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These are the user uploaded subtitles that are being translated: 1 00:00:02,235 --> 00:00:04,999 It used to be the only planets we knew about 2 00:00:05,071 --> 00:00:06,698 were the ones that orbit our Sun. 3 00:00:06,773 --> 00:00:11,870 But now we've discovered rocky worlds 4 00:00:11,945 --> 00:00:15,972 and gas giants orbiting other stars. 5 00:00:16,049 --> 00:00:17,778 They tell an amazing story. 6 00:00:17,851 --> 00:00:20,342 The early history of these planets 7 00:00:20,420 --> 00:00:23,514 would have been very, very violent. 8 00:00:23,590 --> 00:00:28,357 Planets are made everywhere in the same way. 9 00:00:28,428 --> 00:00:30,692 They form from the dust and debris 10 00:00:30,764 --> 00:00:33,858 left over from the birth of stars. 11 00:00:33,933 --> 00:00:38,029 So, if they're all made the same way, 12 00:00:38,104 --> 00:00:40,572 what makes them all so different? 13 00:00:55,655 --> 00:00:59,421 The universe is full of galaxies... 14 00:01:01,494 --> 00:01:05,487 ...gas clouds... 15 00:01:05,565 --> 00:01:08,500 stars... 16 00:01:08,568 --> 00:01:11,162 And planets, as it turns out. 17 00:01:11,237 --> 00:01:14,638 Our solar system has eight planets. 18 00:01:14,707 --> 00:01:17,642 But we now know they're a tiny group, 19 00:01:17,710 --> 00:01:21,111 compared to the huge cosmic family of planets 20 00:01:21,181 --> 00:01:23,274 across the galaxy. 21 00:01:23,349 --> 00:01:29,618 It's an extraordinary moment in scientific history... 22 00:01:29,689 --> 00:01:31,953 To know for sure 23 00:01:32,025 --> 00:01:33,788 that there are other planetary systems out there. 24 00:01:33,860 --> 00:01:35,953 They're very common. 25 00:01:36,029 --> 00:01:40,466 And out of the 200 billion stars in our Milky Way galaxy, 26 00:01:40,533 --> 00:01:46,802 there are surely dozens of billions of planets out there. 27 00:01:46,873 --> 00:01:51,310 In 2009, NASA launched the Kepler Space Telescope 28 00:01:51,377 --> 00:01:52,810 on a six-year mission 29 00:01:52,879 --> 00:01:56,406 to find new planets orbiting other stars. 30 00:01:59,752 --> 00:02:03,688 So far, astronomers have found over 400. 31 00:02:06,326 --> 00:02:09,261 Some are colossal balls of churning gas 32 00:02:09,329 --> 00:02:12,594 five times the size of Jupiter. 33 00:02:15,001 --> 00:02:19,938 Others are huge, rocky worlds many times larger than Earth. 34 00:02:22,008 --> 00:02:25,444 Some follow wild, erratic orbits, 35 00:02:25,512 --> 00:02:28,447 so close to a star they're burning up. 36 00:02:33,953 --> 00:02:39,721 One thing is clear... no two planets are the same. 37 00:02:39,792 --> 00:02:43,888 Each is one of a kind. 38 00:02:43,963 --> 00:02:50,232 But most of these new planets are far away and hard to study. 39 00:02:50,303 --> 00:02:52,897 Most of what we know about how planets work 40 00:02:52,972 --> 00:02:57,238 comes from the eight that orbit our own star. 41 00:02:57,310 --> 00:02:59,540 Our own planets come in two main types. 42 00:02:59,612 --> 00:03:04,049 There are four rocky planets in the inner solar system... 43 00:03:04,117 --> 00:03:05,982 Mercury... 44 00:03:06,052 --> 00:03:08,077 Venus... 45 00:03:08,154 --> 00:03:10,145 Earth... 46 00:03:10,223 --> 00:03:12,316 And Mars. 47 00:03:12,392 --> 00:03:14,155 And in the outer solar system, 48 00:03:14,227 --> 00:03:17,822 there are four giant gas planets... 49 00:03:17,897 --> 00:03:19,330 Jupiter... 50 00:03:19,399 --> 00:03:22,197 Saturn... 51 00:03:22,268 --> 00:03:23,565 Uranus... 52 00:03:23,636 --> 00:03:26,070 And Neptune. 53 00:03:26,139 --> 00:03:33,170 Each of the eight planets is distinct and very different. 54 00:03:33,246 --> 00:03:37,683 Their unique personalities began to form 55 00:03:37,750 --> 00:03:42,483 at the birth of our solar system 4.6 billion years ago. 56 00:03:45,992 --> 00:03:48,426 When the Sun ignited, 57 00:03:48,494 --> 00:03:53,261 it left behind a huge cloud of gas and dust. 58 00:03:53,333 --> 00:03:55,426 All eight planets... 59 00:03:55,501 --> 00:03:58,595 the inner rocky and the outer gas planets... 60 00:03:58,671 --> 00:04:01,765 came from this cloud of cosmic debris. 61 00:04:01,841 --> 00:04:03,775 The planets in our solar system 62 00:04:03,843 --> 00:04:06,107 are all made from the same stuff. 63 00:04:06,179 --> 00:04:09,114 They're made from the same cloud of gas and dust, 64 00:04:09,182 --> 00:04:11,616 but they formed under very different conditions. 65 00:04:11,684 --> 00:04:13,515 Some of them formed in close to the Sun, 66 00:04:13,586 --> 00:04:14,746 where it was much hotter, 67 00:04:14,821 --> 00:04:16,755 some much farther away, where it was much colder. 68 00:04:16,823 --> 00:04:21,089 And because the conditions were so different, the end result, 69 00:04:21,160 --> 00:04:26,097 the product of their formation, was different, as well. 70 00:04:26,165 --> 00:04:29,259 So, you start the solar system, in my view, 71 00:04:29,335 --> 00:04:32,395 with a pretty homogeneous mix of silicates 72 00:04:32,472 --> 00:04:34,406 and water vapor and hydrogen, lots of hydrogen, 73 00:04:34,474 --> 00:04:36,738 and methane and other elements. 74 00:04:36,809 --> 00:04:38,743 These elements in the dust cloud 75 00:04:38,811 --> 00:04:40,904 are like ingredients in a cake. 76 00:04:40,980 --> 00:04:43,744 They cook differently, depending on the combination 77 00:04:43,816 --> 00:04:46,580 of the ingredients and the temperature of the oven. 78 00:04:46,653 --> 00:04:49,918 And just like with the cake, you'd mix the ingredients. 79 00:04:49,989 --> 00:04:51,752 And then you'd put it in the oven and bake it, 80 00:04:51,824 --> 00:04:53,792 and it would change. 81 00:04:53,860 --> 00:04:57,125 And so this is kind of what happened in the solar system. 82 00:04:57,196 --> 00:05:00,632 Overall, the planet cooks in a slightly different way, 83 00:05:00,700 --> 00:05:04,136 depending on how close it is to the Sun. 84 00:05:04,203 --> 00:05:06,467 Close in, where it's hot, 85 00:05:06,539 --> 00:05:11,602 the Sun burns off gases and boils away water. 86 00:05:11,678 --> 00:05:15,774 Only materials that stay solid at high temperatures, 87 00:05:15,848 --> 00:05:19,181 like metals and rock, can survive, 88 00:05:19,252 --> 00:05:25,885 which is why only rocky planets form close to the Sun. 89 00:05:25,958 --> 00:05:28,552 Move farther away from the heat of the Sun, 90 00:05:28,628 --> 00:05:32,223 and you get different kinds of planets cooking. 91 00:05:32,298 --> 00:05:34,892 But it's the ingredients in the cloud 92 00:05:34,967 --> 00:05:39,028 that determine precisely what kinds of planets will form. 93 00:05:39,105 --> 00:05:43,405 Well, depending on the type of cloud a solar system forms in, 94 00:05:43,476 --> 00:05:46,741 you could have solar systems that don't have rocky planets 95 00:05:46,813 --> 00:05:49,077 because it was just too poor in the materials 96 00:05:49,148 --> 00:05:51,412 to build something like the Earth, 97 00:05:51,484 --> 00:05:54,419 and instead you could end up with more gas giants 98 00:05:54,487 --> 00:05:58,753 and no rocky planets at all. 99 00:05:58,825 --> 00:06:01,760 If you want rocky planets, 100 00:06:01,828 --> 00:06:05,264 you need a cloud full of metals and rock. 101 00:06:07,834 --> 00:06:12,271 Next step... turn the heat down. 102 00:06:12,338 --> 00:06:15,603 As it cools down, some of the elements in there 103 00:06:15,675 --> 00:06:20,476 that have a high boiling point start to condense out as solids. 104 00:06:20,546 --> 00:06:25,643 And you can get these very tiny little mineral grains forming. 105 00:06:25,718 --> 00:06:27,811 These tiny mineral grains 106 00:06:27,887 --> 00:06:30,754 are the seeds of a new rocky planet. 107 00:06:30,823 --> 00:06:33,917 Over time, they start to stick together. 108 00:06:33,993 --> 00:06:36,757 You would have one dust molecule and another dust molecule, 109 00:06:36,829 --> 00:06:38,592 and they would basically slam into each other 110 00:06:38,664 --> 00:06:41,030 and become one slightly bigger dust molecule. 111 00:06:41,100 --> 00:06:43,534 And they would pick up more and more and more. 112 00:06:43,603 --> 00:06:45,696 This process is called accretion. 113 00:06:45,772 --> 00:06:50,539 As these things got bigger, they became basically rocks. 114 00:06:52,779 --> 00:06:57,375 Then rocks slam into other rocks and form boulders. 115 00:07:00,620 --> 00:07:06,388 Boulders smash together to form bigger boulders. 116 00:07:06,459 --> 00:07:09,394 Eventually, you've got something big enough 117 00:07:09,462 --> 00:07:11,327 that it's gravity was strong enough 118 00:07:11,397 --> 00:07:13,456 that it could start drawing material in. 119 00:07:13,533 --> 00:07:15,125 So, instead of just slamming into material 120 00:07:15,201 --> 00:07:16,793 and gaining mass that way, 121 00:07:16,869 --> 00:07:20,066 it was actually actively pulling material in. 122 00:07:20,139 --> 00:07:22,664 In our own solar system, 123 00:07:22,742 --> 00:07:28,840 there were many growing infant planets at first... maybe 100. 124 00:07:28,915 --> 00:07:32,851 Most of them didn't make it. 125 00:07:32,919 --> 00:07:34,511 If you go to the Asteroid Belt 126 00:07:34,587 --> 00:07:38,717 and look at the asteroid 4 Vesta, 127 00:07:38,791 --> 00:07:44,559 that is a good indicator of how big a rocky planet has to be 128 00:07:44,630 --> 00:07:46,894 before it can pull itself into a spherical shape. 129 00:07:46,966 --> 00:07:52,233 Vesta is only 329 miles across, 130 00:07:52,305 --> 00:07:56,366 not quite big enough to become a sphere. 131 00:07:56,442 --> 00:07:58,876 For a growing planet to become round, 132 00:07:58,945 --> 00:08:01,539 it has to reach 500 miles across. 133 00:08:01,614 --> 00:08:06,381 Then it has enough gravity to crush it into a sphere. 134 00:08:06,452 --> 00:08:11,219 Any smaller, and it stays an irregular shape. 135 00:08:11,290 --> 00:08:15,386 As round infant planets keep eating up stuff, 136 00:08:15,461 --> 00:08:18,726 each collision makes them hotter and hotter, 137 00:08:18,798 --> 00:08:21,562 until they start to melt. 138 00:08:21,634 --> 00:08:26,765 Now gravity begins to separate the heavy stuff from the light. 139 00:08:26,839 --> 00:08:31,867 Lighter materials tend to float up into crusty film, 140 00:08:31,944 --> 00:08:34,742 and the heavier materials... many of the metals... 141 00:08:34,814 --> 00:08:36,179 falling down and forming 142 00:08:36,249 --> 00:08:39,343 a much denser core at the center of the planet. 143 00:08:43,389 --> 00:08:44,822 The young planets 144 00:08:44,891 --> 00:08:47,485 are finally beginning to look like planets. 145 00:08:50,696 --> 00:08:53,665 But now they have to survive a period 146 00:08:53,733 --> 00:08:56,827 of violence and destruction... 147 00:09:00,806 --> 00:09:02,398 ...a brutal phase that determines 148 00:09:02,475 --> 00:09:07,344 which planets will live and which planets will die. 149 00:09:10,049 --> 00:09:11,744 After the birth of the Sun, 150 00:09:11,817 --> 00:09:13,910 our eight planets all evolved 151 00:09:13,986 --> 00:09:16,386 from the same cloud of dust and gas, 152 00:09:16,455 --> 00:09:21,051 and yet they ended up completely different. 153 00:09:21,127 --> 00:09:25,894 There was no real blueprint for each of the newborn planets. 154 00:09:25,965 --> 00:09:29,059 They did obey the laws of physics and chemistry, 155 00:09:29,135 --> 00:09:32,969 but the most important things happened by pure chance. 156 00:09:33,039 --> 00:09:36,805 4.5 billion years ago, 157 00:09:36,876 --> 00:09:41,142 around 100 baby planets circled our Sun. 158 00:09:44,917 --> 00:09:47,681 It turned into a demolition derby. 159 00:09:47,753 --> 00:09:52,588 Planet hit planet. Most were destroyed. 160 00:09:56,629 --> 00:09:58,722 The early history of these planets 161 00:09:58,798 --> 00:10:01,198 would have been very, very violent, 162 00:10:01,267 --> 00:10:03,201 with lots of these impacts taking place 163 00:10:03,269 --> 00:10:06,102 in the final stages of the growth of each planet. 164 00:10:06,172 --> 00:10:12,008 As these impacts took place, as objects ran into each other, 165 00:10:12,078 --> 00:10:14,012 certain objects began to grow 166 00:10:14,080 --> 00:10:17,345 at the expense of all the others in this swarm of planetesimals. 167 00:10:17,416 --> 00:10:20,180 And these planets, these things that would become planets, 168 00:10:20,252 --> 00:10:22,186 grew and grew, and as they got bigger, 169 00:10:22,254 --> 00:10:26,588 they swept up all the smaller planetesimals around them, 170 00:10:26,659 --> 00:10:28,752 the consequence on the surface of that protoplanet 171 00:10:28,828 --> 00:10:32,093 being an enormous amount of bombardment 172 00:10:32,164 --> 00:10:34,428 by debris from space. 173 00:10:38,471 --> 00:10:40,735 When it was over, 174 00:10:40,806 --> 00:10:46,073 all that was left were four very different rocky planets. 175 00:10:48,381 --> 00:10:52,477 Each planet's impact history left its stamp, 176 00:10:52,551 --> 00:10:54,314 and that's why they're all so different from each other. 177 00:10:54,387 --> 00:11:00,155 Mars is a frozen wasteland. 178 00:11:00,226 --> 00:11:03,662 Earth flows with liquid water. 179 00:11:03,729 --> 00:11:06,823 Venus is a volcanic hellhole. 180 00:11:09,568 --> 00:11:14,562 And Mercury is tiny, bleak, and super hot, 181 00:11:14,640 --> 00:11:17,404 the result of a monster collision. 182 00:11:27,520 --> 00:11:29,784 Mercury, for example, 183 00:11:29,855 --> 00:11:31,948 is extremely dense and has a very thin crust. 184 00:11:32,024 --> 00:11:35,084 So, it's possible it started off as a bigger planet. 185 00:11:35,161 --> 00:11:38,756 And then something hit it at an angle, 186 00:11:38,831 --> 00:11:41,595 and it sheared off the lighter-weight crust, 187 00:11:41,667 --> 00:11:43,931 leaving only the dense core. 188 00:11:51,844 --> 00:11:57,441 The young Earth also took a big hit. 189 00:11:57,516 --> 00:12:00,610 Sometime late in its development, 190 00:12:00,686 --> 00:12:05,453 the Earth was impacted by another object 191 00:12:05,524 --> 00:12:09,085 that ripped debris out of the Earth's mantle... 192 00:12:16,335 --> 00:12:19,270 ...which then went into orbit around the Earth 193 00:12:19,338 --> 00:12:22,466 and re-accumulated to form what is now the Moon. 194 00:12:34,220 --> 00:12:35,482 There's also evidence 195 00:12:35,554 --> 00:12:39,490 that something crashed into Mars. 196 00:12:39,558 --> 00:12:43,654 The northern hemisphere has a thinner crust than the southern. 197 00:12:46,599 --> 00:12:49,864 A theory that has emerged for how this happened 198 00:12:49,935 --> 00:12:52,699 is that early in the planet's history, 199 00:12:52,772 --> 00:12:56,037 the northern hemisphere of Mars was whacked by some object 200 00:12:56,108 --> 00:12:59,043 that blasted a lot of the crust off of it. 201 00:13:10,322 --> 00:13:13,382 And that crust re-accumulated on the southern half of Mars. 202 00:13:13,459 --> 00:13:17,395 All these collisions did two things. 203 00:13:17,463 --> 00:13:21,365 They cut down the number of surviving infant planets. 204 00:13:23,602 --> 00:13:27,538 And they brought more ingredients to the survivors. 205 00:13:27,606 --> 00:13:29,540 If you had a collision 206 00:13:29,608 --> 00:13:32,372 with something that was metal-rich, 207 00:13:32,444 --> 00:13:34,969 those chunks would tend to descend down 208 00:13:35,047 --> 00:13:37,811 into what was becoming the core... 209 00:13:41,787 --> 00:13:45,450 ...where if you collided with something light or icy, 210 00:13:45,524 --> 00:13:47,287 they would tend to just float about 211 00:13:47,359 --> 00:13:50,294 and form part of the crust instead. 212 00:13:53,432 --> 00:13:56,026 The four rocky planets close to the Sun 213 00:13:56,101 --> 00:13:58,035 were almost complete. 214 00:13:58,103 --> 00:14:01,038 They had a solid, hot-iron core 215 00:14:01,106 --> 00:14:04,007 surrounded by a layer of liquid iron, 216 00:14:04,076 --> 00:14:07,512 all wrapped in a jacket of molten rock. 217 00:14:10,482 --> 00:14:15,078 Above that, an outer surface crust. 218 00:14:15,154 --> 00:14:19,090 These rocky planets all formed in the same basic way, 219 00:14:19,158 --> 00:14:21,752 from the same basic stuff. 220 00:14:24,263 --> 00:14:28,859 But each of them was very different... 221 00:14:28,934 --> 00:14:34,566 Different sizes and very different destinies. 222 00:14:41,080 --> 00:14:45,176 Space may look empty, but it's not. 223 00:14:45,251 --> 00:14:49,187 It's full of stuff blown out of the Sun. 224 00:14:49,255 --> 00:14:52,850 The Sun generates powerful magnetic fields 225 00:14:52,925 --> 00:14:58,192 that rise above the surface in giant loops. 226 00:14:58,264 --> 00:15:02,360 When they clash, it triggers a storm of super hot, 227 00:15:02,434 --> 00:15:06,530 highly charged particles blasting out into space. 228 00:15:10,542 --> 00:15:14,979 It's called the solar wind. 229 00:15:17,116 --> 00:15:21,712 Astronauts in space can see it... 230 00:15:21,787 --> 00:15:25,279 But only when they close their eyes. 231 00:15:25,357 --> 00:15:28,292 Occasionally, you see a little flash with your eyes shut. 232 00:15:28,360 --> 00:15:30,021 And that is an energetic particle 233 00:15:30,095 --> 00:15:32,529 coming through your head 234 00:15:32,598 --> 00:15:34,862 and interacting with the fluid inside your eye, 235 00:15:34,934 --> 00:15:36,731 and it makes a little light flash. 236 00:15:36,802 --> 00:15:39,498 And you see these every couple of minutes or so 237 00:15:39,571 --> 00:15:41,766 that you're awake with your eyes shut. 238 00:15:41,840 --> 00:15:45,298 If the astronauts were exposed 239 00:15:45,377 --> 00:15:48,141 to a lot more of the solar wind, it could be a killer. 240 00:15:48,213 --> 00:15:51,478 During the Apollo program, 241 00:15:51,550 --> 00:15:54,519 in between two of the Moon missions, 242 00:15:54,586 --> 00:15:56,076 there was an outburst on the Sun 243 00:15:56,155 --> 00:15:57,622 that would have killed the astronauts 244 00:15:57,690 --> 00:16:00,454 if they had been there. 245 00:16:00,526 --> 00:16:04,121 So, space radiation is a serious business. 246 00:16:04,196 --> 00:16:05,458 But here on Earth, 247 00:16:05,531 --> 00:16:07,965 the solar wind isn't much of a threat 248 00:16:08,033 --> 00:16:11,298 because we have an invisible protective shield, 249 00:16:11,370 --> 00:16:15,636 a magnetic field generated by the planet's core. 250 00:16:20,346 --> 00:16:24,942 The very center of the Earth is the solid inner core. 251 00:16:28,687 --> 00:16:32,623 It's a hard, iron, crystalline ball. 252 00:16:32,691 --> 00:16:35,785 Then there's a thick layer of liquid iron, 253 00:16:35,861 --> 00:16:38,625 which is convecting churning motions, 254 00:16:38,697 --> 00:16:42,963 which give rise to the magnetic field. 255 00:16:43,035 --> 00:16:46,527 Well, that's the theory. 256 00:16:48,974 --> 00:16:53,775 To prove that an iron core can generate a magnetic shield, 257 00:16:53,846 --> 00:16:58,783 scientists built their own planet in a lab. 258 00:16:58,851 --> 00:17:01,752 This 10-foot, 26-ton sphere 259 00:17:01,820 --> 00:17:06,280 simulates conditions deep inside the Earth. 260 00:17:06,358 --> 00:17:11,295 A metal ball in the center acts as the planet's inner core. 261 00:17:13,232 --> 00:17:17,498 Liquid sodium spins around it at 90 miles an hour, 262 00:17:17,569 --> 00:17:19,161 imitating the effects of molten metal 263 00:17:19,238 --> 00:17:21,672 spinning around the Earth's core. 264 00:17:25,411 --> 00:17:29,347 We built this experiment to try to generate a magnetic field 265 00:17:29,415 --> 00:17:34,011 to attempt to understand why the Earth has a magnetic field 266 00:17:34,086 --> 00:17:37,852 and why other planets do not have magnetic fields. 267 00:17:37,923 --> 00:17:40,517 It works like the generator in your car, 268 00:17:40,592 --> 00:17:43,322 where rotating coils of wire produce electricity. 269 00:17:46,231 --> 00:17:51,328 In the experiment, liquid sodium churns around the core 270 00:17:51,403 --> 00:17:55,897 and generates a magnetic field. 271 00:17:55,974 --> 00:17:58,772 It's very much like an electrical generator. 272 00:17:58,844 --> 00:18:01,938 You have motion that is able to 273 00:18:02,014 --> 00:18:04,608 generate magnetic fields by turning the energy, the motion, 274 00:18:04,683 --> 00:18:08,619 into magnetic energy. 275 00:18:08,687 --> 00:18:12,714 The same thing happens deep inside the Earth. 276 00:18:12,791 --> 00:18:16,386 As the Earth spins, the hot liquid metal 277 00:18:16,462 --> 00:18:19,795 flows around the solid core, transforming its energy 278 00:18:19,865 --> 00:18:24,461 into a magnetic field that emerges from the poles. 279 00:18:27,306 --> 00:18:31,572 It protects the planet's atmosphere from the solar wind. 280 00:18:33,745 --> 00:18:37,010 And if the planet has a magnetic field, 281 00:18:37,082 --> 00:18:38,674 that solar wind will be diverted 282 00:18:38,750 --> 00:18:41,981 around the planet by the magnetic field. 283 00:18:42,054 --> 00:18:44,318 The magnetic field 284 00:18:44,389 --> 00:18:47,324 deflects the solar wind around the planet, 285 00:18:47,392 --> 00:18:51,658 protecting the atmosphere and everything on Earth's surface. 286 00:18:51,730 --> 00:18:54,665 Sometimes big storms of solar radiation 287 00:18:54,733 --> 00:18:57,668 will mix it up with the magnetic field. 288 00:18:57,736 --> 00:19:02,673 Then we get big light shows over the poles... the auroras. 289 00:19:08,814 --> 00:19:11,408 Without a magnetic force field, 290 00:19:11,483 --> 00:19:16,785 the solar wind would blast away Earth's atmosphere and water... 291 00:19:16,855 --> 00:19:22,851 Leaving a dead, arid planet... 292 00:19:22,928 --> 00:19:25,863 A lot like Mars. 293 00:19:29,201 --> 00:19:30,964 Mars formed just like Earth. 294 00:19:31,036 --> 00:19:35,632 But today it's cold and dry, with little atmosphere. 295 00:19:39,211 --> 00:19:42,977 So, why are the two planets now so different? 296 00:19:45,717 --> 00:19:51,815 In 2004, NASA sent two robot explorers to Mars to find out. 297 00:19:53,392 --> 00:19:56,657 The rovers, named Spirit and Opportunity, 298 00:19:56,728 --> 00:19:59,822 explored miles of the Martian surface. 299 00:19:59,898 --> 00:20:03,561 They confirmed that Mars is a dry and hostile desert, 300 00:20:03,635 --> 00:20:07,036 with only 1% the atmosphere of Earth. 301 00:20:07,105 --> 00:20:11,872 But they did find evidence of water in the past. 302 00:20:11,944 --> 00:20:15,539 Mars was not always a desert. 303 00:20:15,614 --> 00:20:18,549 We have found compelling evidence 304 00:20:18,617 --> 00:20:22,383 that water was once beneath the surface, came to the surface, 305 00:20:22,454 --> 00:20:23,716 and evaporated away. 306 00:20:26,358 --> 00:20:29,794 We also see in a few places ripples preserved, 307 00:20:29,861 --> 00:20:34,298 of the sort that are formed when water flows over sand. 308 00:20:34,366 --> 00:20:36,129 So, not only did water exist below the surface. 309 00:20:36,201 --> 00:20:38,294 It had flowed across the surface. 310 00:20:40,239 --> 00:20:42,673 If Mars had water once, 311 00:20:42,741 --> 00:20:45,005 it probably also had a thick atmosphere. 312 00:20:45,077 --> 00:20:47,170 So what happened? 313 00:20:47,246 --> 00:20:50,841 We can see that Mars once had active volcanoes. 314 00:20:50,916 --> 00:20:53,851 So, it had a hot interior at some point. 315 00:20:53,919 --> 00:20:56,683 And because it was made of the same stuff as Earth, 316 00:20:56,755 --> 00:20:59,690 it would have had a hot-iron core, 317 00:20:59,758 --> 00:21:02,852 surrounded by liquid metal at its center. 318 00:21:02,928 --> 00:21:06,022 So, it should have had a magnetic field, too. 319 00:21:06,098 --> 00:21:10,194 The question is... where did it go? 320 00:21:10,269 --> 00:21:11,861 Early in the planet's history, 321 00:21:11,937 --> 00:21:14,872 Mars apparently had a strong magnetic field. 322 00:21:16,708 --> 00:21:19,541 And it was probably caused in the same way as it is on Earth. 323 00:21:21,680 --> 00:21:23,944 But Mars is a smaller planet than Earth. 324 00:21:24,016 --> 00:21:28,282 It's gonna lose its heat more rapidly as a consequence. 325 00:21:28,353 --> 00:21:32,949 And what that means is that liquid core can freeze solid. 326 00:21:33,025 --> 00:21:36,791 Freeze the core solid, the convection will stop. 327 00:21:36,862 --> 00:21:39,956 The convection stops, the magnetic field goes away. 328 00:21:40,032 --> 00:21:42,466 As the magnetic shield died, 329 00:21:42,534 --> 00:21:45,469 the solar wind blasted away the atmosphere, 330 00:21:45,537 --> 00:21:47,698 and the water evaporated. 331 00:21:47,773 --> 00:21:50,936 Mars became a cold, barren planet. 332 00:21:51,009 --> 00:21:56,948 Mars, Earth, Venus, and Mercury... the rocky planets... 333 00:21:57,015 --> 00:22:01,281 all formed within 150 million miles of the Sun. 334 00:22:01,353 --> 00:22:03,787 But four times farther out, 335 00:22:03,855 --> 00:22:08,121 the Sun baked a very different kind of planet. 336 00:22:08,193 --> 00:22:11,560 They're gigantic, they're made of gas, 337 00:22:11,630 --> 00:22:16,932 and these monsters have no solid surfaces at all. 338 00:22:21,506 --> 00:22:23,565 So far, astronomers have discovered 339 00:22:23,642 --> 00:22:28,909 over 400 new planets orbiting in far-off solar systems. 340 00:22:31,183 --> 00:22:36,450 Nearly all of them are gigantic and made of gas. 341 00:22:38,223 --> 00:22:41,818 We have four of these so-called gas giants 342 00:22:41,893 --> 00:22:43,986 in our own solar system. 343 00:22:48,834 --> 00:22:53,771 Jupiter, Saturn, Uranus, Neptune... 344 00:22:53,839 --> 00:22:56,501 Which all have these very thick, 345 00:22:56,575 --> 00:22:59,339 very soupy atmospheres, lots of hydrogen, 346 00:22:59,411 --> 00:23:03,245 lots of helium, lots of methane. 347 00:23:03,315 --> 00:23:05,749 Why are these outer four made of gas 348 00:23:05,817 --> 00:23:07,910 when the inner ones are rocky? 349 00:23:09,988 --> 00:23:13,583 It all has to do with location. 350 00:23:13,658 --> 00:23:19,255 Out here, 500 million miles from the Sun, it's very cold. 351 00:23:21,333 --> 00:23:24,928 At the start of the solar system, there was some dust, 352 00:23:25,003 --> 00:23:31,101 but mostly gas and water, frozen in ice grains. 353 00:23:31,176 --> 00:23:34,270 Where the giant planets started to form, 354 00:23:34,346 --> 00:23:37,941 it was cold enough to get solid snow. 355 00:23:38,016 --> 00:23:42,612 And we think we were able to make ice snowflakes, 356 00:23:42,687 --> 00:23:44,120 and these things were able to clump together 357 00:23:44,189 --> 00:23:46,123 to form the cores of the giant planets. 358 00:23:46,191 --> 00:23:47,249 And we think that's maybe 359 00:23:47,325 --> 00:23:48,986 why the giant planets got to be so big. 360 00:23:49,060 --> 00:23:53,997 There was so much ice and gas their cores grew huge, 361 00:23:54,065 --> 00:23:57,330 around 10 times larger than the Earth. 362 00:23:59,738 --> 00:24:03,504 These giant cores generated a lot of gravity. 363 00:24:03,575 --> 00:24:05,509 They had so much pulling power, 364 00:24:05,577 --> 00:24:08,341 they sucked in all the surrounding gas 365 00:24:08,413 --> 00:24:11,348 and built up thick, soupy atmospheres 366 00:24:11,416 --> 00:24:16,012 tens of thousands of miles deep. 367 00:24:16,087 --> 00:24:20,353 The larger they got, the more gravity they generated. 368 00:24:20,425 --> 00:24:22,689 More and more dust and debris 369 00:24:22,761 --> 00:24:25,195 got pulled in towards the planets, 370 00:24:25,263 --> 00:24:29,029 and this became the building blocks of their moons. 371 00:24:34,706 --> 00:24:39,643 Jupiter and Saturn have over 60 moons each. 372 00:24:43,114 --> 00:24:49,383 The gas planets have another special feature... rings. 373 00:24:49,454 --> 00:24:51,718 Saturn is unique among the planets 374 00:24:51,790 --> 00:24:54,054 in that it has this gorgeous ring system. 375 00:24:54,125 --> 00:24:56,218 It turns out Jupiter and Uranus and Neptune... 376 00:24:56,294 --> 00:24:57,488 they have ring systems, as well, 377 00:24:57,562 --> 00:24:59,052 but they're really weak and pathetic 378 00:24:59,130 --> 00:25:00,222 and extremely hard to detect. 379 00:25:02,334 --> 00:25:04,598 But they are there. 380 00:25:04,669 --> 00:25:07,934 All four of the gas giants have rings, 381 00:25:08,006 --> 00:25:11,271 but Saturn's are the most obvious. 382 00:25:11,343 --> 00:25:16,280 From a distance, Saturn's rings look like a single flat disk. 383 00:25:16,348 --> 00:25:19,943 However, they're actually thousands of separate ringlets, 384 00:25:20,018 --> 00:25:22,612 each only a few miles wide. 385 00:25:22,687 --> 00:25:24,780 When the Cassini Probe flew past, 386 00:25:24,856 --> 00:25:28,451 it detected billions of pieces of ice and cosmic rubble 387 00:25:28,527 --> 00:25:30,461 orbiting inside the rings 388 00:25:30,529 --> 00:25:33,464 at speeds of up to 50,000 miles an hour. 389 00:25:33,532 --> 00:25:35,466 These bits of ice and rock 390 00:25:35,534 --> 00:25:37,968 constantly crash into each other. 391 00:25:38,036 --> 00:25:43,303 Some grow into tiny moons. Others smash apart. 392 00:25:43,375 --> 00:25:46,310 But they never form into larger moons 393 00:25:46,378 --> 00:25:50,144 because Saturn's immense gravity tears them apart. 394 00:25:52,717 --> 00:25:56,153 Scientists are only just beginning to figure out 395 00:25:56,221 --> 00:26:00,487 how the rings formed in the first place. 396 00:26:00,559 --> 00:26:04,495 The theory goes like this... 397 00:26:04,563 --> 00:26:09,159 a comet smashed into a moon and knocked it out of its orbit 398 00:26:09,234 --> 00:26:11,498 and closer to the planet. 399 00:26:17,742 --> 00:26:21,678 Saturn's gravity tore it to pieces. 400 00:26:23,915 --> 00:26:26,179 And all of that debris 401 00:26:26,251 --> 00:26:29,846 got trapped in rings around the planet. 402 00:26:33,024 --> 00:26:37,620 But the real mysteries of the gas giants lie deep inside them, 403 00:26:37,696 --> 00:26:40,824 tens of thousands of miles beneath the clouds. 404 00:26:43,034 --> 00:26:48,301 This is where the real action is. 405 00:26:48,373 --> 00:26:53,811 It's a place so extreme it challenges the laws of nature. 406 00:26:59,851 --> 00:27:00,613 Most of the new planets 407 00:27:00,685 --> 00:27:04,621 we're finding around distant stars are gas giants. 408 00:27:04,689 --> 00:27:08,625 They're so huge they make Jupiter look small. 409 00:27:08,693 --> 00:27:12,129 But what goes on inside all gas giant planets, 410 00:27:12,197 --> 00:27:18,363 both in our solar system and way out there, is a mystery. 411 00:27:18,436 --> 00:27:21,234 We know Jupiter's dense atmosphere 412 00:27:21,306 --> 00:27:23,069 is 40,000 miles deep, 413 00:27:23,141 --> 00:27:26,235 and we can see high-speed bands of gas 414 00:27:26,311 --> 00:27:30,247 creating violent storms that rage across its surface. 415 00:27:30,315 --> 00:27:34,411 But what we don't know is what's going on deep inside, 416 00:27:34,486 --> 00:27:38,081 far beneath the storms. 417 00:27:38,156 --> 00:27:42,923 To find out, NASA launched the spacecraft Galileo 418 00:27:42,994 --> 00:27:45,258 on a 14-year mission to Jupiter. 419 00:27:45,330 --> 00:27:48,094 Woman:2, 1. 420 00:27:48,166 --> 00:27:50,930 We have ignition and lift-off of Atlantis 421 00:27:51,002 --> 00:27:55,735 and the Galileo spacecraft bound for Jupiter. 422 00:28:01,312 --> 00:28:05,408 December 7, 1995. 423 00:28:05,483 --> 00:28:08,077 Galileo dropped a probe that dove 424 00:28:08,153 --> 00:28:13,420 into Jupiter's atmosphere at 160,000 miles an hour. 425 00:28:18,830 --> 00:28:21,424 Parachutes slowed it down 426 00:28:21,499 --> 00:28:24,093 as it dropped through the thick atmosphere. 427 00:28:24,169 --> 00:28:27,605 It detected lightning in the clouds 428 00:28:27,672 --> 00:28:32,336 and winds of 450 miles an hour. 429 00:28:32,410 --> 00:28:38,815 The probe transmitted data back to Earth for 58 minutes. 430 00:28:38,883 --> 00:28:40,214 So, people have asked me, 431 00:28:40,285 --> 00:28:42,150 "What happened to the Galileo probe that we dropped in?" 432 00:28:42,220 --> 00:28:44,313 It didn't hit anything. 433 00:28:44,389 --> 00:28:49,224 It just fell continually into the Jupiter environment, 434 00:28:49,294 --> 00:28:52,889 and the pressure increased and increased and increased. 435 00:28:52,964 --> 00:28:56,229 As it descended, it recorded pressures 436 00:28:56,301 --> 00:28:59,270 23 times greater than on Earth 437 00:28:59,337 --> 00:29:02,773 and temperatures of over 300 degrees. 438 00:29:04,876 --> 00:29:06,309 When you're in the gas-giant environment 439 00:29:06,377 --> 00:29:10,313 and you go deeper and deeper into this hydrogen soup 440 00:29:10,381 --> 00:29:12,349 that has no solid surface, 441 00:29:12,417 --> 00:29:15,352 it nevertheless can have a tremendous weight. 442 00:29:15,420 --> 00:29:18,014 And so eventually you would be crushed 443 00:29:18,089 --> 00:29:21,855 by the overlying weight of the material that's there. 444 00:29:21,926 --> 00:29:25,692 Even though the probe descended for only 124 miles 445 00:29:25,764 --> 00:29:27,857 before it was crushed, 446 00:29:27,932 --> 00:29:31,891 it gave scientists a glimpse of Jupiter's interior. 447 00:29:34,906 --> 00:29:39,843 But the dark heart of the planet still remains a mystery. 448 00:29:42,781 --> 00:29:45,545 Like some rocky planets, 449 00:29:45,617 --> 00:29:48,882 the gas giants have a magnetic field, too. 450 00:29:48,953 --> 00:29:51,717 But these are off the charts. 451 00:29:51,790 --> 00:29:53,553 Jupiter's magnetic field 452 00:29:53,625 --> 00:29:58,221 is 20,000 times more powerful than Earth's 453 00:29:58,296 --> 00:30:02,232 and so huge it extends all the way to Saturn, 454 00:30:02,300 --> 00:30:06,737 more than 400 million miles away. 455 00:30:06,805 --> 00:30:10,901 Like on Earth, the magnetic field deflects the solar wind 456 00:30:10,975 --> 00:30:14,638 and protects Jupiter's atmosphere. 457 00:30:14,712 --> 00:30:18,307 When scientists studied Jupiter's magnetic field, 458 00:30:18,383 --> 00:30:21,443 they discovered it was affecting Jupiter's moons. 459 00:30:26,291 --> 00:30:32,719 The volcanic moon lo orbits only 217,000 miles from the planet. 460 00:30:35,133 --> 00:30:38,899 Io's volcanoes blast a ton of gas and dust 461 00:30:38,970 --> 00:30:41,905 into space every second. 462 00:30:45,543 --> 00:30:49,104 And Jupiter's magnetic field supercharges it, 463 00:30:49,180 --> 00:30:52,172 creating powerful belts of radiation. 464 00:30:54,419 --> 00:30:56,853 And that makes the vicinity of Jupiter 465 00:30:56,921 --> 00:30:59,685 very active in many different ways. 466 00:30:59,757 --> 00:31:02,351 If you point a radio antenna at Jupiter, 467 00:31:02,427 --> 00:31:04,861 one can hear all sorts of interactions 468 00:31:04,929 --> 00:31:09,025 happening between the planets and the magnetic field. 469 00:31:09,100 --> 00:31:14,037 This is the sound of Jupiter's magnetic field. 470 00:31:23,481 --> 00:31:28,748 Jupiter and Saturn don't need the solar wind to make auroras. 471 00:31:28,820 --> 00:31:33,780 They have huge magnetic fields that create their own. 472 00:31:33,858 --> 00:31:36,952 The Chandra Space Telescope 473 00:31:37,028 --> 00:31:41,055 took these images of Jupiter's auroras. 474 00:31:41,132 --> 00:31:42,895 And NASA's Cassini Probe 475 00:31:42,967 --> 00:31:48,234 took these beautiful pictures of auroras on Saturn. 476 00:31:48,306 --> 00:31:49,568 These auroras are proof 477 00:31:49,641 --> 00:31:52,804 that gas planets have magnetic fields, too. 478 00:31:54,913 --> 00:31:58,679 But how do gas planets generate magnetic fields? 479 00:31:58,750 --> 00:32:01,685 On Earth, a super-hot liquid metal 480 00:32:01,753 --> 00:32:05,189 spinning around the planet's solid-iron core does the job. 481 00:32:05,256 --> 00:32:11,058 Gas planets probably do roughly the same thing. 482 00:32:11,129 --> 00:32:17,068 But gas planets don't have hot-iron cores. 483 00:32:17,135 --> 00:32:21,731 They formed around frozen cores of dust and ice. 484 00:32:21,806 --> 00:32:27,574 So, exactly what's going on deep inside is a mystery. 485 00:32:27,645 --> 00:32:31,240 At the very deepest interior of Jupiter, 486 00:32:31,316 --> 00:32:33,750 we really don't understand 487 00:32:33,818 --> 00:32:36,412 what composes those deep interior states. 488 00:32:36,487 --> 00:32:40,856 So, it could be that the very center of Jupiter 489 00:32:40,925 --> 00:32:44,361 has a solid core. 490 00:32:44,429 --> 00:32:49,696 Or it could actually just be still fluid. 491 00:32:54,038 --> 00:32:55,972 We may never find out. 492 00:32:56,040 --> 00:32:59,305 No probe could ever make the 44,000-mile journey 493 00:32:59,377 --> 00:33:02,141 to the planet's center to investigate. 494 00:33:04,282 --> 00:33:05,544 Galileo was crushed 495 00:33:05,616 --> 00:33:08,710 before it got anywhere near the planet's core. 496 00:33:10,855 --> 00:33:14,552 So, now scientists are recreating Jupiter's interior 497 00:33:14,625 --> 00:33:18,322 right here in a lab on Earth. 498 00:33:18,396 --> 00:33:21,229 Here at the National Ignition Facility 499 00:33:21,299 --> 00:33:23,233 in Livermore, California, 500 00:33:23,301 --> 00:33:25,235 they're simulating Jupiter's core 501 00:33:25,303 --> 00:33:29,706 using the world's most powerful laser. 502 00:33:29,774 --> 00:33:32,971 This facility is really designed 503 00:33:33,044 --> 00:33:37,481 to compress hydrogen to extreme densities and temperatures. 504 00:33:39,484 --> 00:33:43,750 Inside Jupiter, extreme pressures are created 505 00:33:43,821 --> 00:33:48,258 by the weight of 40,000 miles of hydrogen gas 506 00:33:48,326 --> 00:33:50,089 crushing down on the core. 507 00:33:52,230 --> 00:33:57,327 In the lab, it's done by focusing 192 laser beams 508 00:33:57,402 --> 00:33:59,996 on a tiny sample of hydrogen. 509 00:34:01,973 --> 00:34:03,998 As the pressure in the sample 510 00:34:04,075 --> 00:34:08,068 reaches over a million times the surface pressure on Earth, 511 00:34:08,146 --> 00:34:11,115 the hydrogen turns into a liquid. 512 00:34:11,182 --> 00:34:12,979 But when it reaches tens of millions 513 00:34:13,051 --> 00:34:17,488 of times the pressure... more like at Jupiter's core... 514 00:34:17,555 --> 00:34:20,547 something really weird happens to the hydrogen. 515 00:34:22,827 --> 00:34:24,419 The pressure is so great 516 00:34:24,495 --> 00:34:27,259 that it actually re-arranges the hydrogen, 517 00:34:27,331 --> 00:34:32,268 which is a very basic molecule, until it is able to conduct. 518 00:34:32,336 --> 00:34:38,104 So it changes the structure of H2 into a metallic form. 519 00:34:38,176 --> 00:34:39,609 Scientists think 520 00:34:39,677 --> 00:34:43,113 this is what's happening inside Jupiter... 521 00:34:43,181 --> 00:34:45,012 pressure and heat 522 00:34:45,083 --> 00:34:49,679 have transformed the planet's core into metallic hydrogen. 523 00:34:51,756 --> 00:34:56,352 Jupiter's metallic core works like the iron core in the Earth. 524 00:34:56,427 --> 00:35:02,195 It generates the gas planet's gigantic magnetic field. 525 00:35:05,603 --> 00:35:09,198 Gravity and heat shape how planets evolve, 526 00:35:09,273 --> 00:35:12,367 from their inner cores to their outer atmospheres. 527 00:35:12,443 --> 00:35:16,880 They're the great creative forces in planet building. 528 00:35:19,517 --> 00:35:22,111 But there's another ingredient 529 00:35:22,186 --> 00:35:26,145 that has a lot to do with how planets turn out. 530 00:35:26,224 --> 00:35:30,456 And that ingredient is water. 531 00:35:36,200 --> 00:35:40,068 Planets may seem fixed and unchanging, 532 00:35:40,138 --> 00:35:42,231 but they never stop evolving. 533 00:35:42,306 --> 00:35:43,739 In our own solar system, 534 00:35:43,808 --> 00:35:49,769 one lost its atmosphere and became a barren wasteland. 535 00:35:49,847 --> 00:35:53,943 Another heated up and became the planet from hell. 536 00:35:56,020 --> 00:35:58,784 Planet Earth has changed, as well, 537 00:35:58,856 --> 00:36:02,792 and the game changer... was water. 538 00:36:05,062 --> 00:36:10,329 When you look at Earth from space, you see a lot of water. 539 00:36:10,401 --> 00:36:12,335 We are the Blue Planet, after all. 540 00:36:12,403 --> 00:36:16,169 So, it must be really wet, right? 541 00:36:18,209 --> 00:36:20,973 It looks at first glance that our Earth... 542 00:36:21,045 --> 00:36:24,640 of course, covered 3/4 by oceans... 543 00:36:24,715 --> 00:36:26,307 it's a very water-rich world. 544 00:36:26,384 --> 00:36:27,817 Not true. 545 00:36:27,885 --> 00:36:34,654 The Earth, by mass, is only 0.06% water. 546 00:36:34,725 --> 00:36:37,319 There's some water on the surface in the form of oceans, 547 00:36:37,395 --> 00:36:39,329 some water trapped in the mantle. 548 00:36:39,397 --> 00:36:42,992 But actually, the Earth is a relatively dry rock. 549 00:36:45,136 --> 00:36:47,730 All of the inner rocky planets 550 00:36:47,805 --> 00:36:53,072 formed very close to the Sun, so they started off dry. 551 00:36:55,846 --> 00:36:59,612 Any water they might have had evaporated away 552 00:36:59,684 --> 00:37:02,118 or was blown away by impacts. 553 00:37:04,255 --> 00:37:07,190 These massive collisions that formed the Earth 554 00:37:07,258 --> 00:37:10,853 were so energetic... 555 00:37:10,928 --> 00:37:13,863 That any water that had been here 556 00:37:13,931 --> 00:37:19,369 would have been vaporized and lost from the Earth. 557 00:37:22,506 --> 00:37:24,098 So, where did Earth 558 00:37:24,175 --> 00:37:27,611 get all the new water we have today? 559 00:37:27,678 --> 00:37:31,273 It moved here. 560 00:37:31,349 --> 00:37:34,147 When you look farther out 561 00:37:34,218 --> 00:37:37,153 and you look at Jupiter, Saturn, Uranus, and Neptune, 562 00:37:37,221 --> 00:37:40,657 those planets have enormous amounts of water 563 00:37:40,725 --> 00:37:41,987 locked up inside them. 564 00:37:44,929 --> 00:37:48,365 And even more dramatically are the moons. 565 00:37:48,432 --> 00:37:52,698 The moons of Jupiter, Saturn, Uranus, and Neptune 566 00:37:52,770 --> 00:37:56,171 are at least 50% water. 567 00:37:56,240 --> 00:37:59,676 There was a lot of water out there. 568 00:37:59,744 --> 00:38:02,508 So, how did some of it get to planet Earth? 569 00:38:05,082 --> 00:38:07,676 And the answer almost certainly is 570 00:38:07,752 --> 00:38:10,687 that left farther out in our solar system 571 00:38:10,755 --> 00:38:14,191 were some asteroids and some comets, 572 00:38:14,258 --> 00:38:18,695 far enough from the Sun that they could retain their water. 573 00:38:20,831 --> 00:38:24,426 Millions of these watery comets and asteroids 574 00:38:24,502 --> 00:38:28,404 came flying into the inner solar system. 575 00:38:28,472 --> 00:38:33,409 And some of them smashed into Earth. 576 00:38:33,477 --> 00:38:38,744 Over the eons, the Earth acquired the water 577 00:38:38,816 --> 00:38:42,252 that had been a part of the asteroids, 578 00:38:42,320 --> 00:38:46,416 and that indeed makes up the mass of water 579 00:38:46,490 --> 00:38:49,982 that nearly covers the Earth today. 580 00:38:55,566 --> 00:38:58,160 But the amount of water that was delivered? 581 00:38:58,235 --> 00:39:00,669 That was the luck of the draw. 582 00:39:00,738 --> 00:39:03,832 Couldn't it have been the case that the Earth 583 00:39:03,908 --> 00:39:07,503 would have acquired maybe half as much water as it did? 584 00:39:07,578 --> 00:39:11,344 If so, the Earth would be nearly dry on its surface, 585 00:39:11,415 --> 00:39:14,009 if not completely dry, the sponge of the interior 586 00:39:14,085 --> 00:39:18,146 soaking up the rest of the water. 587 00:39:18,222 --> 00:39:21,714 No surface water would have meant no life. 588 00:39:21,792 --> 00:39:25,558 And what about too much water? 589 00:39:25,629 --> 00:39:31,397 We would be a water world, the oceans much deeper, 590 00:39:31,469 --> 00:39:34,768 covering the continents, even Mt. Everest. 591 00:39:34,839 --> 00:39:39,469 And so you can ask, then, "If the Earth were covered by water, 592 00:39:39,543 --> 00:39:41,807 only having twice as much as it currently has, 593 00:39:41,879 --> 00:39:44,074 would we have had a planet 594 00:39:44,148 --> 00:39:48,585 that was suitable for technological life?" 595 00:39:50,654 --> 00:39:55,250 Technology requires dry land. 596 00:39:55,326 --> 00:40:00,423 And it's quite likely that the precise amount of water 597 00:40:00,498 --> 00:40:03,092 that the Earth just happens to have 598 00:40:03,167 --> 00:40:07,433 has allowed a technological species like we homo sapiens 599 00:40:07,505 --> 00:40:08,836 to spring forth. 600 00:40:12,042 --> 00:40:13,475 The world as we know it 601 00:40:13,544 --> 00:40:16,980 exists because a blizzard of comets and asteroids 602 00:40:17,047 --> 00:40:19,572 delivered just the right amount of water 603 00:40:19,650 --> 00:40:22,414 about four billion years ago. 604 00:40:25,523 --> 00:40:29,118 And just maybe the same thing is happening right now 605 00:40:29,193 --> 00:40:32,959 somewhere else in the universe. 606 00:40:35,232 --> 00:40:40,499 One thing's for sure... there is plenty of water out there. 607 00:40:40,571 --> 00:40:44,337 Hydrogen, the most common atom in the universe, 608 00:40:44,408 --> 00:40:47,241 and o xygen, one of the next most common atoms in the universe... 609 00:40:47,311 --> 00:40:52,578 H2O is certainly going to be a very popular molecule... 610 00:40:52,650 --> 00:40:54,550 and indeed it is... within our universe. 611 00:40:54,618 --> 00:40:58,213 So, water is everywhere in the universe, 612 00:40:58,289 --> 00:41:00,883 and we're discovering that planets are, too. 613 00:41:00,958 --> 00:41:02,550 But we still haven't found 614 00:41:02,626 --> 00:41:05,390 another planet with liquid water. 615 00:41:05,463 --> 00:41:09,559 Scientists have discovered more than 400 new planets. 616 00:41:09,633 --> 00:41:13,569 None of them look like our world. 617 00:41:13,637 --> 00:41:17,073 What we have not yet found is a planet 618 00:41:17,141 --> 00:41:19,735 that is about the same size and mass 619 00:41:19,810 --> 00:41:22,244 and chemical composition as the Earth, 620 00:41:22,313 --> 00:41:25,077 orbiting another star. 621 00:41:25,149 --> 00:41:29,779 So, it remains an extraordinary holy grail for humanity 622 00:41:29,854 --> 00:41:34,621 to find other abodes that remind us of home. 623 00:41:34,692 --> 00:41:37,286 But we'll keep looking. 624 00:41:37,361 --> 00:41:40,125 We know that there are around 200 billion stars 625 00:41:40,197 --> 00:41:43,963 in our galaxy alone. 626 00:41:44,034 --> 00:41:49,131 And as many as 40 billion of them could have planets. 627 00:41:52,710 --> 00:41:54,644 We're still hopeful 628 00:41:54,712 --> 00:41:56,839 that when we discover terrestrial-style planets 629 00:41:56,914 --> 00:41:59,041 that will help us tremendously in understanding 630 00:41:59,116 --> 00:42:03,485 how our own inner-solar-system planets and the Earth 631 00:42:03,554 --> 00:42:07,820 evolved in comparison to the outer-solar-system planets. 632 00:42:09,927 --> 00:42:13,761 We are entering into what is gonna be thought of 633 00:42:13,831 --> 00:42:18,131 in the future as the Golden Age of planetary discovery. 634 00:42:20,271 --> 00:42:24,207 We will really for the first time begin to truly understand 635 00:42:24,275 --> 00:42:26,209 the actual diversity that lies out there. 636 00:42:26,277 --> 00:42:29,337 I think it's gonna be a fantastically exciting time. 637 00:42:32,082 --> 00:42:33,515 Planets form 638 00:42:33,584 --> 00:42:36,678 according to the laws of physics and chemistry. 639 00:42:36,754 --> 00:42:41,020 What they become... that has a lot more to do with luck. 640 00:42:41,091 --> 00:42:45,187 Many scientists believe it's only a matter of time 641 00:42:45,262 --> 00:42:48,698 before we find another planet like Earth, 642 00:42:48,766 --> 00:42:51,860 one that formed from the same ingredients, 643 00:42:51,936 --> 00:42:56,532 in the right place, with just the right amount of water. 644 00:42:56,607 --> 00:42:58,199 One thing's for sure... 645 00:42:58,275 --> 00:43:00,368 there are billions of planets out there 646 00:43:00,444 --> 00:43:04,244 waiting to be discovered.52051