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These are the user uploaded subtitles that are being translated: 1 00:00:05,800 --> 00:00:09,237 COMMS: Liftoff ofMessenger on NASA 's mission to Mercury. 2 00:01:09,440 --> 00:01:13,753 BRIAN COX: Our planetary neighbour, Mars, is a cold, barren rock. 3 00:01:17,840 --> 00:01:22,357 Its rusted surface covered in parched sand. 4 00:01:26,680 --> 00:01:28,000 But beneath the dust, 5 00:01:28,120 --> 00:01:31,875 the planet bares the scars of a former life. 6 00:01:37,400 --> 00:01:42,429 Billions of years ago, Mars was just like Earth. 7 00:01:46,800 --> 00:01:52,239 A world with a thick atmosphere that supported oceans of water. 8 00:02:02,360 --> 00:02:05,319 But today, that world is gone. 9 00:02:11,760 --> 00:02:12,955 Mars lies dead... 10 00:02:15,200 --> 00:02:17,669 ...while the Earth thrives. 11 00:02:21,760 --> 00:02:24,594 Why the two planets had such different fates 12 00:02:24,720 --> 00:02:29,795 is a mystery that we've only just begun to answer. 13 00:03:09,640 --> 00:03:13,475 You see that pale red point of light in the sky? 14 00:03:13,600 --> 00:03:14,795 Just there? 15 00:03:14,920 --> 00:03:16,832 That's Mars. 16 00:03:16,960 --> 00:03:19,998 Through a small telescope, it appears almost Earth-like. 17 00:03:20,120 --> 00:03:24,797 Our sister world - polar ice caps and dark surface markings 18 00:03:24,920 --> 00:03:27,879 that 19th-century astronomers thought were vegetation, 19 00:03:28,000 --> 00:03:34,679 even canals bringing meltwater down from the poles to arid equatorial cities. 20 00:03:34,800 --> 00:03:37,076 "Across the depths of space, 21 00:03:37,200 --> 00:03:40,716 "the inhabitants watched us with envious eyes," 22 00:03:40,840 --> 00:03:43,150 wrote HG Wells. 23 00:03:43,280 --> 00:03:46,318 We now know that there are no eyes looking back at us. 24 00:03:46,440 --> 00:03:50,798 Mars is a frozen, arid desert world. 25 00:03:50,920 --> 00:03:55,756 But a fleet of spacecraft have revealed that it hasn't always been that way. 26 00:03:58,440 --> 00:04:01,319 NEWS REPORT: Mariner 4 successfully launched on time 27 00:04:01,440 --> 00:04:04,399 for its historic 228-day journey to Mars. 28 00:04:05,600 --> 00:04:11,597 Picture information started to come in on July 15th 1965. 29 00:04:12,800 --> 00:04:15,679 A revelation, comparable to Galileo's 30 00:04:15,800 --> 00:04:18,713 first view of the Moon through a telescope. 31 00:04:18,840 --> 00:04:20,638 BRIAN COX: During its brief flyby, 32 00:04:20,760 --> 00:04:24,993 Mariner 4 gave us our first close-up glimpses of Mars. 33 00:04:28,840 --> 00:04:31,400 NEWS REPORT: When Mariner 9 was placed into an orbit around Mars, 34 00:04:31,440 --> 00:04:35,559 it saw a planet blanketed by a gigantic dust storm. 35 00:04:36,760 --> 00:04:38,160 In nearly a year of operation, 36 00:04:38,280 --> 00:04:41,557 they transmit more than 7,000 photographs. 37 00:04:41,680 --> 00:04:47,551 BRIAN COX: From orbit, Mariner 9 photographed 80% of the Martian surface. 38 00:04:47,680 --> 00:04:50,957 First of all, there are two eyes, not only in colour but also in stereo 39 00:04:51,080 --> 00:04:52,912 and in the infrared part of the spectrum. 40 00:04:53,040 --> 00:04:55,635 It has a sense of touch, it has a sense of hearing, 41 00:04:55,760 --> 00:05:00,277 but by far the most important feature of the lander is its brain. 42 00:05:01,920 --> 00:05:05,755 BRIAN COX: The Viking programme took us down to the ground for the first time... 43 00:05:07,480 --> 00:05:09,312 COMMS: Touchdown, we have touchdown. 44 00:05:09,440 --> 00:05:12,956 - BRIAN COX:...and revealed Mars... - Perfect set-down. 45 00:05:13,080 --> 00:05:15,276 BRIAN COX:...like never before. 46 00:05:15,400 --> 00:05:19,758 And there's the first piece of information coming in. Oh! Oh! 47 00:05:31,280 --> 00:05:34,398 BRIAN COX: The data gathered over the last 50 years 48 00:05:34,520 --> 00:05:38,400 has allowed us to create detailed maps of the Martian surface... 49 00:05:42,040 --> 00:05:44,509 ...and begin to piece together its past. 50 00:05:47,120 --> 00:05:49,680 Maps of Mars are like storybooks - 51 00:05:49,800 --> 00:05:53,430 you can read the history of the planet written across its surface, 52 00:05:53,560 --> 00:05:57,076 and the reason for that is that there's virtually no erosion. 53 00:05:57,200 --> 00:05:58,800 There hasn't been for billions of years. 54 00:05:58,920 --> 00:06:03,631 So the scars of events that happened even 4 billion years ago 55 00:06:03,760 --> 00:06:05,513 can still be seen. 56 00:06:05,640 --> 00:06:09,156 This is a type of map called an elevation map. 57 00:06:09,280 --> 00:06:13,194 The colours correspond to difference in heights on the surface. 58 00:06:13,320 --> 00:06:18,156 So blue means low, and red and white are high. 59 00:06:18,280 --> 00:06:19,873 Now, this region here, 60 00:06:20,000 --> 00:06:22,674 which is much higher, on average, than the rest of Mars, 61 00:06:22,800 --> 00:06:24,075 is called Tharsis, 62 00:06:24,200 --> 00:06:26,351 and it's covered in volcanoes, 63 00:06:26,480 --> 00:06:30,713 including the largest volcano in the solar system, Olympus Mons. 64 00:06:35,880 --> 00:06:39,590 At the other side of Tharsis is the great Valles Marineris, 65 00:06:39,720 --> 00:06:44,237 the Mariner Valley, and it is a canyon that dwarfs anything we see on Earth. 66 00:06:49,280 --> 00:06:53,115 On the opposite side of the planet is an impact basin called Hellas. 67 00:06:56,080 --> 00:06:59,960 The height difference from the crater rim to the crater floor 68 00:07:00,080 --> 00:07:02,151 is nine kilometres. 69 00:07:02,280 --> 00:07:05,000 That means you could fit Everest in the middle of there 70 00:07:05,120 --> 00:07:07,191 and look down on its summit. 71 00:07:11,160 --> 00:07:15,871 And the region surrounding the basin reveals Mars's former life. 72 00:07:19,720 --> 00:07:24,920 The Hellas Basin is punched into the oldest surviving terrain on Mars. 73 00:07:25,040 --> 00:07:27,157 It's called Noachis Terra, 74 00:07:27,280 --> 00:07:31,069 or the Land of Noah. And that's a wonderfully evocative name, 75 00:07:31,200 --> 00:07:35,877 because its surface is sculpted by flowing water. 76 00:07:40,640 --> 00:07:43,439 All across the earliest Martian surface, 77 00:07:43,560 --> 00:07:48,555 we've glimpsed traces of what appear to have been lakes and rivers. 78 00:07:52,240 --> 00:07:56,234 And so a new generation of spacecraft has been sent to Mars 79 00:07:56,360 --> 00:07:58,716 to investigate the existence of water... 80 00:08:02,240 --> 00:08:06,519 ...and what happened to the planet for it all to disappear... 81 00:08:17,240 --> 00:08:22,076 ...lead by the most audacious Mars mission ever attempted... 82 00:08:25,280 --> 00:08:26,880 COMMS 1: Vehicle reports entry interface. 83 00:08:27,000 --> 00:08:31,074 COMMS 2: We have two-way Doppler and orbit around the planet Mars. 84 00:08:33,120 --> 00:08:37,319 BRIAN COX:...to land a one-tonne rover on the Martian surface. 85 00:08:48,600 --> 00:08:53,914 Its final decent has become known as the seven minutes of terror. 86 00:09:56,960 --> 00:09:59,873 Curiosity touched down in Gale Crater - 87 00:10:00,000 --> 00:10:04,392 a 150-kilometre-wide impact basin 88 00:10:04,520 --> 00:10:07,035 thought to have been home to an ancient lake. 89 00:10:18,160 --> 00:10:22,712 The rover is a $2.5 billion mobile chemistry lab... 90 00:10:25,320 --> 00:10:28,392 ...designed to take samples of the Martian surface 91 00:10:28,520 --> 00:10:31,160 and analyse its composition. 92 00:10:43,080 --> 00:10:45,993 As it explored the crater, Curiosity saw pebbles, 93 00:10:46,120 --> 00:10:50,160 polished and rounded by running water 94 00:10:50,280 --> 00:10:53,751 in what had once been rivers and streams. 95 00:11:02,240 --> 00:11:04,994 Then, 61 days after landing, 96 00:11:05,120 --> 00:11:10,320 Curiosity identified the perfect spot to begin its primary mission. 97 00:11:16,760 --> 00:11:20,276 In a sandy area of the crater called the Rocknest, 98 00:11:20,400 --> 00:11:23,677 the rover took its first scoops of Martian soil. 99 00:11:40,000 --> 00:11:43,038 Chemical analysis of the fine, dusty sand 100 00:11:43,160 --> 00:11:45,755 revealed something quite unexpected. 101 00:11:50,360 --> 00:11:53,717 Even though the surface of Mars appears completely dry, 102 00:11:53,840 --> 00:11:58,869 2% of the soil is still made up of water. 103 00:12:05,880 --> 00:12:12,070 Curiosity had found evidence of just how wet a planet ancient Mars had been. 104 00:12:22,320 --> 00:12:24,630 For hundreds of millions of years... 105 00:12:27,640 --> 00:12:29,472 ...Mars was a water world. 106 00:12:55,160 --> 00:12:56,276 Rains fell. 107 00:12:58,360 --> 00:13:00,397 Rivers ran. 108 00:13:00,520 --> 00:13:04,434 And in the northern hemisphere, water collected in a vast sea 109 00:13:04,560 --> 00:13:07,439 that covered a fifth of the Martian surface. 110 00:13:14,120 --> 00:13:18,478 The Red Planet was once blue. 111 00:13:28,680 --> 00:13:29,955 All the evidence suggests 112 00:13:30,080 --> 00:13:32,720 that there were large bodies of standing water on Mars 113 00:13:32,840 --> 00:13:35,480 around 4 billion years ago, 114 00:13:35,600 --> 00:13:39,560 and the atmospheric pressure was at least that of Earth today, 115 00:13:39,680 --> 00:13:40,830 perhaps even higher. 116 00:13:40,960 --> 00:13:43,429 Temperatures were around 25 degrees. 117 00:13:43,560 --> 00:13:47,474 So I could have sat on Mars all those years ago, 118 00:13:47,600 --> 00:13:50,991 admittedly with a mask to breathe, cos there was very little oxygen, 119 00:13:51,120 --> 00:13:55,194 but I could have sat there and looked out over a view like that. 120 00:13:55,320 --> 00:14:00,440 So you don't have to imagine what Mars was like in the past - 121 00:14:00,560 --> 00:14:02,756 you can experience it. 122 00:14:02,880 --> 00:14:04,997 It was pretty much like this. 123 00:14:13,000 --> 00:14:15,276 But within a billion years, 124 00:14:15,400 --> 00:14:18,757 all Mars's lakes and seas had disappeared. 125 00:14:23,000 --> 00:14:26,994 In our solar system, only one blue planet survives. 126 00:14:29,400 --> 00:14:32,950 Mars's sister - Earth. 127 00:14:37,400 --> 00:14:41,872 70% of our planet's surface is covered by ocean. 128 00:14:47,760 --> 00:14:50,719 Under the waves, a million species thrive... 129 00:14:57,000 --> 00:15:01,153 ...while, on land, the rains support Earth's delicate ecosystems... 130 00:15:08,040 --> 00:15:11,750 ...providing a home for an abundance of life. 131 00:15:15,920 --> 00:15:19,152 But it hasn't always been this way. 132 00:15:26,880 --> 00:15:31,272 The early Earth was unrecognisable from the planet we know today. 133 00:15:39,440 --> 00:15:43,639 Its atmosphere thick with carbon dioxide. 134 00:15:50,520 --> 00:15:52,671 And its oceans acidic. 135 00:15:58,640 --> 00:16:03,317 4 billion years ago, Earth was a troubled, toxic world... 136 00:16:08,000 --> 00:16:10,913 ...while Mars was flourishing. 137 00:16:25,640 --> 00:16:31,034 But both planets were about to be engulfed by a cataclysm from space. 138 00:16:36,480 --> 00:16:41,635 To understand what happened, we have to look beyond our own world. 139 00:16:44,000 --> 00:16:47,437 You can't read the deep history of the Earth by looking at its surface, 140 00:16:47,560 --> 00:16:50,712 because our planet is a geologically active world. 141 00:16:50,840 --> 00:16:55,039 The surface is constantly being re-shaped by volcanic activity 142 00:16:55,160 --> 00:16:58,232 and weathering and the actions of the oceans. 143 00:16:58,360 --> 00:17:00,716 But we have a companion, 144 00:17:00,840 --> 00:17:04,720 the Moon, which has been inactive for many billions of years, 145 00:17:04,840 --> 00:17:10,074 and so the history of events that happened in this region of the solar system 146 00:17:10,200 --> 00:17:13,477 is written all over its surface. 147 00:17:18,520 --> 00:17:21,752 The most distinctive feature of the Moon's surface are its craters. 148 00:17:21,880 --> 00:17:26,511 It is literally covered in a record of impacts from space. 149 00:17:26,640 --> 00:17:28,359 And that allows us to estimate 150 00:17:28,480 --> 00:17:31,359 the relative ages of different parts of the Moon. 151 00:17:31,480 --> 00:17:33,790 And quite simply, if there are more craters, 152 00:17:33,920 --> 00:17:35,912 then that piece of the Moon must be older - 153 00:17:36,040 --> 00:17:38,600 there's been more time for the impacts to build up. 154 00:17:38,720 --> 00:17:42,680 But we can do better than just measure the relative ages 155 00:17:42,800 --> 00:17:45,031 because we have rocks - 156 00:17:45,160 --> 00:17:48,949 the Moon rocks brought back by the Apollo astronauts. 157 00:17:49,080 --> 00:17:52,312 Now, we can estimate the ages of rocks very precisely 158 00:17:52,440 --> 00:17:56,070 by looking at the rates of decay of radioactive elements inside them. 159 00:17:56,200 --> 00:17:57,919 They are like little stopwatches 160 00:17:58,040 --> 00:18:01,716 that start ticking the moment the rocks are formed, 161 00:18:01,840 --> 00:18:05,151 in this case, by the impacts from space. 162 00:18:05,280 --> 00:18:09,718 So the Moon rocks allow us to tie the number of craters 163 00:18:09,840 --> 00:18:15,359 in a particular region of the Moon to an absolute age measured by the rocks. 164 00:18:25,080 --> 00:18:28,869 And this doesn't just allow us to date impacts on the lunar surface. 165 00:18:37,240 --> 00:18:38,720 It means that craters can be used 166 00:18:38,840 --> 00:18:41,912 to read the histories of worlds across the solar system. 167 00:18:47,360 --> 00:18:49,397 Including Mars. 168 00:18:55,360 --> 00:18:59,115 When we gathered all the data, we discovered something surprising. 169 00:18:59,240 --> 00:19:02,233 There was a peak in the crater formation rate 170 00:19:02,360 --> 00:19:05,432 about 3.8 to 3.9 billion years ago 171 00:19:05,560 --> 00:19:10,032 which signified a period of intense violence in the solar system, 172 00:19:10,160 --> 00:19:14,154 and that is called the Late Heavy Bombardment. 173 00:19:41,240 --> 00:19:45,598 Countless asteroids fragmented in Mars's atmosphere, 174 00:19:45,720 --> 00:19:48,360 raining havoc across the planet. 175 00:20:23,920 --> 00:20:28,358 It's estimated that 53 tonnes of rock 176 00:20:28,480 --> 00:20:31,632 fell on every square metre of Mars. 177 00:20:42,000 --> 00:20:47,075 Over a third of the planet's surface was obliterated... 178 00:20:49,720 --> 00:20:53,191 ...and Mars was pushed to the brink of death. 179 00:21:05,640 --> 00:21:07,916 Whilst the evidence from the surface of the Moon 180 00:21:08,040 --> 00:21:12,512 tells us that the Late Heavy Bombardment happened, it doesn't tell us why. 181 00:21:12,640 --> 00:21:15,030 For that, we have to resort to computer models 182 00:21:15,160 --> 00:21:17,117 of the evolution of the solar system, 183 00:21:17,240 --> 00:21:20,711 and when we do that, they point the finger at Neptune. 184 00:21:24,480 --> 00:21:29,157 It's thought that Neptune migrated outwards into the Kuiper Belt... 185 00:21:31,640 --> 00:21:36,590 ...a region of icy, rocky objects orbiting at the edge of the solar system. 186 00:21:40,840 --> 00:21:45,153 The resulting gravitational interactions disrupted those orbits 187 00:21:45,280 --> 00:21:48,796 and sent many of the objects inwards to the inner solar system, 188 00:21:48,920 --> 00:21:53,437 and that may have been the cause of the Late Heavy Bombardment. 189 00:22:03,320 --> 00:22:06,233 Earth also suffered the onslaught. 190 00:22:09,200 --> 00:22:11,317 And for tens of millions of years, 191 00:22:11,440 --> 00:22:15,878 the fortunes of the two sister worlds 192 00:22:16,000 --> 00:22:18,117 hung in the balance. 193 00:22:43,600 --> 00:22:46,274 But just when conditions appeared at their least promising... 194 00:22:47,480 --> 00:22:50,393 ...Earth's most precious characteristic emerged. 195 00:22:54,720 --> 00:22:55,720 Life. 196 00:22:59,880 --> 00:23:02,918 There is good evidence that life was present on Earth 197 00:23:03,040 --> 00:23:05,555 around 3.8 billion years ago, 198 00:23:05,680 --> 00:23:08,070 and discounting the, I think, remote possibility 199 00:23:08,200 --> 00:23:10,396 that life began elsewhere in the solar system 200 00:23:10,520 --> 00:23:13,957 and was transported to the Earth on meteorites or comets, 201 00:23:14,080 --> 00:23:17,551 that means that life must have begun here. 202 00:23:17,680 --> 00:23:22,277 So, somewhere on this planet, there was a transition from geochemistry, 203 00:23:22,400 --> 00:23:24,073 the chemistry of Earth, 204 00:23:24,200 --> 00:23:28,479 to biochemistry, the chemistry of life. 205 00:23:43,600 --> 00:23:48,914 And whilst the precise details of how that transition occurred remain a mystery... 206 00:23:50,080 --> 00:23:55,235 ...it's thought that in warm volcanic pools or deep-sea hydrothermal vents, 207 00:23:55,360 --> 00:23:57,079 conditions were right 208 00:23:57,200 --> 00:24:02,275 for the chemical building blocks of life to form spontaneously. 209 00:24:06,800 --> 00:24:07,916 And that means that, 210 00:24:08,040 --> 00:24:12,080 if similar conditions were to be found elsewhere in the solar system, 211 00:24:12,200 --> 00:24:15,955 it might be possible that life began there, too. 212 00:24:21,080 --> 00:24:27,475 COMMS: Ignition. And liftoff of the Atlas V rocket with MRO... 213 00:24:29,000 --> 00:24:33,711 ...surveying for the deepest insights into the mysterious evolution of Mars. 214 00:24:35,840 --> 00:24:39,356 BRIAN COX: So, in 2005, NASA embarked on a mission 215 00:24:39,480 --> 00:24:44,396 to look for those same environments on Mars. 216 00:24:58,080 --> 00:24:59,230 For more than a decade, 217 00:24:59,360 --> 00:25:04,435 the Mars Reconnaissance Orbiter has been our eyes on the Red Planet... 218 00:25:10,720 --> 00:25:15,351 ...sending back more data than all the other Mars missions combined. 219 00:25:22,000 --> 00:25:26,711 MRO has made more than 60,000 orbits, 220 00:25:26,840 --> 00:25:30,675 mapping over 99% of the planet's surface. 221 00:25:36,640 --> 00:25:41,271 Its high-resolution cameras have revealed Mars as never before... 222 00:25:42,760 --> 00:25:44,911 ...discovering polar avalanches... 223 00:25:47,320 --> 00:25:49,312 ...shifting sand dunes... 224 00:25:52,880 --> 00:25:56,760 ...and what could be seasonal flows of sand 225 00:25:56,880 --> 00:25:59,475 or even liquid meltwater. 226 00:26:04,240 --> 00:26:06,880 Then, in 2017, 227 00:26:07,000 --> 00:26:13,236 MRO turned its gaze to one of the Red Planet's oldest features, 228 00:26:13,360 --> 00:26:14,953 the Eridania Basin. 229 00:26:19,720 --> 00:26:21,712 3.8 billion years ago, 230 00:26:21,840 --> 00:26:24,275 the basin was a vast sea... 231 00:26:27,680 --> 00:26:32,277 ...holding ten times more water than the Great Lakes of North America. 232 00:26:38,240 --> 00:26:42,393 And it was here that MRO found the evidence it was looking for. 233 00:26:45,000 --> 00:26:50,120 400-metre thick deposits of minerals that, on Earth, 234 00:26:50,240 --> 00:26:53,756 form in deep-sea hydrothermal vents. 235 00:27:00,160 --> 00:27:03,312 In the Eridania Basin, 236 00:27:03,440 --> 00:27:06,638 MRO revealed that conditions on Mars 237 00:27:06,760 --> 00:27:10,549 had once been ripe for the emergence of life. 238 00:27:34,080 --> 00:27:36,515 We won't know for sure whether life began - 239 00:27:36,640 --> 00:27:39,280 or even perhaps still exists - on Mars 240 00:27:39,400 --> 00:27:42,154 until we go there and find physical evidence. 241 00:27:42,280 --> 00:27:46,320 So microbes buried deep below the soil in oases of liquid water, 242 00:27:46,440 --> 00:27:48,750 or maybe microfossils. 243 00:27:48,880 --> 00:27:52,317 But what we do know is that when life began here on Earth 244 00:27:52,440 --> 00:27:56,434 3.8 billion years ago, the conditions on Mars were very similar. 245 00:27:56,560 --> 00:27:58,791 There were seas, there was volcanic activity, 246 00:27:58,920 --> 00:28:03,073 there were even hydrothermal vent systems on the floors of its oceans. 247 00:28:03,200 --> 00:28:04,919 So it is at least possible 248 00:28:05,040 --> 00:28:10,160 that Earth is not the only world in the solar system where life began. 249 00:28:16,160 --> 00:28:20,871 The habitable conditions during what's known as Mars's Noachian Era 250 00:28:21,000 --> 00:28:23,993 persisted for hundreds of millions of years. 251 00:28:32,680 --> 00:28:39,120 But then prospects for life on the Red Planet changed dramatically. 252 00:28:44,480 --> 00:28:46,278 Around 3.5 billion years ago, 253 00:28:46,400 --> 00:28:48,517 the Noachian Era drew to a close, 254 00:28:48,640 --> 00:28:53,317 and Mars entered a more frozen, arid phase known as the Hesperian. 255 00:28:53,440 --> 00:28:57,593 The water that flowed freely over the surface during the age of Noah 256 00:28:57,720 --> 00:29:02,158 became locked away in giant reservoirs of ice. 257 00:29:02,280 --> 00:29:06,399 But around the same time, Mars became more volcanically active, 258 00:29:06,520 --> 00:29:09,433 and the volcanic eruptions and sub-surface lava flows 259 00:29:09,560 --> 00:29:11,677 occasionally melted the ice, 260 00:29:11,800 --> 00:29:14,440 leading to catastrophic flooding. 261 00:29:14,560 --> 00:29:17,632 They must have been some of the most spectacular sights 262 00:29:17,760 --> 00:29:19,592 in the history of the solar system. 263 00:29:26,840 --> 00:29:29,992 As molten rock pushed upwards through the crust, 264 00:29:30,120 --> 00:29:34,592 meltwater poured out onto the surface. 265 00:29:37,280 --> 00:29:40,796 It raged down from the Southern Highlands... 266 00:29:44,640 --> 00:29:49,795 ...until, in a place known as Echus Chasma, 267 00:29:49,920 --> 00:29:53,675 it plunged over cliffs four kilometres high... 268 00:30:03,400 --> 00:30:09,670 ...creating the largest waterfall the solar system has ever seen. 269 00:30:49,680 --> 00:30:54,118 Echus Chasma would have been like no waterfall ever seen on Earth. 270 00:30:54,240 --> 00:30:58,871 350 cubic kilometres of water flowed over it. 271 00:30:59,000 --> 00:31:03,472 That's like a cube - 70 kilometres by 70 kilometres by 70 kilometres. 272 00:31:03,600 --> 00:31:05,000 It all emptied into a canyon 273 00:31:05,120 --> 00:31:09,000 10 kilometres wide and 100 kilometres long, 274 00:31:09,120 --> 00:31:11,999 and that happened in a few weeks. 275 00:31:20,480 --> 00:31:23,757 Once the flood subsided, the water disappeared... 276 00:31:26,960 --> 00:31:31,512 ...leaving the evidence of the falls etched into the face of the planet. 277 00:31:39,960 --> 00:31:42,953 We don't know precisely why the climate of Mars 278 00:31:43,080 --> 00:31:46,312 changed from warm and wet to cold and arid. 279 00:31:46,440 --> 00:31:50,275 We're talking about events that happened 3.5 billion years ago 280 00:31:50,400 --> 00:31:53,518 on a planet hundreds of millions of kilometres away. 281 00:31:53,640 --> 00:31:56,075 So it is a hard problem. 282 00:31:56,200 --> 00:31:57,953 But we do strongly suspect 283 00:31:58,080 --> 00:32:01,039 that changes happening on the planet's surface were driven, 284 00:32:01,160 --> 00:32:02,480 at least in part, 285 00:32:02,600 --> 00:32:05,434 by changes in the planet's interior. 286 00:32:12,520 --> 00:32:15,160 Deep within Mars's core, 287 00:32:15,280 --> 00:32:19,115 something was causing the planet to die, 288 00:32:19,240 --> 00:32:24,031 and the evidence can be found in Mars's atmosphere. 289 00:32:24,160 --> 00:32:26,152 COMMS: T minus ten, nine, 290 00:32:26,280 --> 00:32:30,240 eight, seven, six, five, four, 291 00:32:30,360 --> 00:32:33,558 three, two, one... 292 00:32:33,680 --> 00:32:35,114 Main engines start. 293 00:32:35,240 --> 00:32:39,792 Ignition. And liftoff of the Atlas V with MAVEN, 294 00:32:39,920 --> 00:32:44,949 looking for clues about the evolution of Mars through its atmosphere. 295 00:32:50,360 --> 00:32:52,158 BRIAN COX: In September 2014, 296 00:32:52,280 --> 00:32:56,718 NASA's MAVEN probe made its final approach to the Red Planet. 297 00:33:11,480 --> 00:33:13,119 Its mission - 298 00:33:13,240 --> 00:33:16,950 to understand what drove the planet's dramatic climate change. 299 00:33:30,200 --> 00:33:32,112 MAVEN is equipped with an array of instruments 300 00:33:32,240 --> 00:33:35,836 designed to measure the behaviour of the atoms and molecules 301 00:33:35,960 --> 00:33:37,440 in Mars's atmosphere. 302 00:34:29,480 --> 00:34:32,996 The spacecraft circles Mars in an elliptical orbit... 303 00:34:41,240 --> 00:34:44,677 ...allowing it to measure the full profile 304 00:34:44,800 --> 00:34:46,314 of the planet's upper atmosphere. 305 00:34:54,600 --> 00:34:59,436 At its lowest point, it's just 150 kilometres above the surface. 306 00:35:03,000 --> 00:35:06,676 At its highest, a little over 6,000 kilometres. 307 00:35:10,400 --> 00:35:13,598 And it was at the very top of Mars's atmosphere 308 00:35:13,720 --> 00:35:18,556 that MAVEN found the key to the mystery of what happened to Mars. 309 00:35:18,680 --> 00:35:21,275 (STATICKY CLICKING) 310 00:35:24,360 --> 00:35:26,317 Detailed measurements revealed 311 00:35:26,440 --> 00:35:29,274 gas is being lost from the Martian atmosphere, 312 00:35:29,400 --> 00:35:32,234 escaping to space 313 00:35:32,360 --> 00:35:35,910 at a rate of about two kilograms every second. 314 00:35:41,200 --> 00:35:46,798 Over time, it's thought this gradual stripping away of Mars's atmosphere 315 00:35:46,920 --> 00:35:50,960 has slowly thinned the insulating layer surrounding the planet... 316 00:35:53,920 --> 00:35:57,357 ...causing surface temperatures to plummet. 317 00:36:15,160 --> 00:36:19,074 But what was it that caused Mars to lose its atmosphere 318 00:36:19,200 --> 00:36:21,920 while Earth clung onto hers? 319 00:36:30,520 --> 00:36:35,276 150 million kilometres away in that direction is the setting Sun - 320 00:36:35,400 --> 00:36:37,437 a giant nuclear fusion reactor. 321 00:36:37,560 --> 00:36:39,756 You could fit a million Earths inside it. 322 00:36:39,880 --> 00:36:44,318 Now, the surface temperature is only around 6,000 degrees Celsius, 323 00:36:44,440 --> 00:36:46,671 but the Sun's atmosphere, known as its corona, 324 00:36:46,800 --> 00:36:48,473 is at a million degrees. 325 00:36:48,600 --> 00:36:51,000 And that means it's in the form of what's known as a plasma - 326 00:36:51,120 --> 00:36:53,680 a soup of electrically charged particles. 327 00:36:53,800 --> 00:36:56,440 Now, some of those particles are moving around so fast 328 00:36:56,560 --> 00:36:57,755 that they can escape, 329 00:36:57,880 --> 00:37:01,032 and they stream away in what's known as the solar wind. 330 00:37:01,160 --> 00:37:04,790 They reach the Earth travelling at a few hundred kilometres per second, 331 00:37:04,920 --> 00:37:09,073 and if we weren't protected, they would strip away our atmosphere. 332 00:37:18,640 --> 00:37:21,280 And when the Sun dips below the horizon... 333 00:37:23,800 --> 00:37:28,556 ...there are times when that protective force field is revealed. 334 00:37:48,000 --> 00:37:49,275 Just look at that! 335 00:37:50,480 --> 00:37:52,119 I mean, there is the aurora. 336 00:37:56,280 --> 00:37:59,990 It's the laws of nature, all of them, written across the sky. 337 00:38:03,880 --> 00:38:07,237 Electrically charged particles are being driven away from the Sun, 338 00:38:07,360 --> 00:38:12,230 ultimately from nuclear fusion reactions in the core of a star. 339 00:38:12,360 --> 00:38:16,149 They're crossing the solar system, hitting the Earths magnetic field, 340 00:38:16,280 --> 00:38:20,035 stretching it out on the dark side of the planet. 341 00:38:20,160 --> 00:38:23,471 The field then snaps back like an elastic band, 342 00:38:23,600 --> 00:38:27,958 accelerating all those charged particles up and down the field lines 343 00:38:28,080 --> 00:38:33,109 to the poles, which is here, in the skies over Iceland, 344 00:38:33,240 --> 00:38:37,951 and they hit nitrogen and oxygen molecules in the atmosphere... 345 00:38:39,560 --> 00:38:41,552 And you're seeing quantum mechanics. 346 00:38:41,680 --> 00:38:43,194 They're exciting the molecules 347 00:38:43,320 --> 00:38:46,472 so that they emit light in characteristic colours. 348 00:38:58,840 --> 00:39:02,754 And if you think about it, this is the only time that we really see 349 00:39:02,880 --> 00:39:04,314 the Earth's magnetic field. 350 00:39:06,360 --> 00:39:09,592 It's one of the reasons why life on Earth 351 00:39:09,720 --> 00:39:12,519 has been able to persist for 4 billion years. 352 00:39:15,000 --> 00:39:18,232 So, in a sense, that's the reason that you exist. 353 00:39:23,640 --> 00:39:27,156 It's Earth's magnetic field that protects our atmosphere 354 00:39:27,280 --> 00:39:29,795 from the ravages of the solar wind, 355 00:39:29,920 --> 00:39:34,870 and that protective shield has its origins deep in the planet's interior. 356 00:39:37,520 --> 00:39:40,718 Thousands of kilometres down, below my feet - 357 00:39:40,840 --> 00:39:42,797 actually below your feet now - 358 00:39:42,920 --> 00:39:44,513 is the Earth's outer core, 359 00:39:44,640 --> 00:39:47,678 which is a seething mass of molten iron. 360 00:39:47,800 --> 00:39:51,396 Now, convection currents cause the molten iron to rise, 361 00:39:51,520 --> 00:39:55,673 then the Earth's rotation causes it to spiral around. 362 00:39:55,800 --> 00:40:00,397 Now, a spiralling, circling flow of an electrically conducting liquid 363 00:40:00,520 --> 00:40:02,239 is a dynamo. 364 00:40:02,360 --> 00:40:04,795 A dynamo generates a magnetic field, 365 00:40:04,920 --> 00:40:08,834 and the Earth's field rises up not just to the surface here 366 00:40:08,960 --> 00:40:12,510 but out into space, forming our protective shield. 367 00:40:12,640 --> 00:40:15,360 And that... what you see there. 368 00:40:22,640 --> 00:40:24,154 And just like Earth, 369 00:40:24,280 --> 00:40:28,194 ancient Mars was also shielded from the Sun. 370 00:40:34,760 --> 00:40:37,753 Aurora once danced above its poles... 371 00:40:41,000 --> 00:40:45,836 ...keeping guard over the Martian atmosphere and seas below. 372 00:41:01,400 --> 00:41:07,954 But between 3.5 and 4 billion years ago, Mars's dynamo switched off. 373 00:41:10,720 --> 00:41:14,270 The aurora surrounding the poles slowly faded away, 374 00:41:14,400 --> 00:41:16,551 as the magnetic field diminished... 375 00:41:19,120 --> 00:41:23,512 ...allowing the atmosphere to be stripped away by the solar wind. 376 00:41:33,160 --> 00:41:36,915 Without protection, seas evaporated, 377 00:41:37,040 --> 00:41:39,191 the surface froze, 378 00:41:39,320 --> 00:41:43,109 and Mars was transformed. 379 00:41:51,080 --> 00:41:54,960 At the same time, the fortunes of Mars's sister world 380 00:41:55,080 --> 00:41:57,356 were about to take a very different turn. 381 00:42:01,720 --> 00:42:03,598 For the next billion years or so, 382 00:42:03,720 --> 00:42:07,714 Earth was indistinguishable from the landscapes of early Mars - 383 00:42:07,840 --> 00:42:11,072 barren continents surrounded by ocean. 384 00:42:11,200 --> 00:42:12,680 But in Earth's oceans, 385 00:42:12,800 --> 00:42:15,872 life was beginning to transform the planet. 386 00:42:19,480 --> 00:42:23,918 Primitive algae started to neutralise the ocean's acidity 387 00:42:24,040 --> 00:42:30,196 and replace the dense red fog of Earth's methane-rich atmosphere with oxygen. 388 00:42:33,520 --> 00:42:35,512 Around 600 million years ago, 389 00:42:35,640 --> 00:42:37,472 that oxygen-rich atmosphere 390 00:42:37,600 --> 00:42:40,434 allowed complex life to evolve in the oceans, 391 00:42:40,560 --> 00:42:41,994 colonise the land, 392 00:42:42,120 --> 00:42:47,115 and ultimately produce this almost infinitely rich living world today 393 00:42:47,240 --> 00:42:50,472 of which we are a part. 394 00:43:01,120 --> 00:43:05,080 While Mars died, Earth flourished. 395 00:43:11,440 --> 00:43:16,515 To understand why the two sisters had such different destinies, 396 00:43:16,640 --> 00:43:21,999 you have to go right back to the time the planets were forming. 397 00:43:27,200 --> 00:43:29,078 When Mars and Earth were born, 398 00:43:29,200 --> 00:43:33,752 the solar system was a chaotic vortex of gas and rock. 399 00:43:38,440 --> 00:43:41,080 Material clumped together and grew... 400 00:43:42,480 --> 00:43:44,790 ...only to be smashed apart. 401 00:43:52,160 --> 00:43:55,517 Over time, some of the objects became large enough to survive 402 00:43:55,640 --> 00:43:59,077 at least the smaller impacts and continue to grow, 403 00:43:59,200 --> 00:44:02,477 including the embryonic planets Earth and Mars. 404 00:44:11,480 --> 00:44:15,156 But there was one crucial difference between the young planets. 405 00:44:22,560 --> 00:44:25,120 Mars formed in a region of the solar system 406 00:44:25,240 --> 00:44:27,800 with considerably less rocky material... 407 00:44:29,200 --> 00:44:32,432 ...and that had a profound impact on the planet's growth. 408 00:44:37,920 --> 00:44:40,310 Mars is a significantly smaller world - 409 00:44:40,440 --> 00:44:42,830 it's about half the diameter of the Earth - 410 00:44:42,960 --> 00:44:44,952 and that makes all the difference. 411 00:44:45,080 --> 00:44:47,993 Although the details are not yet fully understood, 412 00:44:48,120 --> 00:44:50,760 it seems clear that Mars's smaller size 413 00:44:50,880 --> 00:44:54,794 meant that its dynamo switched off many billions of years ago. 414 00:44:58,480 --> 00:45:02,952 Being smaller meant Mars's core cooled more quickly than Earth's. 415 00:45:05,840 --> 00:45:10,710 And this is certainly part of the reason why Mars lost its magnetic field. 416 00:45:17,880 --> 00:45:20,839 Even though the planet is further away from the Sun than we are, 417 00:45:20,960 --> 00:45:25,989 that meant that the solar wind stripped away its atmosphere, and Mars died. 418 00:45:26,120 --> 00:45:31,320 So even though Earth and Mars are so similar in so many ways, 419 00:45:31,440 --> 00:45:35,195 the difference in position and size in the solar system 420 00:45:35,320 --> 00:45:37,789 lead to very different fates. 421 00:45:48,200 --> 00:45:51,989 Long ago, two sister worlds were born. 422 00:45:57,000 --> 00:46:01,119 In childhood, Mars was warm and wet... 423 00:46:05,600 --> 00:46:10,470 ...whilst the Earth was inhospitable and toxic. 424 00:46:18,560 --> 00:46:23,635 Both young planets survived the violence of the Late Heavy Bombardment... 425 00:46:25,600 --> 00:46:28,559 ...emerging as mature worlds... 426 00:46:30,080 --> 00:46:34,632 ...primed with all the ingredients for life. 427 00:46:43,080 --> 00:46:47,518 But deep inside, the smaller of the two was dying. 428 00:46:54,160 --> 00:46:56,197 Mars's seas dried up. 429 00:47:08,520 --> 00:47:11,592 And as the planet's interior cooled, 430 00:47:11,720 --> 00:47:15,396 one by one, her fires went out. 431 00:47:20,080 --> 00:47:24,233 Olympus Mons, the largest volcano in the solar system, 432 00:47:24,360 --> 00:47:28,036 last erupted around 25 million years ago. 433 00:47:36,960 --> 00:47:39,873 As the lava turned to stone, 434 00:47:40,000 --> 00:47:43,391 Mars was frozen in time. 435 00:47:58,200 --> 00:48:04,436 And so, today, her surface lies rusted and gathering dust. 436 00:48:12,360 --> 00:48:16,149 But that might not be the end of Mars's story. 437 00:48:23,160 --> 00:48:28,599 Because the next generation of spacecraft are already on their way. 438 00:48:35,680 --> 00:48:38,832 NASA Orion - 439 00:48:38,960 --> 00:48:41,475 currently in advanced testing. 440 00:49:11,200 --> 00:49:13,999 ESA Exomars - 441 00:49:14,120 --> 00:49:18,876 a fleet of spacecraft designed to search for signs of life. 442 00:49:27,800 --> 00:49:33,194 And the most ambitious private space mission ever conceived. 443 00:49:43,000 --> 00:49:49,520 A launch vehicle developed to take humans to the surface of Mars. 444 00:50:06,920 --> 00:50:09,480 Mars is, in a sense, a failed world, 445 00:50:09,600 --> 00:50:14,231 a faded ember etched with the memories of a more enticing past, 446 00:50:14,360 --> 00:50:19,515 but there have been - and may still be - life on Mars, 447 00:50:19,640 --> 00:50:23,270 and the discovery of a second genesis in our solar system 448 00:50:23,400 --> 00:50:27,838 would have profound philosophical, scientific and cultural consequences, 449 00:50:27,960 --> 00:50:33,160 because it would mean there is a sense of inevitability about the origin of life. 450 00:50:33,280 --> 00:50:37,274 And that would mean that the universe is most likely teeming with life, 451 00:50:37,400 --> 00:50:39,790 that we are not alone. 452 00:50:44,840 --> 00:50:47,435 But equally importantly, I think, 453 00:50:47,560 --> 00:50:52,954 is the role that a planet with a history like Mars could play in our future. 454 00:50:53,080 --> 00:50:54,912 Mars is rich in resources. 455 00:50:55,040 --> 00:50:58,670 It has vast reservoirs of frozen water below the surface 456 00:50:58,800 --> 00:51:02,760 and minerals - iron, nitrogen, carbon, oxygen - 457 00:51:02,880 --> 00:51:05,918 all the things you need to support a civilisation. 458 00:51:08,040 --> 00:51:12,000 And that's why I think that, in my lifetime, there will be Martians. 459 00:51:12,120 --> 00:51:14,476 But the Martians will be us. 460 00:51:14,600 --> 00:51:17,798 We will go to Mars and make it our home, 461 00:51:17,920 --> 00:51:22,153 and that old red world will become our first step beyond the cradle 462 00:51:22,280 --> 00:51:24,920 and out to the stars. 463 00:51:56,680 --> 00:52:02,711 Mars really captures our imagination, 464 00:52:02,840 --> 00:52:05,878 partly because it's so close. 465 00:52:06,000 --> 00:52:08,799 I think people are really interested in Mars 466 00:52:08,920 --> 00:52:12,914 because it actually is so similar to Earth. 467 00:52:13,040 --> 00:52:18,991 It's close by, it's easy to travel there with robots and space missions, 468 00:52:19,120 --> 00:52:21,874 and so we've done a lot of exploration, 469 00:52:22,000 --> 00:52:25,596 and every time you go and look, you discover something new. 470 00:52:29,680 --> 00:52:33,913 BRIAN COX: NASA Curiosity launched on 26th November 2011. 471 00:52:36,880 --> 00:52:41,557 But the biggest obstacle facing the mission team wasn't leaving the Earth. 472 00:52:44,720 --> 00:52:46,313 Mars has a unique set of challenges 473 00:52:46,440 --> 00:52:48,716 compared to other places we go with spacecraft. 474 00:52:48,840 --> 00:52:51,275 Mars has an atmosphere, but it's thin, 475 00:52:51,400 --> 00:52:53,915 so it's not enough to really slow you down, 476 00:52:54,040 --> 00:52:56,874 but it is enough to actually burn you up as you're trying to land. 477 00:52:59,480 --> 00:53:02,279 BRIAN COX: Curiosity reached the top of the Martian atmosphere 478 00:53:02,400 --> 00:53:06,030 travelling at 20,000 kilometres per hour. 479 00:53:08,240 --> 00:53:11,995 Curiosity is a big rover - it weighs a metric tonne - and so landing that 480 00:53:12,120 --> 00:53:14,216 required every trick in the book of how we've learned to land on Mars 481 00:53:14,240 --> 00:53:15,674 with previous missions. 482 00:53:18,520 --> 00:53:21,672 BRIAN COX: To land safely, the rover had to be slowed 483 00:53:21,800 --> 00:53:24,360 to less than four kilometres per hour. 484 00:53:32,960 --> 00:53:35,136 ASHWIN VASAVADA: You end up arriving at Mars going really fast, 485 00:53:35,160 --> 00:53:36,719 so you actually have to slow down, 486 00:53:36,840 --> 00:53:39,435 and we do that using a heat shield, 487 00:53:39,560 --> 00:53:42,712 which burns off a lot of energy and creates a lot of heat, 488 00:53:42,840 --> 00:53:46,470 so you have to absorb that somehow and not damage the spacecraft. 489 00:53:46,600 --> 00:53:48,273 Then a parachute comes out. 490 00:53:52,200 --> 00:53:55,159 The biggest parachute we've ever used in a planetary mission. 491 00:53:57,560 --> 00:53:59,950 And that even doesn't slow Curiosity down enough, 492 00:54:00,080 --> 00:54:01,616 because Mars's atmosphere is quite thin, 493 00:54:01,640 --> 00:54:03,871 so then rockets carry the spacecraft 494 00:54:04,000 --> 00:54:05,957 and guide the spacecraft to the surface. 495 00:54:12,200 --> 00:54:14,920 There's nothing you can do at that point to ensure its success 496 00:54:15,040 --> 00:54:16,679 or prevent its crashing. 497 00:54:19,200 --> 00:54:21,920 And yet, you've invested so much in the outcome. 498 00:54:24,720 --> 00:54:26,518 All I could do was sort of curl up in a ball 499 00:54:26,640 --> 00:54:31,192 and wait for the green light that Curiosity was safely on Mars. 500 00:54:31,320 --> 00:54:33,960 (BEEPING) 501 00:54:34,080 --> 00:54:37,835 BRIAN COX: Seven years and $2.5 billion in the making, 502 00:54:37,960 --> 00:54:41,271 Curiosity finally touched down 503 00:54:41,400 --> 00:54:46,111 at 6:32 Universal Time on 6th August 2012. 504 00:54:51,200 --> 00:54:52,634 I was sitting in the control room, 505 00:54:52,760 --> 00:54:54,797 watching the engineers who were actually monitoring 506 00:54:54,920 --> 00:54:56,593 the signals coming in from Curiosity, 507 00:54:56,720 --> 00:54:59,633 and so they were reading out the data that they were getting, 508 00:54:59,760 --> 00:55:02,594 and they detected the wheels touching the soil. 509 00:55:02,720 --> 00:55:05,872 Then a few seconds went by when cables had to be cut 510 00:55:06,000 --> 00:55:07,600 and the rocket jet pack had to fly away. 511 00:55:09,120 --> 00:55:12,557 And only then they understood that Curiosity was safe on the ground, 512 00:55:12,680 --> 00:55:16,276 and the whole room just erupted in celebration. 513 00:55:20,600 --> 00:55:21,875 BRIAN COX: Since it landed, 514 00:55:22,000 --> 00:55:26,119 Curiosity has been exploring Gale Crater for more than six years. 515 00:55:30,080 --> 00:55:34,040 JENNIFER EIGENBRODE: Curiosity is a roving laboratory. 516 00:55:34,160 --> 00:55:39,189 We actually collect samples by scooping it or by drilling 517 00:55:39,320 --> 00:55:42,040 or just by sucking in some of the atmospheric gas. 518 00:55:44,160 --> 00:55:47,790 And it's that type of data that allow us 519 00:55:47,920 --> 00:55:51,391 to peck apart the story that those things hold. 520 00:55:53,680 --> 00:55:58,197 In 2015, we made our first identification of organic molecules 521 00:55:58,320 --> 00:56:01,597 that we think were coming from the Martian materials. 522 00:56:03,120 --> 00:56:05,555 And that is a turning point for us. 523 00:56:08,880 --> 00:56:11,270 What we found in those rocks 524 00:56:11,400 --> 00:56:14,757 is what we expected of natural organic matter. 525 00:56:14,880 --> 00:56:17,076 It's what you would expect to find on Earth. 526 00:56:20,000 --> 00:56:24,153 Finding the organic matter is the clue to searching for life. 527 00:56:26,400 --> 00:56:29,757 What everybody wants to know is whether or not Mars once had life, 528 00:56:29,880 --> 00:56:32,395 and the short answer is, we don't know. 529 00:56:33,800 --> 00:56:35,519 The somewhat longer answer is, 530 00:56:35,640 --> 00:56:40,510 we see all the signs of materials that could have supported life. 531 00:56:40,640 --> 00:56:43,678 We have evidence for lots of water early on. 532 00:56:45,360 --> 00:56:46,589 We see the nutrients. 533 00:56:46,720 --> 00:56:49,076 We see carbon. We see oxygen. 534 00:56:49,200 --> 00:56:51,954 We see nitrogen. We see phosphorus. 535 00:56:52,080 --> 00:56:56,199 We see all the stuff that life needs in order to reproduce and survive 536 00:56:56,320 --> 00:56:57,993 as simple microorganisms. 537 00:57:02,040 --> 00:57:03,713 ASHWIN VASAVADA: For me, personally, 538 00:57:03,840 --> 00:57:06,480 I find it might actually be more surprising 539 00:57:06,600 --> 00:57:08,592 if we never found evidence of life on Mars. 540 00:57:08,720 --> 00:57:10,200 Everything we've found suggests 541 00:57:10,320 --> 00:57:14,473 that Mars was such a friendly, supportive place for life in its early history, 542 00:57:14,600 --> 00:57:18,276 and there should be a lot of planets like that around other stars 543 00:57:18,400 --> 00:57:20,278 and lots of life in the universe. 544 00:57:20,400 --> 00:57:23,359 So maybe we're getting to the point where it'll be more surprising 545 00:57:23,480 --> 00:57:25,995 if we never find other life. 546 00:57:31,880 --> 00:57:34,634 BRIAN COX: And so, thanks to Curiosity's discoveries, 547 00:57:34,760 --> 00:57:39,471 the latest wave of spacecraft might finally answer the question, 548 00:57:39,600 --> 00:57:42,115 has there ever been life on Mars? 47892