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These are the user uploaded subtitles that are being translated: 0 00:00:00,010 --> 00:00:07,777 1 00:00:01,335 --> 00:00:03,734 All across our galaxy, 2 00:00:03,736 --> 00:00:08,540 stunning clouds of gas and dust ... nebulas. 3 00:00:08,542 --> 00:00:13,345 They contain secrets of the cosmic circle of life, 4 00:00:13,347 --> 00:00:18,818 the birth and death of stars, planets, and us. 5 00:00:18,820 --> 00:00:21,887 These things are really cradles of creation. 6 00:00:23,756 --> 00:00:25,757 You are intimately related to the nebulas. 7 00:00:25,759 --> 00:00:28,826 You are a nebula come alive. 8 00:00:28,828 --> 00:00:31,429 The story of how our solar system formed 9 00:00:31,431 --> 00:00:34,299 starts with a nebula. 10 00:00:34,301 --> 00:00:36,033 If you want to build a solar system, 11 00:00:36,035 --> 00:00:38,169 you're going to need a nebula. 12 00:00:38,171 --> 00:00:39,571 Look around you. 13 00:00:39,573 --> 00:00:44,643 Everything you see everywhere was once inside of a nebula. 14 00:00:44,645 --> 00:00:47,979 Now scientists are pulling back the veil... 15 00:00:49,383 --> 00:00:53,418 Opening our eyes to the true expanse of our universe. 16 00:00:54,454 --> 00:00:56,187 ...Solving the riddles 17 00:00:56,189 --> 00:01:00,458 of these engines of creation. 18 00:01:00,460 --> 00:01:01,593 There are mysteries waiting inside 19 00:01:01,595 --> 00:01:03,527 that we haven't even guessed at yet. 20 00:01:05,999 --> 00:01:08,934 captions paid for by discovery communications 21 00:01:19,212 --> 00:01:21,413 The milky way ... 22 00:01:21,415 --> 00:01:24,015 a spiral galaxy full of regions 23 00:01:24,017 --> 00:01:27,485 of gas and dust called nebulas, 24 00:01:27,487 --> 00:01:30,555 and everyone has their favorite. 25 00:01:30,557 --> 00:01:31,822 Bullock: I really like the horsehead nebula. 26 00:01:31,824 --> 00:01:34,025 It just looks awesome. 27 00:01:34,027 --> 00:01:37,895 The cat's eye nebula has always been really captivating to me. 28 00:01:37,897 --> 00:01:41,565 My favorite nebula is the Orion nebula. 29 00:01:41,567 --> 00:01:45,236 The Orion nebula is perhaps the best place 30 00:01:45,238 --> 00:01:47,973 to understand the evolution of stars, 31 00:01:47,975 --> 00:01:51,042 and it's right here in our own backyard. 32 00:01:51,044 --> 00:01:54,512 The Orion nebula is maybe one of the most famous nebulas 33 00:01:54,514 --> 00:01:55,714 because you can go outside at night 34 00:01:55,716 --> 00:01:58,516 and see it with your own eyes. 35 00:01:58,518 --> 00:02:00,852 Humans have been observing 36 00:02:00,854 --> 00:02:02,854 this fuzzy patch of sky for centuries. 37 00:02:02,856 --> 00:02:05,657 The Maya of central America called it 38 00:02:05,659 --> 00:02:08,727 "the fire of creation". 39 00:02:08,729 --> 00:02:12,197 The Maya were more right than they knew. 40 00:02:12,199 --> 00:02:14,332 Almost every part of the life cycle of a star 41 00:02:14,334 --> 00:02:17,068 you can see in a nebula. 42 00:02:17,070 --> 00:02:21,005 Sutter: We can't understand the life cycle of stars 43 00:02:21,007 --> 00:02:24,141 without understanding the life cycle of nebulas. 44 00:02:24,143 --> 00:02:27,078 They are intertwined. 45 00:02:27,080 --> 00:02:29,280 Orion has it all, 46 00:02:29,282 --> 00:02:31,549 from massive stars on the brink of death, 47 00:02:31,551 --> 00:02:34,952 to newborn stars swaddled in gas. 48 00:02:34,954 --> 00:02:38,156 Sutter: You see the intricate wisps of material, 49 00:02:38,158 --> 00:02:43,360 the thin veils enveloping newborn stars, 50 00:02:43,362 --> 00:02:45,296 pillars colliding into each other. 51 00:02:45,298 --> 00:02:48,433 You see stars plowing through clouds of gas. 52 00:02:48,435 --> 00:02:53,037 You see this frenzied hive of activity 53 00:02:53,039 --> 00:02:57,175 operating right before our eyes. 54 00:02:57,177 --> 00:02:59,844 In 2018, using new data, 55 00:02:59,846 --> 00:03:04,449 NASA creates a groundbreaking 3-d visualization 56 00:03:04,451 --> 00:03:07,918 of Orion's interior. 57 00:03:07,920 --> 00:03:10,522 For the first time in history, we have the right tools 58 00:03:10,524 --> 00:03:13,258 to actually explore the hearts of these nebulas. 59 00:03:15,929 --> 00:03:17,729 Stricker: It was already beautiful to begin with, 60 00:03:17,731 --> 00:03:21,800 but now we have even more vivid images to really appreciate 61 00:03:21,802 --> 00:03:25,069 how great of a structure this is. 62 00:03:25,071 --> 00:03:28,941 At Orion's heart lies a cluster of young stars. 63 00:03:28,943 --> 00:03:34,145 Together, they blast out charged particles and solar winds, 64 00:03:34,147 --> 00:03:36,414 blowing open a gap at the center, 65 00:03:36,416 --> 00:03:40,218 creating a window inside. 66 00:03:40,220 --> 00:03:42,620 We actually see the structures and the volume. 67 00:03:42,622 --> 00:03:44,689 We can actually see the processes happening 68 00:03:44,691 --> 00:03:48,226 right before our eyes. 69 00:03:48,228 --> 00:03:50,495 The cluster's intense starlight 70 00:03:50,497 --> 00:03:52,163 energizes the surrounding gas, 71 00:03:52,165 --> 00:03:54,366 causing it to glow pink and blue. 72 00:03:56,636 --> 00:03:58,102 The pinks come from light 73 00:03:58,104 --> 00:04:00,771 emitted from hydrogen atoms in the nebula, 74 00:04:00,773 --> 00:04:02,773 glowing like the gas in a neon tube. 75 00:04:02,775 --> 00:04:05,844 The blues tend to come from the light from the hot, 76 00:04:05,846 --> 00:04:10,849 new stars reflected off of dust particles. 77 00:04:10,851 --> 00:04:12,850 These hot, new stars 78 00:04:12,852 --> 00:04:14,652 illuminate the Orion nebula, 79 00:04:14,654 --> 00:04:19,190 but they were actually born in the dark. 80 00:04:19,192 --> 00:04:22,593 One particular type of nebula is a dark nebula, 81 00:04:22,595 --> 00:04:25,263 and basically that's when the concentration of dust 82 00:04:25,265 --> 00:04:26,931 is a lot greater. 83 00:04:29,468 --> 00:04:31,669 Dense clouds of dust 84 00:04:31,671 --> 00:04:34,873 block out visible light from the stars behind, 85 00:04:34,875 --> 00:04:39,410 creating shadowy shapes like the horsehead nebula. 86 00:04:39,412 --> 00:04:42,881 This nebula is so large and dense, it has enough mass 87 00:04:42,883 --> 00:04:46,284 to make about 30 stars the size of our sun, 88 00:04:46,286 --> 00:04:50,155 and now astronomers can peer inside. 89 00:04:50,157 --> 00:04:53,124 Only recently have we been able to start doing this... 90 00:04:55,161 --> 00:04:59,430 ...thanks to detectors that can see light in the infrared. 91 00:04:59,432 --> 00:05:01,299 The infrared allows us to sort of see 92 00:05:01,301 --> 00:05:02,900 through the dust of a nebula 93 00:05:02,902 --> 00:05:05,570 and see what's going on deep in its heart. 94 00:05:08,174 --> 00:05:10,708 Humans can't see infrared light, 95 00:05:10,710 --> 00:05:14,245 but we can feel it as heat. 96 00:05:14,247 --> 00:05:17,849 Infrared detectors tell us these dark, star-forming clouds 97 00:05:17,851 --> 00:05:21,886 are cold, hundreds of degrees fahrenheit below freezing. 98 00:05:24,925 --> 00:05:27,792 But deep inside are hot spots. 99 00:05:31,264 --> 00:05:33,998 Sutter: If you look at it with infrared, you see, 100 00:05:34,000 --> 00:05:37,268 "ah, the signature of incredible densities 101 00:05:37,270 --> 00:05:38,803 and incredible temperatures ... 102 00:05:38,805 --> 00:05:41,539 the signs that a new star is being born." 103 00:05:43,744 --> 00:05:46,610 A knot of matter comes together 104 00:05:46,612 --> 00:05:48,413 under the force of gravity. 105 00:05:48,415 --> 00:05:51,215 As it grows, so does the gravity. 106 00:05:51,217 --> 00:05:54,886 It pulls in more gas, growing bigger and bigger. 107 00:05:57,891 --> 00:06:01,492 That gets very massive, very dense, and very hot. 108 00:06:01,494 --> 00:06:03,494 Eventually it gets high enough pressure and temperature 109 00:06:03,496 --> 00:06:08,432 in the center of that object that you ignite fusion. 110 00:06:08,434 --> 00:06:10,335 A star is born... 111 00:06:15,108 --> 00:06:16,908 ...one of the hundreds of billions 112 00:06:16,910 --> 00:06:20,111 that make up our galaxy, 113 00:06:20,113 --> 00:06:23,047 the latest in a stellar production line 114 00:06:23,049 --> 00:06:26,251 going all the way back to the dawn of time 115 00:06:26,253 --> 00:06:29,720 and the very first nebula. 116 00:06:29,722 --> 00:06:31,923 Bullock: If we want to unravel the history of the milky way, 117 00:06:31,925 --> 00:06:33,524 we want to start in the beginning, 118 00:06:33,526 --> 00:06:35,226 and that's the big bang. 119 00:06:41,734 --> 00:06:44,469 13.8 billion years ago, 120 00:06:44,471 --> 00:06:48,873 the universe sparks into life. 121 00:06:48,875 --> 00:06:51,009 At first, it's pure energy. 122 00:06:53,279 --> 00:06:55,879 But over 300,000 years, 123 00:06:55,881 --> 00:07:00,351 that energy cools into hydrogen and helium gas. 124 00:07:00,353 --> 00:07:05,823 Back then, the entire universe was one enormous cloud. 125 00:07:05,825 --> 00:07:09,027 The essential ingredients of our universe spread 126 00:07:09,029 --> 00:07:10,695 as the universe expanded. 127 00:07:10,697 --> 00:07:15,967 And so the universe started as one giant nebula. 128 00:07:15,969 --> 00:07:18,836 Over time, the primordial nebula 129 00:07:18,838 --> 00:07:20,038 starts to collapse 130 00:07:20,040 --> 00:07:24,042 and fragment into smaller clumps. 131 00:07:24,044 --> 00:07:27,779 These regions become so dense, they collapse into discs 132 00:07:27,781 --> 00:07:30,915 with super-hot balls of gas in their cores. 133 00:07:30,917 --> 00:07:37,855 ¶¶ 134 00:07:37,857 --> 00:07:40,525 the first stars ignite. 135 00:07:40,527 --> 00:07:43,661 They start out as nearly pure hydrogen, 136 00:07:43,663 --> 00:07:48,933 but as they age, they make other, heavier elements. 137 00:07:48,935 --> 00:07:52,804 Stars forge new elements. That's what they do. 138 00:07:52,806 --> 00:07:55,006 The very definition of a star is in its core, 139 00:07:55,008 --> 00:07:57,141 it's fusing hydrogen atoms into helium 140 00:07:57,143 --> 00:08:00,211 and releasing energy. 141 00:08:00,213 --> 00:08:04,148 But many of those first simple stars were massive, 142 00:08:04,150 --> 00:08:07,752 and massive stars don't live for long. 143 00:08:07,754 --> 00:08:12,291 They burned through their supply of hydrogen incredibly rapidly, 144 00:08:12,293 --> 00:08:13,624 and they burned themselves out, 145 00:08:13,626 --> 00:08:18,297 and they died after a few million years. 146 00:08:18,299 --> 00:08:19,964 They go out with a bang... 147 00:08:19,966 --> 00:08:24,969 ¶¶ 148 00:08:24,971 --> 00:08:28,372 ...an explosion that releases more complex elements 149 00:08:28,374 --> 00:08:30,708 back in to the primordial nebula. 150 00:08:32,712 --> 00:08:35,046 Straughn: After that first generation of stars 151 00:08:35,048 --> 00:08:36,447 started to form, 152 00:08:36,449 --> 00:08:39,583 there was this huge burst of new elements that formed 153 00:08:39,585 --> 00:08:41,586 and that were dispersed throughout the universe 154 00:08:41,588 --> 00:08:45,322 to be able to form that next generation of stars. 155 00:08:45,324 --> 00:08:48,993 As the second generation of stars lives and dies, 156 00:08:48,995 --> 00:08:52,997 it adds even more ingredients to the cosmic mix. 157 00:08:52,999 --> 00:08:56,467 Sutter: The next generation of stars fuse more elements, 158 00:08:56,469 --> 00:08:58,802 exploded, died, spread the material, 159 00:08:58,804 --> 00:09:02,273 new generation of nebula, new generation of stars, 160 00:09:02,275 --> 00:09:06,410 each generation having more and more elements 161 00:09:06,412 --> 00:09:08,881 in the periodic table than the last. 162 00:09:12,284 --> 00:09:15,887 And around 300 million years after the big bang, 163 00:09:15,889 --> 00:09:20,825 our galaxy ... the milky way ... takes shape. 164 00:09:20,827 --> 00:09:23,294 The galaxies like the milky way formed out of, 165 00:09:23,296 --> 00:09:25,696 essentially, a proto-galactic nebula, 166 00:09:25,698 --> 00:09:28,633 some gigantic gas cloud that collapsed down 167 00:09:28,635 --> 00:09:30,269 and formed our galaxy. 168 00:09:32,706 --> 00:09:36,174 There is a rich cosmic symphony 169 00:09:36,176 --> 00:09:39,710 playing back and forth between stars and nebulas, 170 00:09:39,712 --> 00:09:44,515 and we now know that we are a part of that symphony. 171 00:09:49,121 --> 00:09:53,157 Eventually, our element-rich sun is born. 172 00:09:55,929 --> 00:09:59,463 We think that our sun is a third-generation star, 173 00:09:59,465 --> 00:10:03,067 so it was actually a nebula, a star, a nebula, 174 00:10:03,069 --> 00:10:07,471 a star, a nebula before it became our sun. 175 00:10:07,473 --> 00:10:09,407 It took around 10 billion years 176 00:10:09,409 --> 00:10:12,477 to create a cosmic mix of elements 177 00:10:12,479 --> 00:10:16,613 rich enough to build planets and life. 178 00:10:16,615 --> 00:10:21,285 Carbon, hydrogen, nitrogen, oxygen, phosphorous, and sulfur. 179 00:10:21,287 --> 00:10:25,489 These are the key ingredients to life as we understand it, 180 00:10:25,491 --> 00:10:28,492 and those need to be made in stars. 181 00:10:28,494 --> 00:10:30,627 These elements are created 182 00:10:30,629 --> 00:10:32,095 during the life of a star, 183 00:10:32,097 --> 00:10:34,832 but it takes an incredibly violent process 184 00:10:34,834 --> 00:10:37,368 to liberate them into the cosmos... 185 00:10:39,972 --> 00:10:43,641 ...an event that can be seen clear across the universe ... 186 00:10:43,643 --> 00:10:45,276 a supernova. 187 00:11:02,929 --> 00:11:06,129 The most beautiful nebulas in our galaxy 188 00:11:06,131 --> 00:11:08,932 are born out of incredible violence ... 189 00:11:08,934 --> 00:11:11,335 the deaths of giant stars. 190 00:11:14,073 --> 00:11:16,207 Some of the most colorful nebulas in our galaxy 191 00:11:16,209 --> 00:11:18,075 are remnants of supernova explosions, 192 00:11:18,077 --> 00:11:19,477 things like the crab nebula, 193 00:11:19,479 --> 00:11:22,547 cassiopeia a, also the veil nebula. 194 00:11:22,549 --> 00:11:25,983 Those all happened when a giant star exploded violently. 195 00:11:30,489 --> 00:11:33,557 The crab nebula was once a massive star, 196 00:11:33,559 --> 00:11:36,293 with around 10 times the mass of the sun. 197 00:11:36,295 --> 00:11:42,900 ¶¶ 198 00:11:42,902 --> 00:11:45,902 in its core, that star crushed atoms together 199 00:11:45,904 --> 00:11:48,972 to form heavier elements, 200 00:11:48,974 --> 00:11:52,043 a process that releases huge amounts of energy. 201 00:11:54,247 --> 00:11:55,980 A massive star can fuse heavier elements, 202 00:11:55,982 --> 00:11:58,382 and those heavier elements into even heavier elements 203 00:11:58,384 --> 00:12:01,518 until it gets to iron, and when it gets to iron, 204 00:12:01,520 --> 00:12:05,323 that's when things go bad really fast. 205 00:12:05,325 --> 00:12:08,259 Iron atoms are so big that fusing them 206 00:12:08,261 --> 00:12:12,263 takes up more energy than it produces. 207 00:12:12,265 --> 00:12:15,467 The core starts to collapse on itself, 208 00:12:15,469 --> 00:12:17,935 setting off a catastrophic explosion... 209 00:12:17,937 --> 00:12:23,340 ¶¶ 210 00:12:23,342 --> 00:12:26,110 ...blasting elements out into space. 211 00:12:28,214 --> 00:12:30,348 When a star goes supernova, 212 00:12:30,350 --> 00:12:32,149 it violently rips itself apart, 213 00:12:32,151 --> 00:12:33,551 and all of the material of the star 214 00:12:33,553 --> 00:12:36,420 can be spread across light-years. 215 00:12:36,422 --> 00:12:41,158 We call this, rather obviously, a supernova remnant nebula. 216 00:12:41,160 --> 00:12:42,492 Now you have a nebula filled 217 00:12:42,494 --> 00:12:44,495 with all of these interesting chemicals. 218 00:12:44,497 --> 00:12:46,297 All of those are illuminated 219 00:12:46,299 --> 00:12:50,500 by the energy of the supernova explosion. 220 00:12:50,502 --> 00:12:52,570 Supernova remnant nebulas 221 00:12:52,572 --> 00:12:56,440 glow brightly in many different colors. 222 00:12:56,442 --> 00:12:59,510 The colors in a nebula are kind of like a fingerprint 223 00:12:59,512 --> 00:13:03,614 or a DNA test of the elements inside. 224 00:13:05,117 --> 00:13:06,717 Every atom has a shell, 225 00:13:06,719 --> 00:13:10,054 a cloud of electrons that orbits around its nucleus, 226 00:13:10,056 --> 00:13:12,990 and as those electrons change energy levels, 227 00:13:12,992 --> 00:13:14,391 the frequencies of light 228 00:13:14,393 --> 00:13:16,193 associated with those energy changes 229 00:13:16,195 --> 00:13:18,529 are emitted into space and contribute 230 00:13:18,531 --> 00:13:23,400 to the broad spectrum of colors that we see. 231 00:13:23,402 --> 00:13:26,670 Sutter: So, we can look at a distant nebula, and we can say, 232 00:13:26,672 --> 00:13:30,274 "it's this much hydrogen, this much helium, 233 00:13:30,276 --> 00:13:31,542 a little bit of platinum. 234 00:13:31,544 --> 00:13:36,146 Oh, we got a lot oxygen in that one." 235 00:13:36,148 --> 00:13:38,949 The colors of a nebula reveal the elements created 236 00:13:38,951 --> 00:13:41,319 during a star's life and death. 237 00:13:44,224 --> 00:13:49,893 But a nebula's shape can reveal what happens after a star dies. 238 00:13:49,895 --> 00:13:51,829 You would think that one exploding star 239 00:13:51,831 --> 00:13:53,564 would be pretty similar to every other one. 240 00:13:53,566 --> 00:13:55,499 They would make the same sort of nebula. 241 00:13:55,501 --> 00:13:57,234 And then you see the crab nebula, 242 00:13:57,236 --> 00:13:59,570 with this beautifully complex shape ... 243 00:13:59,572 --> 00:14:02,973 all of these different arcs and whirls of gas and dust. 244 00:14:02,975 --> 00:14:05,977 Something must be shaping it from the inside. 245 00:14:08,514 --> 00:14:11,115 Within the crab nebula 246 00:14:11,117 --> 00:14:14,317 lurks a stellar corpse called a pulsar. 247 00:14:14,319 --> 00:14:17,254 Pulsars are a kind of neutron star, 248 00:14:17,256 --> 00:14:19,923 a ball of super-dense matter. 249 00:14:19,925 --> 00:14:24,662 They're born from the death of massive stars. 250 00:14:24,664 --> 00:14:27,664 This is the leftover core of the star that exploded. 251 00:14:27,666 --> 00:14:31,201 This collapsed down and formed a very tiny ball of neutrons 252 00:14:31,203 --> 00:14:34,138 and a little bit of normal matter that's very, very hot 253 00:14:34,140 --> 00:14:36,741 and has a very, very strong magnetic field. 254 00:14:38,944 --> 00:14:40,877 This pulsar is spinning 255 00:14:40,879 --> 00:14:42,446 at around 30 times a second... 256 00:14:44,616 --> 00:14:46,484 ...blasting out beams of radiation 257 00:14:46,486 --> 00:14:48,219 that sweep through space 258 00:14:48,221 --> 00:14:52,757 like a frenzied cosmic lighthouse. 259 00:14:52,759 --> 00:14:56,494 And the pulsar in the crab nebula doesn't just emit light. 260 00:14:56,496 --> 00:15:00,765 It's also blasting out a wind of charged particles. 261 00:15:02,301 --> 00:15:05,703 The gas cloud itself around it is the pulsar wind nebula. 262 00:15:05,705 --> 00:15:07,304 So, it's taking all that leftover stuff 263 00:15:07,306 --> 00:15:08,639 from the supernova 264 00:15:08,641 --> 00:15:13,377 and blowing it out into that expanding cloud. 265 00:15:13,379 --> 00:15:16,847 The pulsar winds plow through the surrounding gas, 266 00:15:16,849 --> 00:15:19,718 creating the twists and folds of the crab nebula. 267 00:15:19,720 --> 00:15:26,924 ¶¶ 268 00:15:26,926 --> 00:15:29,260 supernovas create the elements. 269 00:15:31,997 --> 00:15:36,667 Their winds spread them throughout the cosmos, 270 00:15:36,669 --> 00:15:40,004 forming new nebulas, 271 00:15:40,006 --> 00:15:44,309 nebulas that might form a solar system like ours. 272 00:15:46,479 --> 00:15:50,547 The nebula is essentially the starting point 273 00:15:50,549 --> 00:15:52,016 of the recipe for the solar system. 274 00:15:52,018 --> 00:15:53,417 So, it's got all the ingredients, 275 00:15:53,419 --> 00:15:55,419 all of the chemicals, all the gasses, 276 00:15:55,421 --> 00:15:59,357 all that we see in our solar system today. 277 00:15:59,359 --> 00:16:02,493 Think about the major elements that make up the planet earth. 278 00:16:02,495 --> 00:16:05,896 What happened to bring all that together? 279 00:16:05,898 --> 00:16:07,965 How did a gassy cloud of elements 280 00:16:07,967 --> 00:16:11,035 become our planet and our sun? 281 00:16:11,037 --> 00:16:14,906 What turned a nebula into our solar system? 282 00:16:33,326 --> 00:16:36,059 Once upon a time, 283 00:16:36,061 --> 00:16:40,331 there was no sun, no solar system, no us. 284 00:16:40,333 --> 00:16:45,402 Just a cloud of gas and dust ... a solar nebula. 285 00:16:46,606 --> 00:16:50,274 Sutter: We are here today because billions of years ago, 286 00:16:50,276 --> 00:16:54,245 there was a nebula containing all the necessary ingredients. 287 00:16:56,082 --> 00:16:58,415 Wadhwa: Everything that we see in our solar system today, 288 00:16:58,417 --> 00:17:03,087 that was all part, originally, of the cloud of gas and dust 289 00:17:03,089 --> 00:17:05,023 that was our solar nebula. 290 00:17:07,360 --> 00:17:09,360 Almost five billion years ago, 291 00:17:09,362 --> 00:17:14,031 a solar nebula was prepared to give birth to our sun. 292 00:17:14,033 --> 00:17:16,099 So, we have, billions of years ago, 293 00:17:16,101 --> 00:17:18,835 our solar nebula cloud of gas and dust, 294 00:17:18,837 --> 00:17:21,572 and it's hanging out, but it's unstable. 295 00:17:21,574 --> 00:17:24,108 What tips the balance 296 00:17:24,110 --> 00:17:27,377 to turn a cloud of gas into solid objects? 297 00:17:27,379 --> 00:17:29,313 Something has to change. 298 00:17:29,315 --> 00:17:32,182 Inside a nebula, something has to trigger the formation 299 00:17:32,184 --> 00:17:34,785 of stars and planets, and that remains a mystery. 300 00:17:34,787 --> 00:17:36,987 So, what's the answer 301 00:17:36,989 --> 00:17:39,523 to this 5-billion-year-old mystery? 302 00:17:39,525 --> 00:17:47,264 ¶¶ 303 00:17:47,266 --> 00:17:50,334 there are two theories. 304 00:17:50,336 --> 00:17:52,736 Both start with fossils ... 305 00:17:52,738 --> 00:17:55,406 fossils that make their way 306 00:17:55,408 --> 00:17:59,210 from the edge of the solar system towards earth, 307 00:17:59,212 --> 00:18:05,015 break through our atmosphere, and find their way to us. 308 00:18:08,354 --> 00:18:12,155 Meteorites are really important for us to understand and study 309 00:18:12,157 --> 00:18:14,290 because they're time capsules 310 00:18:14,292 --> 00:18:17,328 to when the solar system was basically first forming. 311 00:18:19,631 --> 00:18:22,566 Meena wadhwa curates one of the largest collections 312 00:18:22,568 --> 00:18:25,435 of meteorites on the planet. 313 00:18:25,437 --> 00:18:28,105 These rocks hold a pristine record 314 00:18:28,107 --> 00:18:32,176 of the very early history of the solar system. 315 00:18:32,178 --> 00:18:35,378 Wadhwa: There was nothing else around in the solar system 316 00:18:35,380 --> 00:18:37,848 before these rocks were formed. 317 00:18:37,850 --> 00:18:40,183 There was no earth, there were no other planets. 318 00:18:40,185 --> 00:18:42,052 It's mind-blowing. 319 00:18:42,054 --> 00:18:44,521 The first solid objects 320 00:18:44,523 --> 00:18:48,258 form out of a cloud of dust surrounding our newborn star. 321 00:18:48,260 --> 00:18:52,062 Asteroids and meteorites forming at the same time contain 322 00:18:52,064 --> 00:18:56,266 the chemical fingerprints of our solar nebula. 323 00:18:56,268 --> 00:18:59,937 They actually contain some of the oldest materials, 324 00:18:59,939 --> 00:19:03,474 oldest solids that condensed from the cloud of gas and dust 325 00:19:03,476 --> 00:19:05,410 as our solar system was forming. 326 00:19:05,412 --> 00:19:08,412 And so, they came together and formed 327 00:19:08,414 --> 00:19:10,949 this big rock that you see here. 328 00:19:10,951 --> 00:19:12,349 In 2017, 329 00:19:12,351 --> 00:19:15,151 researchers analyzing the composition of a type 330 00:19:15,153 --> 00:19:18,689 of rocky meteorite called chondrites 331 00:19:18,691 --> 00:19:23,093 find a clue about how our solar system was formed. 332 00:19:23,095 --> 00:19:26,096 There might be, in fact, a smoking gun 333 00:19:26,098 --> 00:19:27,698 somewhere in the chemistry of these rocks 334 00:19:27,700 --> 00:19:30,300 that could tell us about what exactly happened 335 00:19:30,302 --> 00:19:33,436 and how our solar system was formed. 336 00:19:33,438 --> 00:19:36,306 This smoking gun is a radioactive element 337 00:19:36,308 --> 00:19:38,775 called iron-60, 338 00:19:38,777 --> 00:19:42,546 and it's thought to be created only in supernovas. 339 00:19:45,985 --> 00:19:47,985 If you have a nebula which is about ready 340 00:19:47,987 --> 00:19:49,786 to start forming stars 341 00:19:49,788 --> 00:19:51,722 and a supernova goes off next to it, 342 00:19:51,724 --> 00:19:53,390 that supernova is going to dump 343 00:19:53,392 --> 00:19:56,793 all those heavy elements into that gas cloud, 344 00:19:56,795 --> 00:19:59,196 but it's also going to trigger the formation of stars 345 00:19:59,198 --> 00:20:02,032 by slamming into that gas and compressing it. 346 00:20:04,603 --> 00:20:07,071 A nearby star goes supernova. 347 00:20:07,073 --> 00:20:09,473 The shock wave strikes our solar nebula, 348 00:20:09,475 --> 00:20:11,909 injecting it with iron-60. 349 00:20:16,215 --> 00:20:20,018 But the collision starts a runaway gravitational collapse 350 00:20:20,020 --> 00:20:23,353 in the core of the nebula. 351 00:20:23,355 --> 00:20:27,958 The gas cloud clumps together, becoming hot and dense. 352 00:20:27,960 --> 00:20:31,496 Our sun is born. 353 00:20:31,498 --> 00:20:33,163 Stricker: As the sun is forming, 354 00:20:33,165 --> 00:20:36,900 there's basically a cloud of junk all around the sun, 355 00:20:36,902 --> 00:20:39,837 and as it orbits the sun, it kind of accretes 356 00:20:39,839 --> 00:20:42,740 or sticks together and grows into these balls. 357 00:20:44,843 --> 00:20:46,777 Over the next hundred million years, 358 00:20:46,779 --> 00:20:50,113 these balls get bigger and bigger, 359 00:20:50,115 --> 00:20:53,718 forming asteroids, moons, and planets. 360 00:20:55,921 --> 00:20:58,188 All the planets in our solar system 361 00:20:58,190 --> 00:20:59,256 seem very different. 362 00:20:59,258 --> 00:21:01,125 Some ice giants, some gas giants, 363 00:21:01,127 --> 00:21:03,260 some rocky bodies. 364 00:21:03,262 --> 00:21:05,395 But, in fact, all of these planets 365 00:21:05,397 --> 00:21:09,599 came from the same pre-solar nebula. 366 00:21:09,601 --> 00:21:12,135 And on one small planet, 367 00:21:12,137 --> 00:21:18,208 the right cocktail of elements gave rise to us. 368 00:21:18,210 --> 00:21:21,077 Everything ... every atom in our bodies ... 369 00:21:21,079 --> 00:21:23,814 was once part of the pre-solar nebula. 370 00:21:26,285 --> 00:21:28,685 The theory that a supernova 371 00:21:28,687 --> 00:21:31,955 nudged our solar system into existence is compelling, 372 00:21:31,957 --> 00:21:34,757 but not everyone agrees. 373 00:21:34,759 --> 00:21:38,028 Sometimes, the biggest arguments among scientists 374 00:21:38,030 --> 00:21:39,963 are caused by the littlest things, 375 00:21:39,965 --> 00:21:42,032 and in this case, I'm talking about little, 376 00:21:42,034 --> 00:21:43,867 tiny radioactive atoms. 377 00:21:46,038 --> 00:21:49,239 In 2017, studies reveal 378 00:21:49,241 --> 00:21:50,440 other meteorites contain 379 00:21:50,442 --> 00:21:53,510 a different radioactive signature ... 380 00:21:53,512 --> 00:21:59,516 a rare isotope of aluminum called aluminum-26. 381 00:21:59,518 --> 00:22:01,050 That's a rather odd atom 382 00:22:01,052 --> 00:22:03,520 that is not formed very easily in supernovas, 383 00:22:03,522 --> 00:22:07,657 so that had to come from somewhere else. 384 00:22:07,659 --> 00:22:11,861 That somewhere else is a rare type of giant star 385 00:22:11,863 --> 00:22:15,665 40 to 50 times the mass of our sun ... 386 00:22:15,667 --> 00:22:19,670 a wolf-rayet star. 387 00:22:19,672 --> 00:22:21,205 Stars can be very weird, 388 00:22:21,207 --> 00:22:25,008 and the very massive stars are incredibly weird. 389 00:22:25,010 --> 00:22:27,344 The largest type of star that we've seen 390 00:22:27,346 --> 00:22:30,080 is what's known as a wolf-rayet star. 391 00:22:32,152 --> 00:22:35,285 Wolf-rayet stars burn the hottest of all stars, 392 00:22:35,287 --> 00:22:36,620 producing heavy elements 393 00:22:36,622 --> 00:22:40,557 like aluminum-26 during their short lives. 394 00:22:40,559 --> 00:22:43,761 These are massive and hot and luminous, 395 00:22:43,763 --> 00:22:46,897 and they blow off a tremendous wind. 396 00:22:46,899 --> 00:22:48,699 This stellar wind 397 00:22:48,701 --> 00:22:51,235 ejects tons of matter from the star 398 00:22:51,237 --> 00:22:57,307 into the surrounding space, creating a bubble structure. 399 00:22:57,309 --> 00:23:00,911 Scientists see this process at work in the bubble nebula, 400 00:23:00,913 --> 00:23:02,913 7,000 light-years from earth. 401 00:23:04,983 --> 00:23:06,917 In the middle of the nebula 402 00:23:06,919 --> 00:23:08,185 is one of these giant stars 403 00:23:08,187 --> 00:23:11,187 with a massive stellar wind, high-energy particles, 404 00:23:11,189 --> 00:23:13,790 radiation, and just like the name suggests, 405 00:23:13,792 --> 00:23:18,461 it's blowing a bubble in the larger nebula around it. 406 00:23:18,463 --> 00:23:21,197 The walls or shell of the bubble 407 00:23:21,199 --> 00:23:23,066 are dense and full of matter. 408 00:23:23,068 --> 00:23:26,136 The stellar wind pushes more and more matter 409 00:23:26,138 --> 00:23:27,404 into the shell... 410 00:23:29,475 --> 00:23:33,076 ...until this material collapses under its own gravity 411 00:23:33,078 --> 00:23:37,347 and condenses into stars. 412 00:23:37,349 --> 00:23:39,015 It's entirely possible 413 00:23:39,017 --> 00:23:41,618 that what we're seeing in the bubble nebula 414 00:23:41,620 --> 00:23:44,688 is what happened here 4 1/2 or more billion years ago 415 00:23:44,690 --> 00:23:47,957 to form the sun and the planets. 416 00:23:47,959 --> 00:23:49,893 If our solar system formed 417 00:23:49,895 --> 00:23:52,696 within a wolf-rayet bubble nebula, 418 00:23:52,698 --> 00:23:55,766 it would explain why so much aluminum-26 419 00:23:55,768 --> 00:23:57,868 is present in meteorites. 420 00:24:00,839 --> 00:24:02,406 But the jury is still out. 421 00:24:04,777 --> 00:24:06,510 What we do know is that our story 422 00:24:06,512 --> 00:24:11,982 began with the collapse of the solar nebula. 423 00:24:11,984 --> 00:24:16,453 But one day, our star will die. 424 00:24:16,455 --> 00:24:19,923 Will the sun turn into a stunning nebula, 425 00:24:19,925 --> 00:24:22,927 or will it just fade to black? 426 00:24:40,345 --> 00:24:42,379 Nebulas make stars. 427 00:24:45,550 --> 00:24:48,552 Stars make nebulas. 428 00:24:48,554 --> 00:24:55,359 The most massive stars do so in violent supernovas. 429 00:24:55,361 --> 00:25:00,063 But 99% of stars aren't big enough to go out with a bang. 430 00:25:02,567 --> 00:25:05,202 Some will just burn themselves out. 431 00:25:07,973 --> 00:25:10,774 But others can create beautiful nebulas 432 00:25:10,776 --> 00:25:14,644 with the misleading name planetary nebulas. 433 00:25:16,715 --> 00:25:19,116 From a distance, they look like planets, 434 00:25:19,118 --> 00:25:22,452 but really, they're the ghosts of stars. 435 00:25:23,789 --> 00:25:25,989 When stars like our sun begin to die, 436 00:25:25,991 --> 00:25:28,792 they bloat up into what we call red giant stars. 437 00:25:31,130 --> 00:25:35,332 As a sun-sized star reaches the end of its life, 438 00:25:35,334 --> 00:25:38,067 its core gets hotter and hotter. 439 00:25:38,069 --> 00:25:41,271 As it heats up, the surrounding gas expands, 440 00:25:41,273 --> 00:25:45,008 transforming the star into a red giant. 441 00:25:48,748 --> 00:25:51,615 It gets so big, its outer layers 442 00:25:51,617 --> 00:25:55,752 are no longer held in place by gravity. 443 00:25:55,754 --> 00:25:58,221 The outer layers of that star begin to drift away. 444 00:25:58,223 --> 00:26:01,291 They kind of lose touch with that central core in the middle, 445 00:26:01,293 --> 00:26:03,893 and they just begin to blow into beautiful shells, 446 00:26:03,895 --> 00:26:05,962 beautiful colors, beautiful shapes. 447 00:26:05,964 --> 00:26:09,032 We call these dying stars planetary nebulas. 448 00:26:09,034 --> 00:26:10,967 We've discovered 449 00:26:10,969 --> 00:26:14,037 over 3,000 planetary nebulas in our galaxy. 450 00:26:14,039 --> 00:26:16,773 Some look like an hourglass or it looks like an owl 451 00:26:16,775 --> 00:26:20,378 or a clown or a sphere or a doughnut. 452 00:26:22,380 --> 00:26:24,380 But if they're all the ghost 453 00:26:24,382 --> 00:26:25,649 of the same type of stars, 454 00:26:25,651 --> 00:26:28,118 why do they look so different? 455 00:26:28,120 --> 00:26:30,453 If you have a star that's just sitting there, no planets, 456 00:26:30,455 --> 00:26:32,056 nothing else around it, 457 00:26:32,058 --> 00:26:34,057 it's going to blow off its wind in a spherical shell. 458 00:26:34,059 --> 00:26:36,394 And so, if you see a planetary nebula like that, 459 00:26:36,396 --> 00:26:39,329 it looks like a soap bubble in space. 460 00:26:39,331 --> 00:26:41,665 But only 20% of planetary nebulas 461 00:26:41,667 --> 00:26:44,334 have this perfectly symmetrical bubble shape. 462 00:26:46,472 --> 00:26:48,404 Most of them have these weird shapes. 463 00:26:48,406 --> 00:26:50,807 They can be two loaves 464 00:26:50,809 --> 00:26:54,010 that looks something like two squids kissing. 465 00:26:54,012 --> 00:26:56,346 All kinds of different shapes to these things. 466 00:26:58,817 --> 00:27:00,016 Experts think 467 00:27:00,018 --> 00:27:02,685 the strange shapes of these planetary nebulas 468 00:27:02,687 --> 00:27:05,088 may be linked to how a star dies. 469 00:27:08,360 --> 00:27:12,529 And now new research may reveal the fate of our own star. 470 00:27:15,834 --> 00:27:18,168 Will we be a beautiful, bright planetary nebula, 471 00:27:18,170 --> 00:27:20,370 or will we just fade away into darkness? 472 00:27:20,372 --> 00:27:23,306 For the first time now, we think we may have the answer. 473 00:27:26,177 --> 00:27:27,643 It's a long-running debate. 474 00:27:27,645 --> 00:27:31,982 Is our sun big enough to form a spectacular nebula? 475 00:27:31,984 --> 00:27:33,183 It's kind of a funny coincidence. 476 00:27:33,185 --> 00:27:35,585 The model shows that you need a certain mass 477 00:27:35,587 --> 00:27:37,387 to make a planetary nebula. 478 00:27:37,389 --> 00:27:41,391 By coincidence, the sun is pretty much right on that limit. 479 00:27:44,195 --> 00:27:45,928 The new data suggests 480 00:27:45,930 --> 00:27:48,064 that our sun is going to go out in style. 481 00:27:50,802 --> 00:27:55,472 As the sun dies, it'll expand into a red giant, 482 00:27:55,474 --> 00:27:58,608 filling up the sky. 483 00:27:58,610 --> 00:28:00,677 We're used to our gentle yellow sun 484 00:28:00,679 --> 00:28:01,945 coming over the horizon, 485 00:28:01,947 --> 00:28:05,882 so imagine a giant, bloated, brilliant red glowing ball 486 00:28:05,884 --> 00:28:08,085 coming over the horizon for the sunrise. 487 00:28:11,289 --> 00:28:15,491 The expanding sun engulfs Mercury, 488 00:28:15,493 --> 00:28:18,895 then Venus. 489 00:28:18,897 --> 00:28:22,299 It'll cook the surface of the earth, 490 00:28:22,301 --> 00:28:26,436 turning it into a molten hell. 491 00:28:26,438 --> 00:28:27,837 Straughn: So, the sad news is, 492 00:28:27,839 --> 00:28:30,373 is that once the sun expands as a red giant, 493 00:28:30,375 --> 00:28:33,109 it will absolutely boil away the oceans on the earth, 494 00:28:33,111 --> 00:28:35,511 life will no longer be sustainable. 495 00:28:35,513 --> 00:28:37,581 It's like sticking your head in an oven set to broil. 496 00:28:37,583 --> 00:28:39,817 It's not like it's going to be a fun time on the earth. 497 00:28:42,254 --> 00:28:44,988 Some think it could even mean 498 00:28:44,990 --> 00:28:46,923 the destruction of the planet. 499 00:28:46,925 --> 00:28:49,058 We think the sun will eventually become large enough 500 00:28:49,060 --> 00:28:51,595 to swallow up where the earth is now. 501 00:28:51,597 --> 00:28:53,930 So, instead of there being a sunrise and a sunset, 502 00:28:53,932 --> 00:28:56,667 we're going to find ourselves inside the sun. 503 00:28:56,669 --> 00:29:03,139 ¶¶ 504 00:29:03,141 --> 00:29:05,141 The sun sheds its outer layers, 505 00:29:05,143 --> 00:29:09,879 ejecting over half of its total mass, 506 00:29:09,881 --> 00:29:12,749 revealing the stellar core. 507 00:29:12,751 --> 00:29:14,617 And so, when we look at this core, 508 00:29:14,619 --> 00:29:16,619 which is now called a white dwarf 509 00:29:16,621 --> 00:29:20,757 about the size of earth, they're very hot. 510 00:29:20,759 --> 00:29:24,494 Like hundreds of thousands of degrees. 511 00:29:24,496 --> 00:29:28,665 This white-hot core radiates U.V. light and x-rays. 512 00:29:31,903 --> 00:29:34,504 These hit the outer layers of gas 513 00:29:34,506 --> 00:29:39,108 and turn them into brightly glowing rings ... 514 00:29:39,110 --> 00:29:44,048 a planetary nebula that will shine for about 10,000 years. 515 00:29:44,050 --> 00:29:46,583 One thing is for sure, and that is the solar system, 516 00:29:46,585 --> 00:29:48,718 when the sun turns into a planetary nebula, 517 00:29:48,720 --> 00:29:50,987 is going to look a whole lot different than it does now. 518 00:29:50,989 --> 00:29:54,658 It'll be unrecognizable. 519 00:29:54,660 --> 00:29:56,325 The planetary nebula will mean 520 00:29:56,327 --> 00:30:00,997 the end of the solar system as we know it. 521 00:30:00,999 --> 00:30:03,466 The sun will eventually die away and unravel itself 522 00:30:03,468 --> 00:30:05,000 back into space. 523 00:30:05,002 --> 00:30:06,737 But then the cycle begins again. 524 00:30:06,739 --> 00:30:09,906 This is not just an ending, it's also a new beginning. 525 00:30:11,810 --> 00:30:14,010 It's going to provide the ingredients 526 00:30:14,012 --> 00:30:17,080 that will foster yet a new solar system. 527 00:30:19,217 --> 00:30:23,420 As one solar system dies, another solar system is born. 528 00:30:23,422 --> 00:30:27,757 So really, this is the cosmic cycle of life. 529 00:30:27,759 --> 00:30:32,361 Nebulas always signal change in the universe, 530 00:30:32,363 --> 00:30:37,566 intimately linked with star birth and star death. 531 00:30:37,568 --> 00:30:40,370 Now new observations reveal 532 00:30:40,372 --> 00:30:45,041 that some of our favorite nebulas are also dying. 533 00:30:45,043 --> 00:30:49,113 Could the famous pillars of creation be dead already? 534 00:31:10,068 --> 00:31:12,134 Deep inside the eagle nebula 535 00:31:12,136 --> 00:31:16,807 is a dense region of cold molecular gas, 536 00:31:16,809 --> 00:31:20,343 perhaps the best-known image in all astronomy ... 537 00:31:20,345 --> 00:31:23,146 the pillars of creation. 538 00:31:23,148 --> 00:31:25,215 One of the images that really changed things 539 00:31:25,217 --> 00:31:27,016 was the pillars of creation, 540 00:31:27,018 --> 00:31:29,152 and it was an image that was very evocative. 541 00:31:29,154 --> 00:31:31,555 It really made me feel very emotional. 542 00:31:33,691 --> 00:31:36,225 The pillars are five light-years across 543 00:31:36,227 --> 00:31:41,030 and silhouetted by the light from a nearby star cluster, 544 00:31:41,032 --> 00:31:42,298 and it was these stars 545 00:31:42,300 --> 00:31:45,268 that carved out the shape of the pillars. 546 00:31:47,505 --> 00:31:50,974 The surface of these stars are energetic and boiling 547 00:31:50,976 --> 00:31:54,911 and constantly streaming particles off of them. 548 00:31:54,913 --> 00:31:58,180 10,000-mile-an-hour stellar winds ravage 549 00:31:58,182 --> 00:32:01,116 the surrounding gas clouds. 550 00:32:01,118 --> 00:32:04,120 Sutter: Eventually, they completely dissipate 551 00:32:04,122 --> 00:32:07,323 their surrounding nebula. 552 00:32:07,325 --> 00:32:08,992 As the nebula disappears, 553 00:32:08,994 --> 00:32:12,528 columns of thicker, denser clouds survive, 554 00:32:12,530 --> 00:32:16,866 but for how long? 555 00:32:16,868 --> 00:32:18,669 When you look at these beautiful hubble images 556 00:32:18,671 --> 00:32:21,003 of the pillars of creation, the eagle nebula, 557 00:32:21,005 --> 00:32:23,673 you see some blue, very diffuse gas 558 00:32:23,675 --> 00:32:25,475 around the pillars themselves, 559 00:32:25,477 --> 00:32:27,610 and this is a clue as to how the pillars formed 560 00:32:27,612 --> 00:32:31,146 and how they're going to change over time. 561 00:32:31,148 --> 00:32:35,017 This hazy blue gas is actually super-heated material 562 00:32:35,019 --> 00:32:38,020 evaporating off the pillars themselves. 563 00:32:38,022 --> 00:32:41,724 Nearby stars are slowly eroding the pillars. 564 00:32:43,427 --> 00:32:46,896 This is similar to how weather erosion works here on earth. 565 00:32:48,967 --> 00:32:50,566 Think about monument valley. 566 00:32:50,568 --> 00:32:53,102 You have these amazing stone pillars 567 00:32:53,104 --> 00:32:56,305 and really unlikely shapes coming up out of the ground. 568 00:32:56,307 --> 00:32:58,174 Well, those are denser areas of rock 569 00:32:58,176 --> 00:33:01,110 that used to be covered up by soil and sand. 570 00:33:01,112 --> 00:33:02,712 Over millions of years, 571 00:33:02,714 --> 00:33:04,648 that lighter material was blown away, 572 00:33:04,650 --> 00:33:07,250 exposing the denser rock underneath, 573 00:33:07,252 --> 00:33:09,986 and that's exactly the same thing that's happened here. 574 00:33:12,724 --> 00:33:14,924 This process is ongoing. 575 00:33:14,926 --> 00:33:19,062 Nebulas like the pillars are constantly evolving. 576 00:33:19,064 --> 00:33:20,196 Bullock: The thing you keep in mind 577 00:33:20,198 --> 00:33:21,531 about the pillars of creation 578 00:33:21,533 --> 00:33:23,199 is this is actually a pretty transient feature 579 00:33:23,201 --> 00:33:24,801 in the life of the galaxy. 580 00:33:24,803 --> 00:33:26,603 It's not going to last forever, 581 00:33:26,605 --> 00:33:28,537 and in fact, over the course of time 582 00:33:28,539 --> 00:33:31,473 even that we've taken images with the hubble space telescope, 583 00:33:31,475 --> 00:33:33,143 we've seen it change. 584 00:33:35,280 --> 00:33:37,080 When astronomers compared new data 585 00:33:37,082 --> 00:33:41,216 to the original hubble image from 1995, 586 00:33:41,218 --> 00:33:44,754 they discover a jet blasting out of the nebula 587 00:33:44,756 --> 00:33:48,691 at 450,000 miles an hour, 588 00:33:48,693 --> 00:33:52,696 extending 100 billion miles into space. 589 00:33:54,899 --> 00:33:58,635 What could be the source of all this energy? 590 00:33:58,637 --> 00:34:02,705 These jets are associated with the moment a star turns on. 591 00:34:02,707 --> 00:34:05,107 The stars being born inside of the pillars 592 00:34:05,109 --> 00:34:06,777 are basically eating their way out. 593 00:34:06,779 --> 00:34:08,244 They're eating up this material, 594 00:34:08,246 --> 00:34:12,114 and then they're going to blast it away. 595 00:34:12,116 --> 00:34:14,717 Newborn stars are a lot like little kids 596 00:34:14,719 --> 00:34:15,785 on a sugar rush. 597 00:34:15,787 --> 00:34:19,789 They gorge on gas, then spin out of control. 598 00:34:19,791 --> 00:34:23,659 But stars also have a magnetic field. 599 00:34:23,661 --> 00:34:26,129 That magnetic field is rapidly rotating. 600 00:34:26,131 --> 00:34:28,398 It's sweeping up this material around it 601 00:34:28,400 --> 00:34:30,533 and shooting it out in two jets 602 00:34:30,535 --> 00:34:33,870 going out of the poles of the star. 603 00:34:33,872 --> 00:34:35,271 Jets and stellar winds 604 00:34:35,273 --> 00:34:38,842 are destroying the pillars of creation from the inside out. 605 00:34:43,481 --> 00:34:47,683 What's more, some of these baby stars are growing so fast, 606 00:34:47,685 --> 00:34:51,254 they could soon reach the end of their short, violent lives. 607 00:34:53,692 --> 00:34:57,160 When stars die, they send shock waves, 608 00:34:57,162 --> 00:35:00,096 high-energy radiation, particles. 609 00:35:04,035 --> 00:35:06,168 Supernova explosions like these could blow 610 00:35:06,170 --> 00:35:07,871 the pillars to pieces. 611 00:35:11,843 --> 00:35:14,910 Some have already suggested that the pillars may have 612 00:35:14,912 --> 00:35:18,348 already been destroyed thousands of years ago. 613 00:35:20,651 --> 00:35:23,887 Straughn: Eagle nebula is about 7,000 light-years away, 614 00:35:23,889 --> 00:35:26,456 and so we are literally seeing the eagle nebula 615 00:35:26,458 --> 00:35:30,259 as it was 7,000 years ago, not as it is today. 616 00:35:31,996 --> 00:35:34,264 It's a sad fact of life. 617 00:35:34,266 --> 00:35:38,400 Nebulas are destroyed by the stars they create. 618 00:35:38,402 --> 00:35:39,802 That's happening all the time. 619 00:35:39,804 --> 00:35:41,337 Everything changes. 620 00:35:41,339 --> 00:35:44,540 Our most famous, favorite nebulas don't exist forever. 621 00:35:44,542 --> 00:35:46,675 And it might seem really sad, 622 00:35:46,677 --> 00:35:49,812 but this is just how the universe works. 623 00:35:49,814 --> 00:35:51,547 It's a transitory state. 624 00:35:51,549 --> 00:35:54,617 It's something in the act of changing. 625 00:35:54,619 --> 00:35:58,021 Where today we see pillars of creation, 626 00:35:58,023 --> 00:36:01,057 in the future, they'll just be clusters of stars. 627 00:36:02,693 --> 00:36:05,428 But this eternal recycling of gas and dust 628 00:36:05,430 --> 00:36:09,565 into stars can't last forever. 629 00:36:09,567 --> 00:36:13,069 Nebulas across the universe are disappearing. 630 00:36:15,106 --> 00:36:18,074 Is our galaxy running out of gas? 631 00:36:38,996 --> 00:36:41,964 New research shows that across the universe, 632 00:36:41,966 --> 00:36:46,735 the birthrate of stars is falling fast. 633 00:36:46,737 --> 00:36:50,740 Researchers predict that 95% of all the stars 634 00:36:50,742 --> 00:36:54,944 that will ever exist have already been born. 635 00:36:54,946 --> 00:36:57,946 Sutter: In order for a galaxy to be healthy, 636 00:36:57,948 --> 00:36:59,348 to keep making stars, 637 00:36:59,350 --> 00:37:03,019 it needs to keep collecting new reservoirs of gas, 638 00:37:03,021 --> 00:37:05,354 of raw material. 639 00:37:05,356 --> 00:37:07,957 Bullock: Our galaxy is running out of gas, 640 00:37:07,959 --> 00:37:11,093 and in fact, galaxies all across the universe 641 00:37:11,095 --> 00:37:13,429 are slowly running out of gas. 642 00:37:17,101 --> 00:37:20,737 That cycle is winding down, and someday it will stop. 643 00:37:24,709 --> 00:37:28,044 More and more gas is locked up in low-mass stars 644 00:37:28,046 --> 00:37:30,980 that never go supernova, 645 00:37:30,982 --> 00:37:34,917 and the massive stars that do go out in a blast 646 00:37:34,919 --> 00:37:38,254 push the gas away. 647 00:37:38,256 --> 00:37:40,323 Sutter: Galaxies eject material. 648 00:37:40,325 --> 00:37:44,861 Supernova winds and fountains are constantly sending streams 649 00:37:44,863 --> 00:37:48,498 of gas and particles outside the galaxy. 650 00:37:50,067 --> 00:37:52,401 But stars are not acting alone. 651 00:37:52,403 --> 00:37:56,472 They're in cahoots with something even bigger. 652 00:37:56,474 --> 00:37:58,407 Experts think the main culprit 653 00:37:58,409 --> 00:38:01,277 lies at the center of every galaxy ... 654 00:38:01,279 --> 00:38:05,614 a super-massive black hole. 655 00:38:05,616 --> 00:38:10,886 In the past, even the milky way has experienced this gas loss. 656 00:38:10,888 --> 00:38:13,355 Bullock: Just a few hundreds, millions years ago, 657 00:38:13,357 --> 00:38:15,424 the central black hole was pretty massive, 658 00:38:15,426 --> 00:38:17,760 and it gobbled up some material. 659 00:38:17,762 --> 00:38:20,830 In this process, it released a lot of energy. 660 00:38:20,832 --> 00:38:23,699 It sort of burped up a lot of energy. 661 00:38:23,701 --> 00:38:25,368 It released gas, and some of that 662 00:38:25,370 --> 00:38:27,470 probably escaped the galaxy altogether. 663 00:38:31,709 --> 00:38:35,077 Right now our galaxy is still forming stars. 664 00:38:39,051 --> 00:38:43,185 But the gas tank needs refilling. 665 00:38:43,187 --> 00:38:45,255 Galaxies run on hydrogen. 666 00:38:45,257 --> 00:38:48,123 It's what creates nebulas, it creates stars. 667 00:38:48,125 --> 00:38:49,793 So, it looks now like we may have reached a bit 668 00:38:49,795 --> 00:38:51,460 of a refueling stop. 669 00:38:51,462 --> 00:38:54,530 In space, we've discovered a giant cloud of hydrogen 670 00:38:54,532 --> 00:38:58,000 heading right for us. 671 00:38:58,002 --> 00:39:02,071 This hydrogen cloud is massive. 672 00:39:02,073 --> 00:39:06,809 10,000 light-years long by 3,000 wide. 673 00:39:06,811 --> 00:39:10,279 Scientists call it Smith's cloud. 674 00:39:10,281 --> 00:39:12,281 The thing is, it's orbiting our milky way, 675 00:39:12,283 --> 00:39:14,283 and in about 27 million years, 676 00:39:14,285 --> 00:39:18,955 it's going to slam into the disc of our galaxy. 677 00:39:18,957 --> 00:39:22,291 The collision will re-energize the galaxy, 678 00:39:22,293 --> 00:39:25,561 jump-starting star formation. 679 00:39:25,563 --> 00:39:27,162 There's a lot of gas in there. 680 00:39:27,164 --> 00:39:29,632 There's about a million times the mass of the sun. 681 00:39:29,634 --> 00:39:32,768 You could make a million suns. 682 00:39:32,770 --> 00:39:35,972 But this is only a snack. 683 00:39:35,974 --> 00:39:41,243 To keep forming stars, the galaxy needs regular feeding. 684 00:39:41,245 --> 00:39:44,379 Here in the milky way, we're still forming stars, 685 00:39:44,381 --> 00:39:47,849 and that's because our galaxy is a cannibal. 686 00:39:47,851 --> 00:39:50,586 It's surrounded by dwarf galaxies, and it's eating them, 687 00:39:50,588 --> 00:39:54,457 and it's stealing their gas and their dust. 688 00:39:54,459 --> 00:39:56,325 We're the product of mergers, 689 00:39:56,327 --> 00:39:59,795 many small galaxies coming together and colliding. 690 00:39:59,797 --> 00:40:02,164 When a new galaxy collides with the milky way, 691 00:40:02,166 --> 00:40:05,067 it brings with it new gas, new dust, 692 00:40:05,069 --> 00:40:09,004 the potential to form new nebulas. 693 00:40:09,006 --> 00:40:14,076 So, by eating its own kind, the milky way is pulling out 694 00:40:14,078 --> 00:40:18,347 a few billion more years of star formation. 695 00:40:18,349 --> 00:40:19,881 But our galaxy 696 00:40:19,883 --> 00:40:22,351 is always looking for its next meal, 697 00:40:22,353 --> 00:40:24,220 and in a few billion years, 698 00:40:24,222 --> 00:40:27,490 it will feast on its next-door neighbor, 699 00:40:27,492 --> 00:40:30,359 the Andromeda galaxy. 700 00:40:30,361 --> 00:40:32,427 When Andromeda merges with the milky way, 701 00:40:32,429 --> 00:40:36,698 it's almost certainly going to deliver a fresh amount of gas. 702 00:40:37,969 --> 00:40:40,836 Although this is a catastrophic train wreck 703 00:40:40,838 --> 00:40:42,038 on a galactic scale, 704 00:40:42,040 --> 00:40:43,439 it's actually kind of a good thing 705 00:40:43,441 --> 00:40:44,774 because when it happens, 706 00:40:44,776 --> 00:40:47,642 more stars will be born inside of the milky way. 707 00:40:47,644 --> 00:40:49,778 That's going to extend the life of our galaxy, 708 00:40:49,780 --> 00:40:52,381 if you want to think of it that way. 709 00:40:52,383 --> 00:40:54,316 But there are only so many galaxies nearby 710 00:40:54,318 --> 00:40:57,252 for the milky way to feed on. 711 00:40:57,254 --> 00:40:58,521 Eventually, over the long run, 712 00:40:58,523 --> 00:41:00,924 the nebular gas is being used up. 713 00:41:00,926 --> 00:41:02,791 When that gas is gone, that's it. 714 00:41:02,793 --> 00:41:04,393 You can't form any more stars. 715 00:41:04,395 --> 00:41:06,562 And so, whatever happens at that point, 716 00:41:06,564 --> 00:41:09,465 that will be the last generation of stars. 717 00:41:11,869 --> 00:41:13,802 With no gas to replenish them, 718 00:41:13,804 --> 00:41:19,074 nebulas will disappear across the universe. 719 00:41:19,076 --> 00:41:21,611 The universe really is winding down. 720 00:41:21,613 --> 00:41:25,716 Nebulas themselves are being depleted and dying away. 721 00:41:25,718 --> 00:41:30,419 The last stars will eventually blink out. 722 00:41:30,421 --> 00:41:35,157 From here on out, everything goes dark. 723 00:41:35,159 --> 00:41:36,425 Nebulas ... 724 00:41:36,427 --> 00:41:39,495 one of the most spectacular features 725 00:41:39,497 --> 00:41:42,031 of the universe. 726 00:41:42,033 --> 00:41:44,367 One of the things that make nebulas so appealing 727 00:41:44,369 --> 00:41:45,701 is that they're just so beautiful. 728 00:41:45,703 --> 00:41:48,437 But it's more than just beautiful. 729 00:41:48,439 --> 00:41:50,839 They are cradles of creation. 730 00:41:50,841 --> 00:41:53,108 Nebulas are quite literally the starting point 731 00:41:53,110 --> 00:41:57,045 and the ending point of stars, and therefore planets and life. 732 00:41:57,047 --> 00:42:00,984 I think it's incredible that we can learn about the cosmos, 733 00:42:00,986 --> 00:42:04,519 and I think in the end, we're really learning about ourselves. 734 00:42:04,521 --> 00:42:07,323 They are our connection 735 00:42:07,325 --> 00:42:09,725 to the cosmic circle of life. 736 00:42:09,727 --> 00:42:14,463 Nebulas are almost like an analogy for our own lives. 737 00:42:14,465 --> 00:42:18,667 They're incredibly beautiful, but yet, they're transitory. 738 00:42:18,669 --> 00:42:20,669 They're not going to be here forever. 739 00:42:20,671 --> 00:42:22,805 And that's the story of our universe. 740 00:42:22,807 --> 00:42:25,407 It's a story of change. 741 00:42:25,409 --> 00:42:28,477 So, seize the day. 57984