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These are the user uploaded subtitles that are being translated: 1 00:00:22,000 --> 00:00:25,118 BRIAN COX: The night sky is ablaze with stars. 2 00:00:27,400 --> 00:00:31,360 Hundreds of billions in our galaxy alone. 3 00:00:32,480 --> 00:00:37,839 Many larger, brighter and more majestic than our Sun. 4 00:00:43,200 --> 00:00:46,955 On the scale of galaxies and stars, the planets of our solar system 5 00:00:47,080 --> 00:00:49,037 are little more than grains of sand 6 00:00:49,160 --> 00:00:51,391 caught momentarily in the light of the Sun. 7 00:00:51,520 --> 00:00:55,833 But on those motes of dust, for over 4 billion years, 8 00:00:55,960 --> 00:00:58,600 great stories have played out unseen. 9 00:01:02,880 --> 00:01:04,792 Stories of worlds born... 10 00:01:06,000 --> 00:01:07,912 ...and worlds lost. 11 00:01:13,680 --> 00:01:16,354 Planets forged amongst the calm... 12 00:01:18,000 --> 00:01:19,719 ...and the chaos. 13 00:01:22,800 --> 00:01:27,317 Their destinies more entwined than we ever imagined. 14 00:01:31,520 --> 00:01:33,273 We know this... 15 00:01:33,400 --> 00:01:36,359 ...because in the last few decades, 16 00:01:36,480 --> 00:01:42,078 we've sent spacecraft to all seven of the worlds beyond our own. 17 00:01:46,520 --> 00:01:49,433 These are the stories that they return to Earth, 18 00:01:49,560 --> 00:01:51,756 the stories of the planets. 19 00:02:18,360 --> 00:02:21,671 For the first few million years after the Sun formed, 20 00:02:21,800 --> 00:02:24,235 there were no planets to see it rise. 21 00:02:31,960 --> 00:02:35,351 Just clouds of dust and gas. 22 00:02:39,680 --> 00:02:42,559 The leftovers from the birth of the Sun. 23 00:02:47,520 --> 00:02:52,959 Over tens of millions of years, the dust began to stick together 24 00:02:53,080 --> 00:02:54,833 and form the first rocks. 25 00:03:00,840 --> 00:03:06,996 Eventually, gravity assembled the rocks to create planetary embryos... 26 00:03:08,840 --> 00:03:13,915 ...that, in time, formed the four closest planets to the Sun. 27 00:03:32,600 --> 00:03:35,672 Today, Mercury is the closest of all, 28 00:03:35,800 --> 00:03:38,315 enduring the Sun's full glare. 29 00:03:40,360 --> 00:03:44,195 Further out lies Venus... 30 00:03:47,320 --> 00:03:49,551 ...choked by a thick atmosphere. 31 00:03:52,000 --> 00:03:54,959 Then Venus's neighbour - Earth. 32 00:03:57,800 --> 00:04:00,679 And farthest of all - Mars. 33 00:04:05,000 --> 00:04:07,390 A cold desert world. 34 00:04:09,920 --> 00:04:14,278 Together, they form the only rocky so-called terrestrial planets 35 00:04:14,400 --> 00:04:15,720 in the solar system. 36 00:04:17,440 --> 00:04:20,990 And of the four, one is unique. 37 00:04:23,480 --> 00:04:26,871 (BIRDSONG) 38 00:04:34,200 --> 00:04:38,319 Just look at this... and listen to it. 39 00:04:38,440 --> 00:04:41,114 This is what a planet looks and sounds like 40 00:04:41,240 --> 00:04:44,790 after 4 billion years of evolution by natural selection. 41 00:04:44,920 --> 00:04:49,551 There is nowhere else in the solar system that looks and sounds like this, 42 00:04:49,680 --> 00:04:51,876 which is interesting when you think about it, 43 00:04:52,000 --> 00:04:55,596 because all the planets and moons are made out of the same stuff - 44 00:04:55,720 --> 00:04:59,191 the carbon, nitrogen, oxygen, iron - 45 00:04:59,320 --> 00:05:03,109 all those atoms were present in the cloud that collapsed 46 00:05:03,240 --> 00:05:06,950 to form the solar system 4.5 billion years ago. 47 00:05:07,080 --> 00:05:10,756 And yet, Earth appears to be exceptional, 48 00:05:10,880 --> 00:05:15,432 a lone living planet in an otherwise desolate solar system. 49 00:05:16,720 --> 00:05:20,794 So, what is it that makes this place so special? 50 00:05:20,920 --> 00:05:25,233 Is it fate? Is it chance? These are important questions, 51 00:05:25,360 --> 00:05:27,397 because Earth is the only place we know of 52 00:05:27,520 --> 00:05:31,480 where the most complex phenomena in the universe exist, 53 00:05:31,600 --> 00:05:35,833 the thing that brings meaning to the universe - life. 54 00:05:57,800 --> 00:06:01,874 Earth is a special world in our solar system, 55 00:06:02,000 --> 00:06:05,676 and perhaps even for thousands of light years beyond. 56 00:06:13,440 --> 00:06:16,956 Our world certainly has unique properties. 57 00:06:18,120 --> 00:06:21,192 It's the right size and distance from the Sun 58 00:06:21,320 --> 00:06:23,198 to have retained an atmosphere 59 00:06:23,320 --> 00:06:28,111 that's protected its oceans of life-giving water for billions of years. 60 00:06:33,560 --> 00:06:39,875 But as we've left the Blue Planet and explored our sister worlds... 61 00:06:43,320 --> 00:06:48,395 ...we've discovered that each appears to have had a moment 62 00:06:48,520 --> 00:06:51,433 when it's enjoyed almost Earth-like conditions. 63 00:07:01,200 --> 00:07:07,515 Every one of our rocky neighbours has a story of what might have been. 64 00:07:27,760 --> 00:07:30,912 Mercury is a small, tortured world. 65 00:07:35,200 --> 00:07:37,078 More than any other planet, 66 00:07:37,200 --> 00:07:42,116 it's endured the unflinching glare of the Sun for billions of years. 67 00:07:46,960 --> 00:07:50,271 Mercury is a world of mystery and apparent contradictions. 68 00:07:50,400 --> 00:07:52,198 It's in quite an elliptical orbit, 69 00:07:52,320 --> 00:07:56,109 which means it can be as far away from the Sun as 70 million kilometres 70 00:07:56,240 --> 00:07:58,994 but as close as 46 million. 71 00:07:59,120 --> 00:08:01,077 That means that temperatures at midday 72 00:08:01,200 --> 00:08:06,116 can rise to 430 degrees Celsius on the surface, but at night, 73 00:08:06,240 --> 00:08:08,800 because it's a small planet and it's got no atmosphere, 74 00:08:08,920 --> 00:08:12,516 temperatures fall to minus 170 degrees. 75 00:08:12,640 --> 00:08:15,917 It's also locked into what's called a spin-orbit resonance, 76 00:08:16,040 --> 00:08:20,717 which means the planet spins precisely three times on its axis 77 00:08:20,840 --> 00:08:22,354 for every two orbits, 78 00:08:22,480 --> 00:08:27,475 and that, in turn, means that its day is twice as long as its year, 79 00:08:27,600 --> 00:08:31,913 and that means that I could walk over the surface like this, about 2mph, 80 00:08:32,040 --> 00:08:34,316 and keep the Sun at the same point in the sky. 81 00:08:34,440 --> 00:08:37,877 I could stroll in eternal twilight. 82 00:08:42,200 --> 00:08:45,910 Mercury is the least explored of the inner rocky worlds... 83 00:08:48,800 --> 00:08:53,352 ...because getting to a planet in such a strange oval-shaped orbit, 84 00:08:53,480 --> 00:08:56,200 so close to the Sun, 85 00:08:56,320 --> 00:08:58,630 is a tremendous challenge. 86 00:08:58,760 --> 00:09:02,197 COMMS: Five, four, three, 87 00:09:02,320 --> 00:09:05,631 main engines start, two, one and zero, 88 00:09:05,760 --> 00:09:09,754 and liftoff of Messenger, on NASA's mission to Mercury. 89 00:09:13,240 --> 00:09:16,074 A planetary enigma in our inner solar system. 90 00:09:21,680 --> 00:09:23,239 Now going through the sound barrier. 91 00:09:25,120 --> 00:09:27,919 BRIAN COX: A direct route to Mercury is impractical. 92 00:09:28,040 --> 00:09:33,593 COMMS: Now going through the period of maximum dynamic pressure. 93 00:09:33,720 --> 00:09:36,315 BRIAN COX: A spacecraft would arrive with so much speed 94 00:09:36,440 --> 00:09:38,238 that it would need vast amounts of fuel 95 00:09:38,360 --> 00:09:41,273 to slow down and enter orbit around Mercury. 96 00:09:41,400 --> 00:09:44,040 We just had spacecraft separation. 97 00:09:46,400 --> 00:09:48,392 COMMS: Ground-lit solids have jettisoned. 98 00:09:50,560 --> 00:09:53,314 BRIAN COX: So Messenger controlled its trajectory 99 00:09:53,440 --> 00:09:56,638 by stepping from one planet to the next, 100 00:09:56,760 --> 00:09:59,275 using gravity to slow itself, 101 00:09:59,400 --> 00:10:02,154 spiralling inwards towards its target. 102 00:10:17,400 --> 00:10:21,679 Even so, Messenger approached Mercury at such high speed 103 00:10:21,800 --> 00:10:25,350 that it was forced to fly past the planet three times... 104 00:10:28,040 --> 00:10:29,713 ...slowing on each pass... 105 00:10:39,320 --> 00:10:43,758 ...until, after almost seven years of flawless navigation, 106 00:10:43,880 --> 00:10:46,156 it arrived safely in orbit. 107 00:11:08,360 --> 00:11:12,559 Messenger set about its mission to map Mercury's surface... 108 00:11:16,040 --> 00:11:17,997 ...and began revealing the secrets 109 00:11:18,120 --> 00:11:21,591 of the most-cratered planet in the solar system 110 00:11:21,720 --> 00:11:23,632 in exquisite new detail. 111 00:11:49,680 --> 00:11:52,479 Messenger was able to do much more 112 00:11:52,600 --> 00:11:55,240 than just take images of Mercury's surface. 113 00:11:56,800 --> 00:12:00,237 By tracking radio signals emitted by the spacecraft, 114 00:12:00,360 --> 00:12:04,752 we're able to see very slight changes in the orbital path around Mercury, 115 00:12:04,880 --> 00:12:06,200 as seen from Earth, 116 00:12:06,320 --> 00:12:09,552 and that allows us to map out Mercury's gravitational field. 117 00:12:09,680 --> 00:12:14,311 There are also instruments that allow us to see how the planet wobbles around 118 00:12:14,440 --> 00:12:15,794 as it spins on its axis, 119 00:12:15,920 --> 00:12:18,515 and putting all these measurements together allows us 120 00:12:18,640 --> 00:12:21,633 to take a cross section through the planet 121 00:12:21,760 --> 00:12:23,035 to see what it's made of. 122 00:12:23,160 --> 00:12:26,631 And when we do that, we find something very strange. 123 00:12:26,760 --> 00:12:31,198 Mercury's core extends out about 85% 124 00:12:31,320 --> 00:12:33,630 from the centre of the planet to the surface. 125 00:12:33,760 --> 00:12:37,720 It's almost entirely an exposed planetary core. 126 00:12:37,840 --> 00:12:42,039 It's as if the rocks of the surface were smashed away 127 00:12:42,160 --> 00:12:44,311 and removed at some point in its past. 128 00:12:48,680 --> 00:12:49,909 And there was more. 129 00:12:51,320 --> 00:12:54,711 The tiny probe began detecting chemical elements 130 00:12:54,840 --> 00:12:59,710 in concentrations that no-one had thought possible this close to the Sun. 131 00:13:06,360 --> 00:13:09,353 The discovery of relatively large concentrations 132 00:13:09,480 --> 00:13:15,078 of elements like sulphur and potassium on Mercury's surface was a huge surprise. 133 00:13:15,200 --> 00:13:18,511 If you think back to the time when the planets were forming, 134 00:13:18,640 --> 00:13:21,519 you don't expect high concentrations of those elements 135 00:13:21,640 --> 00:13:24,553 close to the Sun, where Mercury orbits today, 136 00:13:24,680 --> 00:13:27,115 because they're so-called volatile elements - 137 00:13:27,240 --> 00:13:31,678 they boil away easily - so you'll only find high concentrations further out, 138 00:13:31,800 --> 00:13:34,235 in the colder reaches of the solar system. 139 00:13:34,360 --> 00:13:37,194 So Mercury is an enigma, 140 00:13:37,320 --> 00:13:39,789 and discoveries like these have forced us 141 00:13:39,920 --> 00:13:44,278 to completely rethink our theories about the formation of the planet. 142 00:13:56,200 --> 00:13:59,113 Just a few million years after its formation, 143 00:13:59,240 --> 00:14:03,234 Mercury was still seething with the heat of its violent birth. 144 00:14:05,120 --> 00:14:06,600 (RUMBLING) 145 00:14:13,880 --> 00:14:17,510 Slowly, it cooled, and a crust formed. 146 00:14:25,440 --> 00:14:29,992 Over time, the crust became enriched in the volatile elements 147 00:14:30,120 --> 00:14:32,555 that were escaping Mercury's interior. 148 00:14:34,960 --> 00:14:38,431 But this could only happen if Mercury started out 149 00:14:38,560 --> 00:14:42,440 not in the position we see it today, 150 00:14:42,560 --> 00:14:44,233 but much further out. 151 00:14:46,440 --> 00:14:49,080 We now think Mercury was born 152 00:14:49,200 --> 00:14:53,479 perhaps 170 million kilometres further away, 153 00:14:53,600 --> 00:14:55,671 close to the orbit of Mars, 154 00:14:55,800 --> 00:14:59,794 a place where, if it had stayed, 155 00:14:59,920 --> 00:15:02,879 its destiny could have been very different. 156 00:15:20,720 --> 00:15:22,120 But it wasn't to be. 157 00:15:23,440 --> 00:15:27,753 The young planetary embryo was ripped from its promising position 158 00:15:27,880 --> 00:15:29,792 long before it could mature. 159 00:15:40,560 --> 00:15:43,712 Today, it's hard to imagine the planets in orbits 160 00:15:43,840 --> 00:15:46,560 other than the ones we see in the night sky. 161 00:15:46,680 --> 00:15:49,957 They feel eternal, permanent. 162 00:15:51,320 --> 00:15:55,234 It's natural to think of the solar system as a piece of celestial clockwork, 163 00:15:55,360 --> 00:15:57,477 almost like a Swiss watch, 164 00:15:57,600 --> 00:16:01,150 so if we knew where all the planets were at some point in time, 165 00:16:01,280 --> 00:16:04,478 let's say today, then we could imagine calculating 166 00:16:04,600 --> 00:16:07,991 exactly where they're going to be at any point in time. 167 00:16:08,120 --> 00:16:12,433 Now, that is true if there's only one planet and one star. 168 00:16:12,560 --> 00:16:15,519 So imagine that's the Sun and this is Mercury. 169 00:16:15,640 --> 00:16:19,190 Now, we know the gravitational force between Mercury and the Sun, 170 00:16:19,320 --> 00:16:21,915 and, indeed, if that's all there is, 171 00:16:22,040 --> 00:16:25,670 then we can calculate its orbit around the Sun 172 00:16:25,800 --> 00:16:28,110 with essentially infinite precision. 173 00:16:28,240 --> 00:16:32,996 But add in one more planet, let's say Jupiter over there. 174 00:16:33,120 --> 00:16:37,433 Now there's a gravitational force between all three of these objects 175 00:16:37,560 --> 00:16:40,837 and it turns out that, even in principle, 176 00:16:40,960 --> 00:16:42,713 it is not possible to calculate 177 00:16:42,840 --> 00:16:45,674 exactly where they're all going to be in the future 178 00:16:45,800 --> 00:16:50,317 or where they were at some point in the past. 179 00:16:50,440 --> 00:16:54,480 This means that any uncertainty, even of a few metres, 180 00:16:54,600 --> 00:16:58,514 in our knowledge of the position of the planets 181 00:16:58,640 --> 00:17:00,950 can lead to radically different predictions. 182 00:17:02,520 --> 00:17:06,673 And that's because the system itself, the orbits of the planets, 183 00:17:06,800 --> 00:17:10,350 are not stable over very long timescales. 184 00:17:13,480 --> 00:17:18,316 So planets don't necessarily remain in the same orbits for ever. 185 00:17:25,440 --> 00:17:26,840 And the evidence we've gathered 186 00:17:26,960 --> 00:17:31,830 from the volatiles on Mercury's surface and the unusual size of its core 187 00:17:31,960 --> 00:17:34,839 suggests that this may have been what happened. 188 00:17:38,320 --> 00:17:40,880 (WHOOSHING) 189 00:17:44,480 --> 00:17:46,153 If Mercury began its life 190 00:17:46,280 --> 00:17:49,990 170 million kilometres further away from the Sun... 191 00:17:52,560 --> 00:17:54,916 ...then it would have been in a region of space 192 00:17:55,040 --> 00:17:57,157 where the young Mars was also forming. 193 00:18:03,840 --> 00:18:07,516 This region was full of scores of planetary embryos, 194 00:18:07,640 --> 00:18:09,472 all fighting for position. 195 00:18:18,120 --> 00:18:23,434 Amongst the chaos, something large kicked Mercury inwards, 196 00:18:23,560 --> 00:18:25,074 towards the Sun. 197 00:18:49,360 --> 00:18:51,920 Mercury collided with another embryo. 198 00:19:01,640 --> 00:19:07,318 A glancing blow saw much of its crust and mantle lost to space. 199 00:19:16,200 --> 00:19:18,954 Much of this material remained behind, 200 00:19:19,080 --> 00:19:21,993 perhaps helping to form the early Venus. 201 00:19:25,960 --> 00:19:29,237 If the theory is correct, then Mercury, 202 00:19:29,360 --> 00:19:31,750 now little more than a planetary core, 203 00:19:31,880 --> 00:19:34,270 continued towards the Sun 204 00:19:34,400 --> 00:19:38,997 and ended up in the peculiar elliptical orbit we see today. 205 00:19:50,640 --> 00:19:53,712 The idea that Mercury's outer layers were stripped away 206 00:19:53,840 --> 00:19:56,833 in some violent collision many billions of years ago 207 00:19:56,960 --> 00:19:58,872 is a superficially attractive one. 208 00:19:59,000 --> 00:20:01,834 But the theory does have problems. 209 00:20:01,960 --> 00:20:05,590 Any collision violent enough to do that heats up the planet, 210 00:20:05,720 --> 00:20:08,155 and that boils away the volatiles. 211 00:20:08,280 --> 00:20:12,320 So you have to think of a very specific kind of collision, 212 00:20:12,440 --> 00:20:16,070 or perhaps even multiple, more delicate collisions, 213 00:20:16,200 --> 00:20:18,396 in order to fit the data. 214 00:20:18,520 --> 00:20:20,796 So, I think it's fair to say 215 00:20:20,920 --> 00:20:24,197 that the precise nature of Mercury's formation 216 00:20:24,320 --> 00:20:29,520 is still one of the great unsolved mysteries in planetary science. 217 00:20:35,560 --> 00:20:37,438 After four years of observation 218 00:20:37,560 --> 00:20:42,157 and its discoveries that hint at Mercury's turbulent past, 219 00:20:42,280 --> 00:20:44,749 Messenger finally ran out of fuel... 220 00:20:53,480 --> 00:20:57,679 ...and added yet another crater to this tiny world that, 221 00:20:57,800 --> 00:21:01,840 just perhaps, could have had a different story to tell. 222 00:21:26,080 --> 00:21:29,676 50 million kilometres beyond Mercury, 223 00:21:29,800 --> 00:21:33,999 shrouded by an unbroken blanket of cloud, 224 00:21:34,120 --> 00:21:37,079 lies a world which, at first sight, 225 00:21:37,200 --> 00:21:40,716 has the potential to be far more Earth-like. 226 00:21:56,160 --> 00:22:00,040 You see that bright point of light out there in the evening sky? 227 00:22:00,160 --> 00:22:01,674 That's Venus. 228 00:22:01,800 --> 00:22:04,793 It's so bright because it's quite a large planet, 229 00:22:04,920 --> 00:22:07,719 about the same size as the Earth, it's not too far away, 230 00:22:07,840 --> 00:22:13,040 but in particular because it's shrouded in highly reflective clouds. 231 00:22:13,160 --> 00:22:17,871 Now, that's the frustrating but also tantalising thing about Venus. 232 00:22:18,000 --> 00:22:20,356 Even through a big telescope, when you look at it, 233 00:22:20,480 --> 00:22:23,120 it is featureless - you never see the surface. 234 00:22:23,240 --> 00:22:25,800 And that meant that, even until the 1950s, 235 00:22:25,920 --> 00:22:29,311 astronomers speculated that it might be a living world 236 00:22:29,440 --> 00:22:33,195 with jungles and forests and rivers and oceans. 237 00:22:33,320 --> 00:22:34,436 So much so, in fact, 238 00:22:34,560 --> 00:22:38,634 that when we first sent a spacecraft to land on the surface of Venus, 239 00:22:38,760 --> 00:22:40,877 we prepared for a splash landing. 240 00:22:42,560 --> 00:22:45,359 (IN RUSSIAN) 241 00:23:00,440 --> 00:23:03,433 (IN RUSSIAN) 242 00:23:23,160 --> 00:23:24,992 Throughout the 1960s and '70s, 243 00:23:25,120 --> 00:23:30,559 the Soviet Venera programme sent multiple missions to explore Venus. 244 00:23:34,280 --> 00:23:35,475 Many failed... 245 00:23:36,920 --> 00:23:38,832 ...but with each attempt, 246 00:23:38,960 --> 00:23:42,874 we learned a little more of the extreme conditions on the planet. 247 00:24:14,160 --> 00:24:19,519 After 20 years of trying, Venera 13 began its perilous descent. 248 00:24:46,360 --> 00:24:49,273 The craft was prepared to withstand pressures 249 00:24:49,400 --> 00:24:51,517 that could crush a car in seconds... 250 00:24:53,400 --> 00:24:56,313 ...and temperatures that would melt lead. 251 00:25:01,040 --> 00:25:03,430 On 1st March 1982... 252 00:25:06,600 --> 00:25:09,752 ...the Soviets took the first full colour picture... 253 00:25:11,760 --> 00:25:13,240 ...of the Venusian surface. 254 00:25:34,520 --> 00:25:37,115 Even under the most extreme of conditions, 255 00:25:37,240 --> 00:25:40,392 the probe sent its precious data home to Earth... 256 00:25:49,400 --> 00:25:55,840 ...until, 127 minutes after touchdown, it finally succumbed. 257 00:25:57,120 --> 00:25:59,715 Far from a benign ocean world... 258 00:26:00,920 --> 00:26:02,752 ...Venus is a vision of hell... 259 00:26:04,200 --> 00:26:06,032 ...where no life can survive. 260 00:26:16,160 --> 00:26:18,550 So, where did it all go wrong for Venus? 261 00:26:18,680 --> 00:26:22,640 Well, that is a good question, and it's an important one. 262 00:26:22,760 --> 00:26:25,116 It's been said that we won't fully understand the Earth 263 00:26:25,240 --> 00:26:26,390 until we understand Venus, 264 00:26:26,520 --> 00:26:28,955 and that's because the planets are so similar. 265 00:26:29,080 --> 00:26:32,152 Venus is the same size as the Earth, 266 00:26:32,280 --> 00:26:35,637 and it's the same composition, as far as we know, 267 00:26:35,760 --> 00:26:39,800 and although it's closer to the Sun, it's not as close as Mercury. 268 00:26:39,920 --> 00:26:43,630 So why is it that one world remained heaven 269 00:26:43,760 --> 00:26:46,480 whilst the other became hell? 270 00:26:54,160 --> 00:26:55,833 Counterintuitively, 271 00:26:55,960 --> 00:27:01,319 the surface temperatures today on Venus are hotter than those on Mercury. 272 00:27:08,080 --> 00:27:11,676 And the story of Venus's climate is further complicated 273 00:27:11,800 --> 00:27:15,430 by the fact that, over the lifetime of the planet, 274 00:27:15,560 --> 00:27:18,632 the Sun itself has been evolving. 275 00:27:21,600 --> 00:27:27,073 As the Sun gets older, the star burns hotter and hotter and hotter. 276 00:27:27,200 --> 00:27:30,113 That means that, in the past, when the Sun was younger, 277 00:27:30,240 --> 00:27:32,152 it must have been cooler. 278 00:27:32,280 --> 00:27:34,431 It's called the faint young Sun. 279 00:27:34,560 --> 00:27:36,711 And that has a big impact on the planets. 280 00:27:36,840 --> 00:27:40,959 At the time when life was just about beginning on the Earth, 281 00:27:41,080 --> 00:27:43,595 3.5 to 4 billion years ago, 282 00:27:43,720 --> 00:27:44,915 the Sun was fainter. 283 00:27:45,040 --> 00:27:47,555 And that means that Venus was cooler. 284 00:27:47,680 --> 00:27:50,036 In fact, temperatures on Venus at that time 285 00:27:50,160 --> 00:27:54,040 would have been like a pleasant spring day here on Earth. 286 00:28:05,280 --> 00:28:07,920 Within a few millions years of its formation, 287 00:28:08,040 --> 00:28:10,350 the surface of Venus had cooled. 288 00:28:14,240 --> 00:28:17,438 The planet now found itself at just the right distance 289 00:28:17,560 --> 00:28:19,836 from the faint young Sun 290 00:28:19,960 --> 00:28:25,194 for Venus to experience a sight familiar to us here on Earth. 291 00:28:43,800 --> 00:28:45,075 The heavens opened. 292 00:29:02,920 --> 00:29:06,516 Great torrents flooded the surface. 293 00:29:08,320 --> 00:29:10,755 Rivers of water flowed. 294 00:29:19,240 --> 00:29:21,994 Venus became an ocean world. 295 00:29:39,720 --> 00:29:43,714 The planet's atmosphere allowed it to hold on to the oceans... 296 00:29:47,640 --> 00:29:52,157 ...by acting as a blanket, keeping the surface temperate... 297 00:29:54,400 --> 00:29:56,392 ...thanks to the greenhouse effect. 298 00:30:02,800 --> 00:30:05,793 The greenhouse effect is pretty simple physics. 299 00:30:05,920 --> 00:30:08,833 Gases like carbon dioxide and water vapour 300 00:30:08,960 --> 00:30:12,192 in a planetary atmosphere are transparent to visible light. 301 00:30:12,320 --> 00:30:15,711 That is obvious, because there's a source of visible light, 302 00:30:15,840 --> 00:30:17,797 the Sun, and I can see it. 303 00:30:17,920 --> 00:30:21,357 So that radiation falls onto the surface of the planet 304 00:30:21,480 --> 00:30:22,914 and it heats it up. 305 00:30:23,040 --> 00:30:27,273 The rocks then re-radiate that out into the atmosphere again, 306 00:30:27,400 --> 00:30:30,552 but this time not as visible light, but as infrared, 307 00:30:30,680 --> 00:30:32,080 which my eyes can't see. 308 00:30:32,200 --> 00:30:36,831 Now, carbon dioxide and water vapour absorb infrared, 309 00:30:36,960 --> 00:30:40,192 and so they trap that energy and the planet heats up. 310 00:30:40,320 --> 00:30:43,313 Now, that's not necessarily a bad thing. 311 00:30:43,440 --> 00:30:45,671 The Earth would be at an average temperature 312 00:30:45,800 --> 00:30:50,397 of around minus 18 degrees Celsius without the greenhouse effect. 313 00:30:50,520 --> 00:30:56,198 But there is a thin line between heating a planet up and frying it. 314 00:31:02,000 --> 00:31:04,913 Gradually, over 2 billion years, 315 00:31:05,040 --> 00:31:07,874 the young Sun grew brighter. 316 00:31:17,680 --> 00:31:19,797 Temperatures began to rise, 317 00:31:19,920 --> 00:31:23,277 lifting more and more water vapour into the atmosphere. 318 00:31:30,600 --> 00:31:33,274 The greenhouse effect grew more intense. 319 00:31:54,280 --> 00:31:58,194 Rain evaporated long before reaching the ground. 320 00:32:05,440 --> 00:32:08,353 Venus had reached a tipping point. 321 00:32:08,480 --> 00:32:12,315 A runaway greenhouse effect had taken hold. 322 00:32:31,760 --> 00:32:35,071 Venus's moment in the sun was over. 323 00:32:43,120 --> 00:32:47,876 Its cracked surface today is even hotter than Mercury's, 324 00:32:48,000 --> 00:32:51,630 making Venus the hottest of all the planets. 325 00:33:02,240 --> 00:33:05,836 As the young Sun's brightness continued to increase, 326 00:33:05,960 --> 00:33:09,158 the effects were felt across all the terrestrial planets. 327 00:33:22,000 --> 00:33:25,152 Mars, much further out than Venus, 328 00:33:25,280 --> 00:33:28,478 enjoyed its moment in the sun, too. 329 00:33:34,280 --> 00:33:38,274 With an atmosphere rich in greenhouse gases, 330 00:33:38,400 --> 00:33:42,758 rivers flowed across its surface for hundreds of millions of years. 331 00:33:48,960 --> 00:33:52,795 But Mars, being smaller than Venus, 332 00:33:52,920 --> 00:33:55,037 couldn't hold on to its atmosphere. 333 00:34:06,280 --> 00:34:08,192 Much of its water evaporated... 334 00:34:10,680 --> 00:34:12,512 ...and escaped into space... 335 00:34:21,440 --> 00:34:25,036 ...leaving only small traces behind, 336 00:34:25,160 --> 00:34:29,074 frozen in patches across the planet, 337 00:34:29,200 --> 00:34:35,117 where missions continue to search for the first signs of extra-terrestrial life. 338 00:34:42,440 --> 00:34:45,512 There's a crater on Mars called the Hellas Basin, 339 00:34:45,640 --> 00:34:50,635 which is 1,500 kilometres across and 9 kilometres deep. 340 00:34:50,760 --> 00:34:53,514 That means you could put Everest on the floor 341 00:34:53,640 --> 00:34:55,950 and the summit would not reach the rim. 342 00:34:56,080 --> 00:35:00,597 The air pressure is so high down there that liquid water can exist. 343 00:35:03,440 --> 00:35:07,559 So, I suppose it's not impossible to imagine microbes coming up 344 00:35:07,680 --> 00:35:11,560 from deep below the surface to bask in the midday sun 345 00:35:11,680 --> 00:35:17,358 before disappearing back down below again to survive the cold of the Martian night. 346 00:35:17,480 --> 00:35:23,272 But if life does exist out there, it will certainly only be simple life. 347 00:35:23,400 --> 00:35:27,633 There will be nothing anywhere near as complex as you or me, 348 00:35:27,760 --> 00:35:29,080 or even this plant. 349 00:35:58,480 --> 00:36:01,120 The story of the solar system is, in a sense, 350 00:36:01,240 --> 00:36:03,755 a story of instability and constant change, 351 00:36:03,880 --> 00:36:05,951 at least for the inner rocky worlds. 352 00:36:06,080 --> 00:36:09,232 Mercury has changed its position radically - 353 00:36:09,360 --> 00:36:12,751 its orbit now takes it close to the searing heat of the Sun. 354 00:36:12,880 --> 00:36:16,794 Venus probably had water on its surface 355 00:36:16,920 --> 00:36:21,711 for around 2 billion years before it became hotter than Mercury. 356 00:36:21,840 --> 00:36:26,960 And Mars lost its oceans and rivers perhaps 3.5 billion years ago. 357 00:36:27,080 --> 00:36:30,357 But unique amongst those worlds is Earth, 358 00:36:30,480 --> 00:36:35,714 because it's remained pretty much like this - liquid water on the surface - 359 00:36:35,840 --> 00:36:41,472 for 4 billion years, and that has allowed complex carbon chemistry to develop. 360 00:36:47,440 --> 00:36:50,000 Today, our planet is dominated by life. 361 00:36:50,120 --> 00:36:53,670 It's in every nook and cranny. I mean, look at this place. 362 00:36:53,800 --> 00:36:56,872 This is a volcano in the middle of the Atlantic Ocean, 363 00:36:57,000 --> 00:36:59,640 and it is literally teeming with life. 364 00:36:59,760 --> 00:37:04,915 And think of all the chance events that had to happen over 4 billion years 365 00:37:05,040 --> 00:37:08,954 just to produce the little creatures in this rock pool. 366 00:37:13,480 --> 00:37:17,872 Life has woven itself into the fabric of the planet. 367 00:37:23,440 --> 00:37:28,560 It's an integral part of every continent and every ocean. 368 00:37:33,280 --> 00:37:37,957 It plays a crucial role in maintaining the balance of our atmosphere 369 00:37:38,080 --> 00:37:40,834 that keeps our planet temperate. 370 00:37:45,880 --> 00:37:47,951 Of all the terrestrial planets, 371 00:37:48,080 --> 00:37:51,790 Earth has enjoyed the longest moment of them all. 372 00:38:00,840 --> 00:38:02,274 But it can't last. 373 00:38:04,360 --> 00:38:11,073 Earth will ultimately follow the fate of the other rocky planets, 374 00:38:11,200 --> 00:38:13,795 because even though we don't feel it day to day, 375 00:38:13,920 --> 00:38:17,675 the Sun's ageing process is relentless. 376 00:38:19,720 --> 00:38:22,758 We can say with confidence what's going to happen to the Sun 377 00:38:22,880 --> 00:38:24,200 towards the end of its life, 378 00:38:24,320 --> 00:38:26,437 partly because we understand physics 379 00:38:26,560 --> 00:38:30,315 and the nuclear physics of what happens inside the cores of stars, 380 00:38:30,440 --> 00:38:35,913 but also because the life cycle of stars is written across the night sky. 381 00:38:36,040 --> 00:38:38,839 Take that bright star there, for example. 382 00:38:38,960 --> 00:38:40,758 It's called Arcturus. 383 00:38:40,880 --> 00:38:44,794 It's around the mass of the Sun, perhaps a little bit heavier, 384 00:38:44,920 --> 00:38:48,755 but it's between 6 and 8 billion years old, 385 00:38:48,880 --> 00:38:51,759 perhaps 3 billion years older than the Sun, 386 00:38:51,880 --> 00:38:54,759 and it is now a red giant star. 387 00:38:54,880 --> 00:38:57,600 It's exhausted the hydrogen fuel in its core 388 00:38:57,720 --> 00:39:00,155 and it's swollen up and cooled. 389 00:39:01,760 --> 00:39:04,719 And that is what we think will happen to the Sun 390 00:39:04,840 --> 00:39:06,797 in about 5 billion years' time. 391 00:39:17,200 --> 00:39:20,671 As the Sun exhausts its hydrogen fuel in the core, 392 00:39:20,800 --> 00:39:23,269 its outer edge will inflate. 393 00:39:28,480 --> 00:39:30,836 It will enter a red giant phase, 394 00:39:30,960 --> 00:39:34,636 expanding millions of kilometres out into space. 395 00:39:39,240 --> 00:39:42,153 Mercury will be the first to be engulfed. 396 00:39:53,320 --> 00:39:56,916 Then Venus's fate will be sealed. 397 00:40:09,720 --> 00:40:14,112 Earth may just escape the fiery fate of its neighbours... 398 00:40:16,920 --> 00:40:21,631 ...hanging on with Mars, beyond the edge of the dying star. 399 00:40:35,360 --> 00:40:40,071 The era of the four terrestrial planets will be over. 400 00:40:42,760 --> 00:40:45,480 The lives lived on the surface of one of them 401 00:40:45,600 --> 00:40:47,557 nothing more than a distant memory. 402 00:40:56,480 --> 00:41:00,360 But that's not quite the end of the story. 403 00:41:02,360 --> 00:41:06,240 Right at the end of the Sun's life, something wonderful will happen. 404 00:41:10,240 --> 00:41:12,835 A collection of icy worlds that have lain dormant 405 00:41:12,960 --> 00:41:16,192 for the entire history of the solar system will awake. 406 00:41:16,320 --> 00:41:19,199 These are the worlds that orbit the outer planets - 407 00:41:19,320 --> 00:41:22,358 the moons of Jupiter and Saturn. 408 00:41:27,880 --> 00:41:31,794 These distant worlds that circle the outer gas giants 409 00:41:31,920 --> 00:41:33,639 will begin to warm. 410 00:41:39,280 --> 00:41:42,034 Like Saturn's moon - Enceladus. 411 00:41:44,960 --> 00:41:47,316 Or Jupiter's moon - Europa. 412 00:41:54,280 --> 00:41:55,555 Amongst all these moons, 413 00:41:55,680 --> 00:41:58,991 there is one above all others that we think, perhaps, 414 00:41:59,120 --> 00:42:03,114 has the best chance of becoming a place that we'd recognise. 415 00:42:15,720 --> 00:42:19,919 Way out, in the cold, distant reaches of the solar system... 416 00:42:21,640 --> 00:42:22,869 ...past Jupiter... 417 00:42:25,360 --> 00:42:28,637 ...around the icy ringed-planet Saturn, 418 00:42:28,760 --> 00:42:30,592 orbits a gem. 419 00:42:31,720 --> 00:42:34,554 COMMS: And the Cassini spacecraft is on its way to Saturn. 420 00:42:42,120 --> 00:42:43,600 BRIAN COX: Titan. 421 00:42:55,760 --> 00:42:59,197 A planet-sized moon bigger than Mercury... 422 00:43:04,880 --> 00:43:09,159 ...surrounded by a thick atmosphere of nitrogen and methane... 423 00:43:10,640 --> 00:43:14,680 ...with a surface that has long remained a mystery. 424 00:43:20,520 --> 00:43:25,834 The Huygens probe was our first chance to explore beneath the clouds... 425 00:43:25,960 --> 00:43:31,194 ...and its camera sent back these first glimpses of the distant moon. 426 00:44:07,760 --> 00:44:12,073 Wonderfully, the craft made a soft landing 427 00:44:12,200 --> 00:44:16,114 and continued to beam back what it saw. 428 00:44:20,560 --> 00:44:24,349 This is a remarkable photograph, and as is always the case in science, 429 00:44:24,480 --> 00:44:27,552 the more you know about it, the more wonderful it gets. 430 00:44:27,680 --> 00:44:30,673 This is a photograph from the surface of a moon 431 00:44:30,800 --> 00:44:34,999 orbiting around a planet over a billion kilometres away. 432 00:44:35,120 --> 00:44:38,431 So we got a camera down onto the surface of a world 433 00:44:38,560 --> 00:44:41,871 in the frozen far reaches of the solar system. 434 00:44:42,000 --> 00:44:44,879 What we see here is something that looks like a flood plain 435 00:44:45,000 --> 00:44:47,959 or a riverbed - very much like this, actually - 436 00:44:48,080 --> 00:44:51,278 and we can say that this is a riverbed, or a flood plain, 437 00:44:51,400 --> 00:44:55,360 because these rocks on the surface look like this. 438 00:44:55,480 --> 00:44:59,793 They've been smoothed and eroded by flowing liquid. 439 00:45:02,440 --> 00:45:07,595 We know these are, in fact, boulders of frozen water. 440 00:45:07,720 --> 00:45:10,872 They're frozen solid because the temperature 441 00:45:11,000 --> 00:45:16,120 on the surface of this moon is minus 180 degrees Celsius. 442 00:45:16,240 --> 00:45:18,152 And that raises an interesting question - 443 00:45:18,280 --> 00:45:22,718 if it's so cold, then what was the flowing liquid? 444 00:45:31,000 --> 00:45:35,040 Huygens detected significant amounts of methane, 445 00:45:35,160 --> 00:45:37,072 a flammable gas on Earth. 446 00:45:39,240 --> 00:45:41,755 But the relatively high atmospheric pressure 447 00:45:41,880 --> 00:45:45,396 and cold temperatures at the surface of Titan 448 00:45:45,520 --> 00:45:48,991 means that this methane exists as a liquid. 449 00:46:07,520 --> 00:46:09,398 Titan could be wet... 450 00:46:11,120 --> 00:46:14,796 ...not with water, but with liquid methane, 451 00:46:14,920 --> 00:46:19,073 driving rock-like chunks of ice down mountain channels 452 00:46:19,200 --> 00:46:21,590 and out into open flood plains. 453 00:46:27,720 --> 00:46:30,872 Huygens survived for just a few hours, 454 00:46:31,000 --> 00:46:35,631 but didn't detect any trace of liquid methane at its landing site. 455 00:46:42,800 --> 00:46:45,679 But the probe's mother ship, Cassini, 456 00:46:45,800 --> 00:46:47,678 remained in orbit around Saturn. 457 00:46:49,240 --> 00:46:51,471 A year after Huygens landed, 458 00:46:51,600 --> 00:46:55,958 Cassini again flew high above Titan's north pole 459 00:46:56,080 --> 00:47:02,759 and discovered something seen nowhere else in the solar system beyond Earth. 460 00:47:11,600 --> 00:47:18,552 Liquid pooling into not just one but scores of great lakes. 461 00:47:41,640 --> 00:47:45,919 Cassini discovered lakes of liquid methane. 462 00:47:51,000 --> 00:47:54,789 Earth has a strange cold twin. 463 00:48:03,400 --> 00:48:07,792 In some ways, you could just imagine floating in a boat on those lakes, 464 00:48:07,920 --> 00:48:13,279 and it would look something like this, except this would be liquid methane gas, 465 00:48:13,400 --> 00:48:18,156 and those mountains there would be mountains of frozen water ice, 466 00:48:18,280 --> 00:48:19,714 as hard as rock. 467 00:48:22,280 --> 00:48:24,556 What's also fascinating, and in fact tantalising, 468 00:48:24,680 --> 00:48:27,878 is that Titan has a complex chemistry, 469 00:48:28,000 --> 00:48:32,279 and that chemistry is carbon chemistry, the chemistry of life. 470 00:48:32,400 --> 00:48:35,359 So we found molecules like hydrogen cyanide, 471 00:48:35,480 --> 00:48:37,631 which are the building blocks of amino acids. 472 00:48:37,760 --> 00:48:41,037 We found molecules called vinyl cyanides, 473 00:48:41,160 --> 00:48:46,792 which chemists and biologists speculate could form some sort of cell membranes. 474 00:48:46,920 --> 00:48:50,800 And so, all the ingredients for life are present on Titan. 475 00:48:53,680 --> 00:48:56,878 Now, very few scientists think there will be life on Titan today. 476 00:48:57,000 --> 00:49:01,950 It is, after all, minus 180 degrees Celsius at the surface, 477 00:49:02,080 --> 00:49:05,232 but because of the presence of all those ingredients, 478 00:49:05,360 --> 00:49:09,718 it might be a very different story if you warmed Titan up. 479 00:49:27,080 --> 00:49:29,720 In the light of the old, expanding Sun... 480 00:49:32,280 --> 00:49:36,354 ...the far reaches of the solar system will receive more solar energy. 481 00:49:38,200 --> 00:49:41,511 Titan's atmosphere will begin to warm. 482 00:49:56,960 --> 00:50:02,718 Mountains of ice will shrink and melt as temperatures rise... 483 00:50:06,200 --> 00:50:11,434 ...the frozen water they contain replacing the liquid methane. 484 00:50:42,760 --> 00:50:47,471 Mountains will become oceans... of water. 485 00:50:56,440 --> 00:51:02,198 In a strange twist of fate, at the end of the life of the Sun, 486 00:51:02,320 --> 00:51:06,519 the solar system's last ocean world will wake up 487 00:51:06,640 --> 00:51:09,599 to its own biological possibilities. 488 00:51:15,600 --> 00:51:21,039 This distant moon will enjoy its brief moment in the sun. 489 00:51:28,000 --> 00:51:32,199 It's easy to think of habitability as a permanent feature of worlds, 490 00:51:32,320 --> 00:51:34,198 a defining characteristic, if you like. 491 00:51:34,320 --> 00:51:37,870 So the Earth is a living planet because it's in the Goldilocks zone 492 00:51:38,000 --> 00:51:41,198 around the Sun - not too close and not too far away. 493 00:51:41,320 --> 00:51:43,357 But things are more complicated than that. 494 00:51:43,480 --> 00:51:45,676 Solar systems are dynamic places. 495 00:51:45,800 --> 00:51:49,999 Planetary orbits can change, and stars can vary in brightness. 496 00:51:50,120 --> 00:51:54,239 So planets that were once heaven can become hell. 497 00:52:00,720 --> 00:52:04,077 We now understand that the Earth has been a fortunate world, 498 00:52:04,200 --> 00:52:07,079 an oasis of calm in an ever-changing solar system 499 00:52:07,200 --> 00:52:10,876 that's maintained a stable climate, perhaps against the odds, 500 00:52:11,000 --> 00:52:15,517 for the 4 billion years it took complex living things to evolve. 501 00:52:23,760 --> 00:52:27,993 We don't know how many planets like Earth there are out there amongst the stars, 502 00:52:28,120 --> 00:52:32,478 places where the ingredients of solar systems have assembled themselves 503 00:52:32,600 --> 00:52:35,877 into structures that can dream of other worlds. 504 00:52:36,000 --> 00:52:40,995 But we have to take the possibility very seriously that there might be few, 505 00:52:41,120 --> 00:52:45,956 and that would make Earth - and us - extremely rare and precious. 506 00:53:17,520 --> 00:53:23,073 Mercury is the most enigmatic of all the planets and difficult to study. 507 00:53:27,280 --> 00:53:31,559 The real problem is that it's really hot. It's the planet closest to the Sun, 508 00:53:31,680 --> 00:53:34,514 and obviously that makes it challenging. 509 00:53:36,320 --> 00:53:38,994 So you have to protect the spacecraft 510 00:53:39,120 --> 00:53:41,640 from the heat from the Sun, and the way Messenger addressed this 511 00:53:41,720 --> 00:53:45,316 was to put the whole spacecraft behind a giant ceramic sunshade. 512 00:53:45,440 --> 00:53:48,114 It had this sunshade. If it didn't face the Sun, 513 00:53:48,240 --> 00:53:50,516 you would've melted the instruments, literally. 514 00:53:53,600 --> 00:53:57,276 LARRY NITTLER: The other major challenge is you had to protect the spacecraft 515 00:53:57,400 --> 00:53:59,710 from the heat reflected from the planet, 516 00:53:59,840 --> 00:54:03,993 and the way we dealt with that was to be in an extremely elliptical orbit, 517 00:54:04,120 --> 00:54:07,830 where we flew in very close over the north pole and took observations. 518 00:54:07,960 --> 00:54:09,952 The instruments would heat up, and then we'd fly, 519 00:54:10,080 --> 00:54:13,391 like, 10,000 kilometres farther out from the planet 520 00:54:13,520 --> 00:54:14,749 while we cooled off. 521 00:54:14,880 --> 00:54:17,236 And in this way - heat up, cool down - 522 00:54:17,360 --> 00:54:19,750 and kept everything below the danger temperatures, 523 00:54:19,880 --> 00:54:21,837 where instruments could be damaged. 524 00:54:32,640 --> 00:54:37,999 I was in charge of the camera team. I don't think I slept much the night before. 525 00:54:39,240 --> 00:54:42,312 I was really anxious to get that first image back. 526 00:54:44,840 --> 00:54:46,399 When that image came back, 527 00:54:46,520 --> 00:54:48,216 we just started pointing at all the features 528 00:54:48,240 --> 00:54:51,120 that had never been seen before and saying, "Look at this, look at that." 529 00:54:55,200 --> 00:54:59,831 BRIAN COX: Over time, the close-up flights of Mercury's north pole 530 00:54:59,960 --> 00:55:04,876 allowed the team to peer deep into the shadows of one particular crater. 531 00:55:09,560 --> 00:55:14,874 We realised that we could actually design a way to take a picture 532 00:55:15,000 --> 00:55:18,357 using a very long exposure to see inside these dark craters. 533 00:55:18,480 --> 00:55:21,040 Messenger was designed with instruments 534 00:55:21,160 --> 00:55:23,595 that could specifically look at their reflectance 535 00:55:23,720 --> 00:55:25,552 and also measure hydrogens. 536 00:55:25,680 --> 00:55:28,320 So we thought, "OK, there's a lot of hydrogen there," 537 00:55:28,440 --> 00:55:33,799 and there was, like, this fantastic case built for these ice deposits. 538 00:55:35,400 --> 00:55:37,835 BRIAN COX: Incredibly, Messenger detected 539 00:55:37,960 --> 00:55:41,795 hundreds of billions of tonnes of frozen water ice... 540 00:55:43,680 --> 00:55:47,640 ...scattered in the permanent shadows of the polar craters. 541 00:55:50,040 --> 00:55:53,670 The fact that water ice can survive for a very long period of time 542 00:55:53,800 --> 00:55:56,713 is a reflection of the fact that Mercury is rotating 543 00:55:56,840 --> 00:55:58,354 almost perfectly straight up, 544 00:55:58,480 --> 00:56:02,030 so that there are craters near the pole that are so deep 545 00:56:02,160 --> 00:56:05,437 and completely shaded from sunlight ever hitting them. 546 00:56:05,560 --> 00:56:08,120 So ice could be stable in those polar regions 547 00:56:08,240 --> 00:56:10,675 that are permanently shadowed for billions of years. 548 00:56:15,640 --> 00:56:18,109 BRIAN COX: Messenger had confirmed 549 00:56:18,240 --> 00:56:22,075 the existence of an essential ingredient for life... 550 00:56:24,640 --> 00:56:28,429 ...on the surface of the closest planet to the Sun. 551 00:56:30,880 --> 00:56:34,396 During Messenger's final orbit, all the fuel was depleted. 552 00:56:34,520 --> 00:56:36,079 There was nothing that we could do, 553 00:56:36,200 --> 00:56:40,080 and every orbit just brought it slightly closer to the planet. 554 00:56:40,200 --> 00:56:41,793 One of our engineers realised 555 00:56:41,920 --> 00:56:44,799 that we still had some helium on board the spacecraft, 556 00:56:44,920 --> 00:56:47,640 and if you blew helium out the back, it would work like fuel, 557 00:56:47,760 --> 00:56:50,992 and that managed to extend us for a few extra weeks. 558 00:56:55,520 --> 00:56:58,319 But, of course, all things have to come to an end. 559 00:57:06,560 --> 00:57:09,234 The last day, many of us watched the signal 560 00:57:09,360 --> 00:57:11,397 as it went behind the planet and never came back, 561 00:57:11,520 --> 00:57:12,600 and we knew it had crashed. 562 00:57:12,720 --> 00:57:16,157 And it left us with a real bittersweet feeling 563 00:57:16,280 --> 00:57:20,991 because we were happy at the success but of course sad that it was over. 564 00:57:21,120 --> 00:57:25,034 We all took so much pride in this amazing spacecraft 565 00:57:25,160 --> 00:57:29,120 that lasted way longer than any of us had planned for it to last 566 00:57:29,240 --> 00:57:31,277 and that had told us so much about Mercury 567 00:57:31,400 --> 00:57:34,791 and really changed the way that we looked at this planet. 49414