:41:50,533 --> 00:41:53,700 and are, and will be in the cosmos. 602 00:41:54,133 --> 00:41:55,567 Thanks to Gerard Kuiper, 603 00:41:55,700 --> 00:41:58,066 Harold Urey and so many other scientists, 604 00:41:58,200 --> 00:42:02,667 we now know that it takes just a few million years for stars to evolve, 605 00:42:03,200 --> 00:42:06,633 and planets and moons to coalesce out of gas and dust. 606 00:42:07,600 --> 00:42:10,500 In other words, a solar system. 607 00:42:20,700 --> 00:42:22,633 It's a long period of gestation, 608 00:42:22,767 --> 00:42:24,300 but far from rare. 609 00:42:24,433 --> 00:42:27,667 In our own galaxy, it happens about once every month. 610 00:42:28,233 --> 00:42:29,967 In the observable universe, 611 00:42:30,100 --> 00:42:31,867 which we now think contains as many as 612 00:42:32,000 --> 00:42:34,467 a trillion galaxies, containing some 613 00:42:34,600 --> 00:42:38,000 200 million trillion stars, 614 00:42:39,266 --> 00:42:43,967 a cosmos of 200 million trillion stars, 615 00:42:45,233 --> 00:42:49,133 1,000 solar systems may be forming every single second. 616 00:42:50,367 --> 00:42:53,367 That's 1,000 new solar systems right there. 617 00:42:55,233 --> 00:42:56,800 1,000 new solar systems. 618 00:42:57,834 --> 00:42:59,233 1,000 new solar systems. 619 00:43:00,033 --> 00:43:01,433 1,000 new solar systems. 620 00:43:02,333 --> 00:43:04,367 1,000 new solar systems. 621 00:43:04,934 --> 00:43:06,867 1,000 new solar systems. 622 00:43:07,767 --> 00:43:09,800 1,000 new solar systems. 623 00:43:10,333 --> 00:43:11,467 (finger snap) 624 00:43:12,200 --> 00:43:13,400 (finger snap) 625 00:43:52,200 --> 00:43:54,166 Captioned by Cotter Captioning Services. 51061