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These are the user uploaded subtitles that are being translated: 1 00:00:07,260 --> 00:00:12,229 Cosmologists are battling over the universe's greatest enigma. 2 00:00:14,261 --> 00:00:17,130 Black holes. 3 00:00:17,130 --> 00:00:19,070 We've never seen them. 4 00:00:19,070 --> 00:00:21,540 It's near impossible to study them. 5 00:00:21,540 --> 00:00:24,769 And their existence challenges everything 6 00:00:24,769 --> 00:00:27,181 we think we know about space. 7 00:00:29,211 --> 00:00:31,210 The black hole represents the absolute limits 8 00:00:31,210 --> 00:00:32,950 of what we understand about nature. 9 00:00:35,280 --> 00:00:38,749 The truth is, we have almost no idea what these things are 10 00:00:38,759 --> 00:00:41,021 and how they work. 11 00:00:41,021 --> 00:00:45,290 Black holes are at the very heart of cosmology. 12 00:00:45,290 --> 00:00:49,359 Yet, some scientists question if they're even real. 13 00:00:49,369 --> 00:00:52,371 Black holes present lots of paradoxes, 14 00:00:52,371 --> 00:00:55,500 and the simplest way to resolve the paradoxes would be 15 00:00:55,510 --> 00:00:59,170 if black holes didn't exist at all. 16 00:00:59,180 --> 00:01:01,379 Solving the mysteries of black holes 17 00:01:01,379 --> 00:01:03,979 pushes our understanding of physics 18 00:01:03,979 --> 00:01:06,511 to the edge of reason. 19 00:01:06,521 --> 00:01:09,580 But it's the only way to discover 20 00:01:09,590 --> 00:01:12,850 if black holes really exist. 21 00:01:17,391 --> 00:01:20,300 captions paid for by discovery communications 22 00:01:36,550 --> 00:01:41,419 Black holes are the monsters of the universe... 23 00:01:41,419 --> 00:01:45,850 Terrifying cosmic beasts that devour all they encounter. 24 00:01:49,290 --> 00:01:53,359 But black holes scare scientists for very different reasons. 25 00:01:55,631 --> 00:01:58,630 They challenge our theories to the breaking point. 26 00:01:58,640 --> 00:02:01,170 This is at the forefront of theoretical physics. 27 00:02:03,510 --> 00:02:06,909 When it comes to the detailed nature of black holes, 28 00:02:06,909 --> 00:02:10,381 it would not surprise me if we got it all wrong. 29 00:02:15,120 --> 00:02:18,649 The science of black holes is so challenging 30 00:02:18,659 --> 00:02:22,121 that some scientists question whether they exist at all. 31 00:02:26,860 --> 00:02:30,599 Despite their fearsome reputation, 32 00:02:30,599 --> 00:02:32,901 we've never actually seen one. 33 00:02:35,671 --> 00:02:37,940 Black holes are everywhere. They're all over the universe. 34 00:02:37,940 --> 00:02:39,610 They're all throughout our galaxy. 35 00:02:39,610 --> 00:02:42,339 But that doesn't mean that they're easy to find. 36 00:02:42,349 --> 00:02:44,809 They're black, and space is black, 37 00:02:44,809 --> 00:02:46,781 and black-on-black is kind of hard 38 00:02:46,781 --> 00:02:50,150 to see in a picture of space. 39 00:02:50,150 --> 00:02:51,550 This is paradoxical 40 00:02:51,560 --> 00:02:55,089 because scientists believe black holes are born 41 00:02:55,089 --> 00:02:58,231 in some of the brightest explosions in the universe... 42 00:03:01,161 --> 00:03:04,900 rising from the corpses of detonated stars 43 00:03:04,900 --> 00:03:07,100 many times larger than our sun. 44 00:03:09,369 --> 00:03:12,111 A star that burns for 10 million years 45 00:03:12,111 --> 00:03:16,280 collapses to form a black hole in a period of seconds. 46 00:03:18,110 --> 00:03:19,250 As it collapses, 47 00:03:19,250 --> 00:03:22,249 the outer region of the star hits the core, 48 00:03:22,249 --> 00:03:26,990 triggering a huge explosion... A supernova. 49 00:03:31,990 --> 00:03:35,829 We see the bang, but not what's left behind... 50 00:03:38,471 --> 00:03:42,140 a dead core with the enormous mass of the star 51 00:03:42,140 --> 00:03:46,869 crushed down into an infinitesimal, tiny area. 52 00:03:53,950 --> 00:03:57,420 From this minuscule high-mass core, 53 00:03:57,420 --> 00:04:00,619 a black hole is born. 54 00:04:00,619 --> 00:04:05,430 The flow of gravity is so strong that nothing can escape... 55 00:04:05,430 --> 00:04:06,530 Not even light. 56 00:04:10,570 --> 00:04:13,969 But how can scientists claim that black holes exist 57 00:04:13,969 --> 00:04:15,371 if we can't even see them? 58 00:04:21,180 --> 00:04:23,779 You could say that about the existence of the atom. 59 00:04:23,779 --> 00:04:26,649 We knew they had existed for decades, centuries 60 00:04:26,649 --> 00:04:31,790 before we had actually seen one in some sort of imaging device. 61 00:04:31,790 --> 00:04:34,090 And so it's the same sort of thing with black holes. 62 00:04:35,790 --> 00:04:38,589 Just because you can't see it doesn't mean it's not there. 63 00:04:38,599 --> 00:04:41,201 Not seeing black holes but knowing they're there 64 00:04:41,201 --> 00:04:42,401 is a possibility, 65 00:04:42,401 --> 00:04:44,800 just like we know that wind is there, 66 00:04:44,800 --> 00:04:46,570 even though we can't see air. 67 00:04:49,409 --> 00:04:52,471 Air is invisible, but when the wind blows, 68 00:04:52,481 --> 00:04:56,010 its effects can be measured. 69 00:04:56,010 --> 00:04:57,880 It's the same with black holes. 70 00:04:57,880 --> 00:05:00,480 You just need to know what to look for. 71 00:05:02,349 --> 00:05:04,619 While they emit no light themselves, 72 00:05:04,619 --> 00:05:07,161 black holes are tremendous sources of x-rays, 73 00:05:07,161 --> 00:05:10,020 and that's because as things get close to a black hole, 74 00:05:10,030 --> 00:05:12,160 they're accelerated by the gravity, 75 00:05:12,160 --> 00:05:14,759 and they can heat up to millions of degrees. 76 00:05:14,759 --> 00:05:17,531 Million-degree gas gives you lots of x-rays. 77 00:05:20,371 --> 00:05:24,370 To find and measure these telltale x-rays, 78 00:05:24,370 --> 00:05:28,709 scientists turn to the NuSTAR space telescope. 79 00:05:30,781 --> 00:05:34,850 In 2017, it spots a burst of x-rays 80 00:05:34,850 --> 00:05:37,920 in a cluster called 47 Tucanae, 81 00:05:37,920 --> 00:05:39,949 at the edge of the milky way. 82 00:05:42,529 --> 00:05:45,131 When scientists analyze the data, 83 00:05:45,131 --> 00:05:48,200 they realize they're looking at two objects 84 00:05:48,200 --> 00:05:50,900 orbiting each other very closely. 85 00:05:54,339 --> 00:05:57,671 All we see is that there's a star being ripped apart, 86 00:05:57,671 --> 00:06:01,680 and gas is spiraling down to a very dense, very dark object, 87 00:06:01,680 --> 00:06:04,949 so something weird is going on. 88 00:06:04,949 --> 00:06:08,021 As one of the objects accretes matter off the other, 89 00:06:08,021 --> 00:06:10,221 it causes it to emit x-rays, 90 00:06:10,221 --> 00:06:13,220 and those x-rays can be used, then, to trace out the orbits 91 00:06:13,220 --> 00:06:15,290 and, therefore, extract the mass. 92 00:06:18,429 --> 00:06:20,029 When scientists work out 93 00:06:20,029 --> 00:06:22,561 the size and mass of the two objects, 94 00:06:22,571 --> 00:06:25,700 they find the first is the fading corpse 95 00:06:25,700 --> 00:06:29,100 of a sunlike star. 96 00:06:29,110 --> 00:06:31,639 And while the second object is tiny, 97 00:06:31,639 --> 00:06:35,441 it has the mass of a giant. 98 00:06:35,451 --> 00:06:38,650 Is this an elusive black hole? 99 00:06:40,050 --> 00:06:42,120 What we're talking about here is an object 100 00:06:42,120 --> 00:06:45,589 that is very massive, very small, very dense, 101 00:06:45,589 --> 00:06:48,061 with intense gravity. 102 00:06:48,061 --> 00:06:50,060 But it turns out there are lots of different ways 103 00:06:50,060 --> 00:06:52,730 to create an object like that. 104 00:06:52,730 --> 00:06:55,260 There is another type of ultra-dense object out there 105 00:06:55,260 --> 00:06:57,869 in the universe, called a neutron star. 106 00:07:01,800 --> 00:07:06,270 Neutron stars form in the same way we think black holes form... 107 00:07:06,280 --> 00:07:08,679 When stars die, explode, 108 00:07:08,679 --> 00:07:12,251 but then collapse down into a tiny ball of matter. 109 00:07:14,351 --> 00:07:18,690 The gravitational attraction of a neutron star is enormous, 110 00:07:18,690 --> 00:07:22,219 pulling in gas, dust, and asteroids. 111 00:07:22,219 --> 00:07:26,231 But light can still escape. 112 00:07:26,231 --> 00:07:29,230 Black holes and neutron stars are kind of cousins, 113 00:07:29,230 --> 00:07:31,100 but in the case of a neutron star, 114 00:07:31,100 --> 00:07:35,039 it didn't have quite enough mass to collapse out of control. 115 00:07:35,039 --> 00:07:38,171 So you can sort of think of it as just barely hanging back 116 00:07:38,171 --> 00:07:40,110 from collapsing into a black hole. 117 00:07:42,850 --> 00:07:45,310 The tiny object discovered by NuSTAR 118 00:07:45,310 --> 00:07:47,449 does have enormous mass. 119 00:07:49,591 --> 00:07:51,921 But size and mass alone 120 00:07:51,921 --> 00:07:54,520 are not enough to prove it's a black hole. 121 00:07:56,590 --> 00:08:00,529 Cosmologists need more evidence. 122 00:08:00,529 --> 00:08:05,071 They can't see black holes, but is there another way? 123 00:08:05,071 --> 00:08:06,930 What if they could hear them? 124 00:08:09,540 --> 00:08:12,139 Think of two massive cars colliding... boom! 125 00:08:12,139 --> 00:08:14,279 When they do, they radiate sound, 126 00:08:14,279 --> 00:08:16,411 and then we can tell whether or not that collision occurred 127 00:08:16,411 --> 00:08:18,010 and maybe even how far away it was. 128 00:08:18,010 --> 00:08:20,280 It's like that when black holes collide. 129 00:08:25,889 --> 00:08:29,461 So, by listening for a black hole crash... 130 00:08:31,690 --> 00:08:36,100 could scientists conclusively prove they exist? 131 00:09:00,520 --> 00:09:04,089 Black holes are gravitational giants of the universe. 132 00:09:05,931 --> 00:09:09,330 But we've found only circumstantial evidence 133 00:09:09,330 --> 00:09:11,530 that they exist. 134 00:09:11,530 --> 00:09:13,330 To make it a slam dunk, 135 00:09:13,340 --> 00:09:15,939 cosmologists are listening for proof 136 00:09:15,939 --> 00:09:19,411 in the hidden world of gravitational waves. 137 00:09:21,480 --> 00:09:23,680 There are gravitational waves going through this room 138 00:09:23,680 --> 00:09:24,880 all the time. 139 00:09:24,880 --> 00:09:27,180 Every time I move my hands like I just did, 140 00:09:27,180 --> 00:09:29,149 I create gravitational waves. 141 00:09:29,149 --> 00:09:32,691 The problem is, gravity is so weak 142 00:09:32,691 --> 00:09:34,660 that you don't detect those gravitational waves. 143 00:09:36,830 --> 00:09:39,830 In order to detect those disturbances of space and time, 144 00:09:39,830 --> 00:09:43,029 you have to have cataclysmic events 145 00:09:43,029 --> 00:09:44,971 involving massive objects. 146 00:09:48,440 --> 00:09:52,570 Black holes are some of the densest objects in the universe. 147 00:09:52,580 --> 00:09:56,181 So we should be able to hear and measure the waves 148 00:09:56,181 --> 00:09:59,250 created when they collide. 149 00:09:59,250 --> 00:10:04,320 LIGO, the laser interferometer gravitational-wave observatory, 150 00:10:04,320 --> 00:10:06,649 listens for waves that can come 151 00:10:06,659 --> 00:10:08,791 from over a billion light-years away. 152 00:10:12,390 --> 00:10:17,300 In 2017, LIGO heard an enormous crash. 153 00:10:19,869 --> 00:10:21,331 Two very massive objects 154 00:10:21,341 --> 00:10:23,401 collided at near the speed of light 155 00:10:23,411 --> 00:10:25,470 in one of the most energetic events 156 00:10:25,470 --> 00:10:28,010 that we've ever witnessed in the history of humankind. 157 00:10:31,279 --> 00:10:36,151 Two ultra-heavy, ultra-dense objects whirl around each other, 158 00:10:36,151 --> 00:10:41,160 hurling powerful gravitational waves through space. 159 00:10:41,160 --> 00:10:43,359 The closer they fall toward each other, 160 00:10:43,359 --> 00:10:47,561 the more gravitational energy they throw out. 161 00:10:47,561 --> 00:10:49,631 Finally, they collide, 162 00:10:49,631 --> 00:10:53,500 in one of the most violent events in the universe. 163 00:10:56,309 --> 00:10:59,771 The smash sends out immense gravitational waves 164 00:10:59,781 --> 00:11:03,380 that ripple across intergalactic space, 165 00:11:03,380 --> 00:11:08,120 until, eventually, LIGO detects them. 166 00:11:10,119 --> 00:11:11,851 Listening to a gravitational wave 167 00:11:11,851 --> 00:11:14,990 is like listening to a musical instrument. 168 00:11:14,990 --> 00:11:19,590 If it's making certain tones or certain vibrations, 169 00:11:19,600 --> 00:11:22,459 you can figure out the size of the musical instrument, 170 00:11:22,469 --> 00:11:23,929 the type of the musical instrument, 171 00:11:23,929 --> 00:11:26,331 who's playing the musical instrument. 172 00:11:28,810 --> 00:11:31,140 The thing that's really amazing about the LIGO detection 173 00:11:31,140 --> 00:11:33,540 is it allowed us to measure the mass of these objects 174 00:11:33,540 --> 00:11:35,539 and how quickly they coalesce together. 175 00:11:35,539 --> 00:11:39,081 So we actually have an idea how dense they must have been, 176 00:11:39,081 --> 00:11:40,780 and with modern physics, we say, 177 00:11:40,780 --> 00:11:43,150 "well, it has to be a black hole." 178 00:11:43,150 --> 00:11:45,490 But the question is, "have we missed something?" 179 00:11:49,559 --> 00:11:54,700 the information gathered by LIGO is groundbreaking. 180 00:11:54,700 --> 00:11:57,630 But some scientists think that the gravitational waves 181 00:11:57,630 --> 00:12:00,829 could have come not from black holes, 182 00:12:00,839 --> 00:12:03,901 but from something even more mysterious. 183 00:12:07,180 --> 00:12:10,780 It's possible that what we identify as black holes 184 00:12:10,780 --> 00:12:14,649 in our universe are really another object like gravastar. 185 00:12:14,649 --> 00:12:18,590 Possible... there's a capital "P" on that "possible." 186 00:12:25,729 --> 00:12:30,970 A gravastar is what scientists call an exotic compact object. 187 00:12:32,540 --> 00:12:36,670 This bizarre theoretical body has exactly the same mass 188 00:12:36,670 --> 00:12:40,741 and gravitational pull as a black hole, 189 00:12:40,741 --> 00:12:43,680 but it's made of exotic matter. 190 00:12:43,680 --> 00:12:47,380 A gravastar would be impossible to see with the naked eye, 191 00:12:47,380 --> 00:12:51,219 but because it forms differently than a black hole, 192 00:12:51,219 --> 00:12:54,891 it has a strange, incredibly dense surface. 193 00:12:58,290 --> 00:13:01,560 In the formation of what we think of as a black hole, 194 00:13:01,560 --> 00:13:05,169 the catastrophic gravitational collapse of a dense object, 195 00:13:05,169 --> 00:13:07,231 maybe it doesn't go all the way down 196 00:13:07,241 --> 00:13:09,440 to become an infinitely dense point. 197 00:13:09,440 --> 00:13:11,570 Instead, maybe there's some interaction 198 00:13:11,570 --> 00:13:14,440 that prevents the formation of the black hole, 199 00:13:14,440 --> 00:13:18,381 and instead, you have a tight, little, dense ball, 200 00:13:18,381 --> 00:13:21,650 which is what we call a gravastar. 201 00:13:21,650 --> 00:13:25,390 So the LIGO data could be the signature 202 00:13:25,390 --> 00:13:27,660 of two black holes colliding, but it also could be 203 00:13:27,660 --> 00:13:31,331 the signature of two gravastars colliding. 204 00:13:31,331 --> 00:13:33,891 Right now, we can't tell them apart. 205 00:13:44,011 --> 00:13:48,210 So, for now, gravitational waves have led to a dead end 206 00:13:48,210 --> 00:13:51,080 in the hunt for black holes. 207 00:13:51,080 --> 00:13:54,619 We can't be completely sure that we're hearing them, 208 00:13:54,619 --> 00:13:57,521 and we already know we can't see them. 209 00:13:59,221 --> 00:14:02,090 But what about the mayhem they leave behind? 210 00:14:05,490 --> 00:14:08,359 Even though you can't see the black hole itself, 211 00:14:08,359 --> 00:14:11,371 it's going to leave behind a trail of destruction, 212 00:14:11,371 --> 00:14:13,430 and that is something you can see. 213 00:14:18,310 --> 00:14:21,579 By picking apart a cosmic crime scene, 214 00:14:21,579 --> 00:14:26,910 can scientists finally solve the mystery of black holes? 215 00:14:55,740 --> 00:14:59,681 This is the hydra "a" galaxy cluster. 216 00:14:59,681 --> 00:15:04,080 840 million light-years from Earth, 217 00:15:04,090 --> 00:15:08,820 it's a region of space filled with galaxies 218 00:15:08,820 --> 00:15:13,291 and dense intergalactic gas. 219 00:15:13,301 --> 00:15:16,430 But a dark and massively destructive force 220 00:15:16,430 --> 00:15:18,700 is at work here. 221 00:15:18,700 --> 00:15:21,100 And it's blasting holes in the gas 222 00:15:21,100 --> 00:15:24,699 that are bigger than the milky way. 223 00:15:24,709 --> 00:15:28,710 Could a black hole be responsible? 224 00:15:28,710 --> 00:15:31,710 It's almost as if an intergalactic bomb has exploded 225 00:15:31,710 --> 00:15:34,779 to blow these cavities out. 226 00:15:34,779 --> 00:15:36,919 Some of these cavities are tens 227 00:15:36,919 --> 00:15:39,651 or even hundreds of thousands of light-years across, 228 00:15:39,661 --> 00:15:41,650 and to create a cavity that large 229 00:15:41,660 --> 00:15:44,860 requires an immense source of energy, 230 00:15:44,860 --> 00:15:47,659 a powerful engine that's driving it. 231 00:15:53,001 --> 00:15:55,400 To discover what's creating the cavities, 232 00:15:55,400 --> 00:15:59,440 scientists combine images taken at different wavelengths. 233 00:16:01,939 --> 00:16:05,011 They reveal something remarkable. 234 00:16:07,680 --> 00:16:12,090 The cavities are being carved out by enormous jets 235 00:16:12,090 --> 00:16:16,021 emanating from a galaxy in the center of the cluster. 236 00:16:20,760 --> 00:16:24,570 As the jets are ejected from the galaxy, 237 00:16:24,570 --> 00:16:28,571 they can actually slam into the surrounding material 238 00:16:28,571 --> 00:16:31,910 and form a shock wave, which we can see. 239 00:16:31,910 --> 00:16:35,910 And eventually, that jet inflates a bubble, a cavity, 240 00:16:35,910 --> 00:16:38,449 and the cavity grows as it's inflated 241 00:16:38,449 --> 00:16:42,251 with hot, dense plasma ejected from this jet. 242 00:16:45,390 --> 00:16:48,590 These jets are incredibly large and incredibly powerful. 243 00:16:48,590 --> 00:16:50,919 This is like a death star, but for real. 244 00:16:50,929 --> 00:16:52,389 It's much, much more energy 245 00:16:52,399 --> 00:16:54,791 than it would take to blow up a planet. 246 00:16:54,801 --> 00:16:56,800 Carnage like this could have been created 247 00:16:56,800 --> 00:16:59,330 by the energetics of a supermassive black hole 248 00:16:59,330 --> 00:17:01,000 in the form of a quasar. 249 00:17:03,010 --> 00:17:04,869 Supermassive black holes 250 00:17:04,869 --> 00:17:09,141 are millions or even billions of times the mass of the sun. 251 00:17:11,810 --> 00:17:14,250 They can be voracious overeaters, 252 00:17:14,250 --> 00:17:16,819 cramming in huge amounts of matter. 253 00:17:20,361 --> 00:17:24,490 As gas and dust swirl toward the supermassive black hole, 254 00:17:24,490 --> 00:17:27,030 it rubs together, causing friction 255 00:17:27,030 --> 00:17:30,629 that heats the material up to millions of degrees Fahrenheit. 256 00:17:38,240 --> 00:17:40,240 The magnetic field around the black hole 257 00:17:40,240 --> 00:17:43,039 forms the material into twin jets 258 00:17:43,049 --> 00:17:45,511 that spin out at enormous speeds 259 00:17:45,511 --> 00:17:48,320 for hundreds of millions of light-years. 260 00:17:53,320 --> 00:17:55,519 A quasar is born. 261 00:17:59,131 --> 00:18:01,860 The jets emitted by black holes are not only 262 00:18:01,860 --> 00:18:05,070 incredibly high-energy, but incredibly intense. 263 00:18:05,070 --> 00:18:08,939 More energy than is emitted in almost any other object 264 00:18:08,939 --> 00:18:10,471 is observed from quasars. 265 00:18:10,471 --> 00:18:12,670 Those quasars are intense enough 266 00:18:12,680 --> 00:18:14,940 to vaporize objects that they hit. 267 00:18:14,940 --> 00:18:16,480 They're deadly rays from space. 268 00:18:16,480 --> 00:18:18,510 They almost sound like science-fiction objects. 269 00:18:22,421 --> 00:18:24,821 In order to generate that much energy, 270 00:18:24,821 --> 00:18:27,890 what kind of physical process do you need? 271 00:18:27,890 --> 00:18:31,460 And pretty much the only answer we have is a giant black hole. 272 00:18:33,899 --> 00:18:35,761 Jets are absolutely 273 00:18:35,761 --> 00:18:38,330 really, really convincing smoking-gun evidence 274 00:18:38,330 --> 00:18:40,370 for the existence of black holes. 275 00:18:44,309 --> 00:18:46,369 The awesome power of a black hole 276 00:18:46,379 --> 00:18:49,781 can explain the vast mysterious cavities 277 00:18:49,781 --> 00:18:52,410 in the galaxy cluster hydra "a." 278 00:18:55,580 --> 00:18:58,789 So, is the case closed? 279 00:18:58,789 --> 00:19:02,261 Can we say conclusively that black holes are real? 280 00:19:08,400 --> 00:19:10,399 Although there's great evidence for black holes, 281 00:19:10,399 --> 00:19:13,201 we have to keep questioning whether they are real. 282 00:19:13,201 --> 00:19:16,600 As a scientist, I'd much rather have questions I can't answer 283 00:19:16,610 --> 00:19:18,410 than answers I can't question. 284 00:19:30,820 --> 00:19:35,689 One question scientists are struggling to answer 285 00:19:35,689 --> 00:19:39,491 is how black holes work. 286 00:19:39,491 --> 00:19:45,300 Are cosmology's greatest minds in danger of flunking out? 287 00:19:45,300 --> 00:19:46,630 There's always going to be details 288 00:19:46,640 --> 00:19:48,439 that we still have yet to figure out. 289 00:19:48,439 --> 00:19:49,899 That's true for black holes right now 290 00:19:49,909 --> 00:19:51,571 and a lot of the problems are big ones, 291 00:19:51,571 --> 00:19:54,270 like how do they even exist, how do they behave? 292 00:19:55,910 --> 00:19:59,450 I mean, we're seeing that the math doesn't seem to work out, 293 00:19:59,450 --> 00:20:02,649 so there is an issue here. 294 00:20:02,649 --> 00:20:04,721 To show that black holes exist, 295 00:20:04,721 --> 00:20:08,390 scientists need to solve the math. 296 00:20:08,390 --> 00:20:09,660 If they can't, 297 00:20:09,660 --> 00:20:13,959 they might fail to prove that black holes exist at all. 298 00:20:33,820 --> 00:20:38,219 Cosmologists say the universe is filled with black holes... 299 00:20:38,219 --> 00:20:39,549 Big and small. 300 00:20:41,761 --> 00:20:44,990 But the evidence for them is not conclusive. 301 00:20:48,560 --> 00:20:51,159 Even if there's 9 out of 10 pieces of evidence 302 00:20:51,169 --> 00:20:54,971 for black holes, there's still one piece of evidence left. 303 00:20:54,971 --> 00:20:56,971 That can open it up to the possibility 304 00:20:56,971 --> 00:20:59,370 that maybe black holes don't exist. 305 00:21:03,649 --> 00:21:07,051 Experts instead look to the theoretical science 306 00:21:07,051 --> 00:21:08,881 of how black holes work. 307 00:21:11,650 --> 00:21:14,790 They're thought to have the superdense collapsed core 308 00:21:14,790 --> 00:21:16,759 of a star at their center. 309 00:21:18,789 --> 00:21:23,930 Around this is a sphere known as the event horizon, 310 00:21:23,930 --> 00:21:27,230 a place where the rules of physics go out the window. 311 00:21:29,999 --> 00:21:31,869 The event horizon, in many ways, 312 00:21:31,869 --> 00:21:34,671 cuts a black hole off from the rest of the universe. 313 00:21:34,681 --> 00:21:38,410 Whatever comes in can never come back out. 314 00:21:38,410 --> 00:21:42,419 It's almost like an invisible line in space. 315 00:21:42,419 --> 00:21:45,421 It's not until you try to turn around and leave 316 00:21:45,421 --> 00:21:48,320 that you realize you're never going to escape. 317 00:21:52,890 --> 00:21:55,359 It's Einstein's theory of general relativity 318 00:21:55,359 --> 00:21:58,801 that tells us nothing can leave a black hole. 319 00:22:01,370 --> 00:22:02,640 This set of rules 320 00:22:02,640 --> 00:22:05,370 governs the giant structures of the universe... 321 00:22:05,370 --> 00:22:08,879 Galaxies, star systems, and planets. 322 00:22:12,051 --> 00:22:14,580 General relativity is Einstein's theory of gravity. 323 00:22:14,580 --> 00:22:16,450 It is the all-encompassing theory 324 00:22:16,450 --> 00:22:19,390 that describes everything we know about gravity 325 00:22:19,390 --> 00:22:22,119 and how the universe on large scales functions. 326 00:22:24,991 --> 00:22:28,500 But the universe functions on small scales, too. 327 00:22:30,930 --> 00:22:33,999 Everything in the universe... Including us... 328 00:22:33,999 --> 00:22:37,871 Is made up of tiny bits of matter. 329 00:22:37,871 --> 00:22:41,270 These are governed by another set of rules, 330 00:22:41,280 --> 00:22:43,610 known as quantum mechanics. 331 00:22:46,479 --> 00:22:49,221 Quantum mechanics allows you to understand 332 00:22:49,221 --> 00:22:50,751 at the smallest levels 333 00:22:50,751 --> 00:22:54,620 the smallest scales of what builds our universe. 334 00:22:54,620 --> 00:22:57,020 Weird stuff happens in the quantum world. 335 00:22:57,030 --> 00:22:58,829 It defies all intuition, 336 00:22:58,829 --> 00:23:01,501 and one of the weird things that can happen is you can have 337 00:23:01,501 --> 00:23:05,200 the empty space of a vacuum creating particles. 338 00:23:08,040 --> 00:23:09,500 In the quantum world, 339 00:23:09,500 --> 00:23:15,311 tiny particles can pop spontaneously into existence. 340 00:23:15,311 --> 00:23:19,980 They're drawn to each other like magnets. 341 00:23:19,980 --> 00:23:23,349 But when they collide, they annihilate each other. 342 00:23:26,261 --> 00:23:28,921 So, you've got two particles... They can pop out of the vacuum, 343 00:23:28,921 --> 00:23:30,460 and they annihilate very quickly. 344 00:23:30,460 --> 00:23:32,590 That doesn't break any laws. 345 00:23:32,590 --> 00:23:34,590 Now in the vicinity of a black hole, though, 346 00:23:34,600 --> 00:23:36,429 things get kind of complicated. 347 00:23:39,871 --> 00:23:41,800 Gravity is usually too weak 348 00:23:41,800 --> 00:23:44,600 to affect the particles in the quantum world. 349 00:23:48,539 --> 00:23:52,811 But British physicist Stephen Hawking theorized 350 00:23:52,821 --> 00:23:55,480 that at the event horizon of a black hole, 351 00:23:55,480 --> 00:23:59,690 the normal rules don't apply. 352 00:23:59,690 --> 00:24:01,619 What Stephen Hawking realized is that 353 00:24:01,619 --> 00:24:03,689 if you have a pair of particles 354 00:24:03,689 --> 00:24:05,891 that pop up at the edge of a black hole 355 00:24:05,891 --> 00:24:08,290 and one gets sucked into the black hole, 356 00:24:08,300 --> 00:24:09,760 then the other is forced to become 357 00:24:09,760 --> 00:24:11,630 a real particle in our universe. 358 00:24:11,630 --> 00:24:14,829 In order to do so, it takes energy from the black hole, 359 00:24:14,839 --> 00:24:16,369 and in that mechanism, 360 00:24:16,369 --> 00:24:21,440 black holes very slowly over time lose mass. 361 00:24:21,440 --> 00:24:22,840 With Hawking's work, we see 362 00:24:22,850 --> 00:24:25,580 that the black hole will eventually evaporate, 363 00:24:25,580 --> 00:24:28,949 and that was a complete shift in how to think about black holes. 364 00:24:32,191 --> 00:24:33,850 According to Hawking, 365 00:24:33,860 --> 00:24:36,720 when black holes aren't eating material, 366 00:24:36,720 --> 00:24:42,801 they actually shrink by emitting thermal radiation or heat. 367 00:24:42,801 --> 00:24:44,131 In this process, 368 00:24:44,131 --> 00:24:48,600 a black hole will eventually evaporate completely, 369 00:24:48,600 --> 00:24:52,339 and this creates a problem for scientists. 370 00:24:52,339 --> 00:24:53,869 Everything in the universe, 371 00:24:53,879 --> 00:24:56,811 from atoms to planets to spacecrafts, 372 00:24:56,811 --> 00:25:00,080 carry information about what they're made of, 373 00:25:00,080 --> 00:25:04,879 how fast they're going, and where they've been. 374 00:25:04,889 --> 00:25:06,419 The laws of physics state 375 00:25:06,419 --> 00:25:10,291 that this information can't be lost from the universe, 376 00:25:10,291 --> 00:25:12,890 and that should apply to black holes. 377 00:25:15,230 --> 00:25:17,159 So if an object passes through 378 00:25:17,169 --> 00:25:19,901 the event horizon of a black hole, 379 00:25:19,901 --> 00:25:22,501 all the information about that object 380 00:25:22,501 --> 00:25:25,540 becomes part of the black hole itself. 381 00:25:28,510 --> 00:25:32,449 Once they've fallen in, all you can see is a heavier black hole, 382 00:25:32,449 --> 00:25:35,381 and you don't know what fell in if you weren't watching it. 383 00:25:35,381 --> 00:25:37,920 Well, that doesn't violate the laws of physics, 384 00:25:37,920 --> 00:25:39,990 but if the black hole continues to evaporate, 385 00:25:39,990 --> 00:25:42,319 evaporate, evaporate with thermal radiation 386 00:25:42,319 --> 00:25:43,719 and then disappear, 387 00:25:43,729 --> 00:25:46,131 then all you have afterwards is thermal radiation. 388 00:25:46,131 --> 00:25:48,900 You have no information, even in principle, 389 00:25:48,900 --> 00:25:50,800 about what fell in. 390 00:25:50,800 --> 00:25:53,270 And that information is precisely 391 00:25:53,270 --> 00:25:57,199 what quantum mechanics says can't be lost. 392 00:25:57,209 --> 00:26:00,211 The thermal radiation coming out of the black hole 393 00:26:00,211 --> 00:26:02,280 contains no information. 394 00:26:02,280 --> 00:26:04,410 It's a blank slate. 395 00:26:04,410 --> 00:26:08,009 If this continues until the black hole evaporates, 396 00:26:08,019 --> 00:26:11,481 then all the information is completely lost 397 00:26:11,491 --> 00:26:14,290 when the black hole disappears. 398 00:26:14,290 --> 00:26:17,560 If that information disappears, 399 00:26:17,560 --> 00:26:21,489 then the laws of quantum mechanics are violated. 400 00:26:21,499 --> 00:26:25,471 And we don't know how to solve that paradox yet. 401 00:26:27,100 --> 00:26:30,440 We're trying to combine quantum mechanics and relativity, 402 00:26:30,440 --> 00:26:33,509 and the first time we're able to do it 403 00:26:33,509 --> 00:26:36,641 leads to this giant mess that calls into question 404 00:26:36,651 --> 00:26:39,780 fundamental assumptions about the way the universe works, 405 00:26:39,780 --> 00:26:42,950 so... that's kind of a problem. 406 00:26:44,450 --> 00:26:48,119 The problem is known as the information paradox, 407 00:26:48,119 --> 00:26:52,190 and if scientists are going to find an answer to it, 408 00:26:52,190 --> 00:26:55,130 they'll have to unify their two theories... 409 00:26:55,130 --> 00:26:58,329 General relativity, the rules of the large, 410 00:26:58,329 --> 00:27:03,271 and quantum mechanics, the rules of the tiny. 411 00:27:03,271 --> 00:27:08,210 And so far, that's proved impossible. 412 00:27:08,210 --> 00:27:12,009 I think the single biggest embarrassment in physics 413 00:27:12,009 --> 00:27:14,411 is that we have these two theories... 414 00:27:14,421 --> 00:27:16,821 General relativity describing the big 415 00:27:16,821 --> 00:27:19,690 and quantum mechanics describing the small... 416 00:27:19,690 --> 00:27:22,090 That simply don't get along. 417 00:27:22,090 --> 00:27:24,689 Nature obviously knows what it's doing, 418 00:27:24,689 --> 00:27:29,760 but we just don't have a single, unified explanation. 419 00:27:29,770 --> 00:27:31,230 The past few decades, 420 00:27:31,230 --> 00:27:35,840 as we've tried to describe black holes fully, 421 00:27:35,840 --> 00:27:38,239 the more work we've done, 422 00:27:38,239 --> 00:27:41,441 the more of a tangled mess we get. 423 00:27:41,441 --> 00:27:44,040 It will take at least one brilliant mind 424 00:27:44,050 --> 00:27:45,510 to figure this out. 425 00:27:48,050 --> 00:27:50,579 Maybe someone already has. 426 00:27:50,589 --> 00:27:54,851 The classical black hole has a shell-like event horizon 427 00:27:54,861 --> 00:27:57,520 beyond which nothing can escape. 428 00:27:57,530 --> 00:28:00,130 And according to the information paradox, 429 00:28:00,130 --> 00:28:06,071 information is lost when a black hole evaporates. 430 00:28:06,071 --> 00:28:09,800 But here's a radical, mind-bending idea... 431 00:28:09,810 --> 00:28:14,539 What if black holes have hair? 432 00:28:14,539 --> 00:28:17,741 What Hawking and his collaborators pointed out 433 00:28:17,751 --> 00:28:21,010 is that black holes can have soft hair, 434 00:28:21,020 --> 00:28:22,880 and if that's true, that would be a way 435 00:28:22,880 --> 00:28:24,950 of encapsulating all the information 436 00:28:24,950 --> 00:28:27,949 that went into the black hole. 437 00:28:27,959 --> 00:28:31,961 Scientists propose that these so-called hairs 438 00:28:31,961 --> 00:28:34,030 somehow store the information 439 00:28:34,030 --> 00:28:38,300 of whatever has fallen into the black hole. 440 00:28:38,300 --> 00:28:40,429 The information is then imprinted 441 00:28:40,439 --> 00:28:45,411 on the thermal radiation emitted as the black hole evaporates. 442 00:28:47,640 --> 00:28:53,049 These hairy black holes could solve the information paradox, 443 00:28:53,049 --> 00:28:57,781 but they're entirely theoretical. 444 00:28:57,791 --> 00:28:59,190 These are really new ideas, 445 00:28:59,190 --> 00:29:01,720 and people are still trying to figure them out. 446 00:29:01,720 --> 00:29:03,920 So it's hard to give a really good explanation 447 00:29:03,930 --> 00:29:05,519 of something that is... 448 00:29:05,529 --> 00:29:07,389 This is theory in the making. 449 00:29:07,399 --> 00:29:09,431 People are working this out now. 450 00:29:13,270 --> 00:29:15,540 Solving the information paradox 451 00:29:15,540 --> 00:29:19,139 is pushing science to its limits. 452 00:29:19,139 --> 00:29:21,011 But an even bigger problem 453 00:29:21,011 --> 00:29:24,280 is sitting at the heart of a black hole. 454 00:29:26,350 --> 00:29:29,080 The big problem about the idea of black holes 455 00:29:29,080 --> 00:29:32,419 is that at its center, there's what we call a singularity. 456 00:29:32,419 --> 00:29:36,091 At this singularity, matter has infinite density 457 00:29:36,091 --> 00:29:37,920 and space is infinitely curved. 458 00:29:39,760 --> 00:29:44,299 That's not something that really sounds like physics. 459 00:29:46,371 --> 00:29:49,370 Singularities do not exist in nature, 460 00:29:49,370 --> 00:29:52,910 and when they appear in the mathematics, 461 00:29:52,910 --> 00:29:55,309 that's a signal that you're doing something wrong, 462 00:29:55,309 --> 00:29:57,179 that you're incomplete. 463 00:29:57,179 --> 00:29:59,711 It's like the ultimate curse word, 464 00:29:59,711 --> 00:30:03,720 and mother nature doesn't like it when we curse. 465 00:30:03,720 --> 00:30:08,789 To complete the math and understand black holes, 466 00:30:08,789 --> 00:30:10,119 cosmologists grapple 467 00:30:10,129 --> 00:30:14,190 with one of science's most mind-bending concepts... 468 00:30:14,200 --> 00:30:15,830 Infinity. 469 00:30:38,951 --> 00:30:41,690 Black holes... They're thought to be 470 00:30:41,690 --> 00:30:45,230 a fundamental part of the universe. 471 00:30:45,230 --> 00:30:47,359 But scientists are not only struggling 472 00:30:47,359 --> 00:30:49,501 to explain how they work, 473 00:30:49,501 --> 00:30:53,070 they're struggling to prove they even exist. 474 00:30:55,300 --> 00:30:58,300 So, black holes have some problems. 475 00:30:58,310 --> 00:31:00,969 Every time we try to think of something, 476 00:31:00,979 --> 00:31:03,841 some creative mathematical solution 477 00:31:03,851 --> 00:31:05,910 to describe black holes fully, 478 00:31:05,910 --> 00:31:09,320 it breaks down, and we just can't make any progress. 479 00:31:11,389 --> 00:31:13,189 We can't make reliable predictions, 480 00:31:13,189 --> 00:31:15,261 we can't compare to observations. 481 00:31:15,261 --> 00:31:17,790 What is the solution? 482 00:31:17,790 --> 00:31:19,990 We honestly don't know. 483 00:31:23,400 --> 00:31:24,929 Scientists are finding 484 00:31:24,929 --> 00:31:28,471 that general relativity and quantum mechanics 485 00:31:28,471 --> 00:31:31,200 go haywire at the edge of a black hole. 486 00:31:33,470 --> 00:31:37,679 But inside a black hole, things could be even weirder. 487 00:31:46,750 --> 00:31:49,489 When a giant dying star collapses, 488 00:31:49,489 --> 00:31:53,691 the mass of the star falls in and keeps falling in, 489 00:31:53,691 --> 00:31:56,900 crunching down into an infinitely small point. 490 00:32:02,099 --> 00:32:06,241 This is called the singularity. 491 00:32:06,241 --> 00:32:07,841 A singularity is troubling 492 00:32:07,841 --> 00:32:11,110 because although it sounds cool and scientific, 493 00:32:11,110 --> 00:32:13,050 it's really just a fancy word of saying, 494 00:32:13,050 --> 00:32:16,379 "oh, we have no clue what happens here." 495 00:32:16,379 --> 00:32:19,791 the way our physics describes black holes when they form, 496 00:32:19,791 --> 00:32:22,190 you're taking a finite amount of mass 497 00:32:22,190 --> 00:32:24,460 and you're collapsing it down. 498 00:32:24,460 --> 00:32:27,989 And its volume should shrink all the way to zero, 499 00:32:27,999 --> 00:32:31,661 but that means it has infinite density and infinite gravity, 500 00:32:31,671 --> 00:32:33,331 and that doesn't make sense. 501 00:32:38,270 --> 00:32:41,069 If you make a prediction and the answer is infinite, 502 00:32:41,079 --> 00:32:44,541 it tells you there's something wrong with your prediction, 503 00:32:44,551 --> 00:32:47,780 'cause we've never seen an infinity in the universe today. 504 00:32:51,090 --> 00:32:55,359 Once again, quantum mechanics is at the heart of the problem. 505 00:32:58,760 --> 00:33:00,830 Have you ever thought about the term "quantum mechanics" 506 00:33:00,830 --> 00:33:02,900 and thought about what those words mean? 507 00:33:02,900 --> 00:33:04,300 Well, everything in the universe 508 00:33:04,300 --> 00:33:06,829 is broken up into tiny, little units. 509 00:33:06,829 --> 00:33:11,171 There really is a basic unit of energy, a unit of time, 510 00:33:11,171 --> 00:33:14,640 even a unit of space that cannot be divided any further. 511 00:33:14,640 --> 00:33:17,440 There's a limit to how small things can be. 512 00:33:20,249 --> 00:33:22,851 The smallest unit of space in the universe 513 00:33:22,851 --> 00:33:26,850 is what's known as a Planck length. 514 00:33:26,850 --> 00:33:28,520 If you took a human hair 515 00:33:28,520 --> 00:33:32,059 and blew it up to the width of the observable universe, 516 00:33:32,059 --> 00:33:38,130 one Planck length would be about 1/4000th of an inch. 517 00:33:38,130 --> 00:33:42,470 If there is a universal limit on the smallest size, 518 00:33:42,470 --> 00:33:47,741 then something infinitely small can't exist. 519 00:33:47,741 --> 00:33:50,480 Well, if infinity doesn't exist, then singularities don't exist, 520 00:33:50,480 --> 00:33:52,010 and if singularities don't exist, 521 00:33:52,010 --> 00:33:54,010 then Einstein's theory of general relativity 522 00:33:54,020 --> 00:33:56,279 is not correct. 523 00:33:56,279 --> 00:33:58,079 The simplest thing to do is to say, 524 00:33:58,089 --> 00:34:00,021 "well, let's choose some new equations. 525 00:34:00,021 --> 00:34:02,960 Let's change Einstein's theory of gravity somehow. 526 00:34:02,960 --> 00:34:06,030 Let's invent what we would call exotic speculative physics." 527 00:34:11,631 --> 00:34:15,440 This speculative physics has led scientists to invent 528 00:34:15,440 --> 00:34:18,240 the idea of the Planck star. 529 00:34:23,909 --> 00:34:25,911 If you passed one in space, 530 00:34:25,911 --> 00:34:28,180 it would look just like a black hole. 531 00:34:31,590 --> 00:34:35,719 But a Planck star doesn't have a singularity at its core. 532 00:34:37,731 --> 00:34:39,731 Maybe things can't collapse down 533 00:34:39,731 --> 00:34:42,660 to less than the Planck's length, 534 00:34:42,660 --> 00:34:47,129 that maybe you get stuck with this little Planck-size nugget 535 00:34:47,139 --> 00:34:50,101 that stabilizes things, keeps everything finite. 536 00:34:52,071 --> 00:34:56,280 So, where a singularity is at the center of a black hole, 537 00:34:56,280 --> 00:35:01,149 a Planck-sized nugget is at the center of a Planck star. 538 00:35:03,821 --> 00:35:06,950 A Planck star is just like a black hole, 539 00:35:06,960 --> 00:35:11,689 except it plays by the rules of quantum mechanics. 540 00:35:11,689 --> 00:35:16,701 The problem is, Planck stars are just another exotic theory. 541 00:35:18,970 --> 00:35:22,370 The reason there are so many exotic alternatives 542 00:35:22,370 --> 00:35:25,969 to black holes is because you can write down a gazillion 543 00:35:25,969 --> 00:35:29,371 different postulated, mysterious new kinds of matter 544 00:35:29,381 --> 00:35:32,440 and say, "suppose this kind of weird stuff exists. 545 00:35:32,450 --> 00:35:34,380 Then maybe that could explain the data." 546 00:35:34,380 --> 00:35:35,650 Problem is, there's no evidence 547 00:35:35,650 --> 00:35:37,519 that any of that kind of stuff exists. 548 00:35:44,190 --> 00:35:45,930 Scientists are getting creative 549 00:35:45,930 --> 00:35:50,459 as they try to prove that black holes exist. 550 00:35:50,459 --> 00:35:55,741 They've imagined strange objects and used exotic workarounds. 551 00:35:55,741 --> 00:36:00,010 But one black hole idea is the strangest of all. 552 00:36:00,010 --> 00:36:04,479 What if we are living inside of one? 553 00:36:04,479 --> 00:36:06,351 It would be the most mind-blowing thing ever 554 00:36:06,351 --> 00:36:08,481 if we were actually living inside a black hole. 555 00:36:08,481 --> 00:36:10,480 And the crazy thing is, it could happen. 556 00:36:10,490 --> 00:36:12,290 It could be true. 557 00:36:42,019 --> 00:36:46,650 Black holes are full of theoretical holes. 558 00:36:46,650 --> 00:36:50,660 Scientists say they're out there, but we can't see them. 559 00:36:50,660 --> 00:36:54,989 Math says there's a singularity at a black hole's core, 560 00:36:54,999 --> 00:36:57,901 but in nature, these don't exist. 561 00:36:57,901 --> 00:37:00,930 The rules we use to understand the universe 562 00:37:00,940 --> 00:37:04,400 simply don't seem to apply to black holes. 563 00:37:04,410 --> 00:37:06,809 So where does that leave us? 564 00:37:08,479 --> 00:37:10,811 Maybe a classical black hole 565 00:37:10,811 --> 00:37:13,880 with an event horizon described by general relativity 566 00:37:13,880 --> 00:37:17,280 just isn't the proper description of the physics. 567 00:37:22,491 --> 00:37:24,760 This lack of understanding 568 00:37:24,760 --> 00:37:28,690 opens the door to some outlandish theories 569 00:37:28,700 --> 00:37:31,799 that aim to show black holes can exist. 570 00:37:35,841 --> 00:37:40,240 But one idea stands out as the strangest of them all. 571 00:37:42,710 --> 00:37:44,709 In our understanding of the universe, 572 00:37:44,709 --> 00:37:47,981 there are two places where everything seems to break down. 573 00:37:47,981 --> 00:37:50,380 One is inside the heart of a black hole. 574 00:37:50,390 --> 00:37:53,120 The other is what happened right before the big bang. 575 00:37:53,120 --> 00:37:54,520 And some people have wondered 576 00:37:54,520 --> 00:37:56,459 if these two things could be linked. 577 00:37:59,129 --> 00:38:01,861 It sounds crazy, but there's actually a model 578 00:38:01,861 --> 00:38:03,330 that you could put together 579 00:38:03,330 --> 00:38:06,270 in which all of our observations of the universe 580 00:38:06,270 --> 00:38:08,400 are entirely consistent 581 00:38:08,400 --> 00:38:12,001 with us actually being inside of a black hole. 582 00:38:12,011 --> 00:38:13,811 How would that work? 583 00:38:13,811 --> 00:38:16,340 Well, a black hole is supposed to have 584 00:38:16,340 --> 00:38:19,480 a tiny, dense region at its core 585 00:38:19,480 --> 00:38:23,179 containing trillions and trillions of tons of matter. 586 00:38:25,151 --> 00:38:27,820 There is a theory that as matter is crushed 587 00:38:27,820 --> 00:38:30,360 into the center of a black hole, it actually reaches a point 588 00:38:30,360 --> 00:38:32,960 where it can be crushed no further. 589 00:38:32,960 --> 00:38:36,359 An event like this could, in fact, lead to a big bang. 590 00:38:39,501 --> 00:38:41,970 When the collapsing matter in the black hole 591 00:38:41,970 --> 00:38:44,400 reaches a maximum density... 592 00:38:46,510 --> 00:38:48,239 it bounces back, 593 00:38:48,239 --> 00:38:54,050 expanding outwards in a cataclysmic explosion. 594 00:38:54,050 --> 00:38:58,650 The matter gradually cools over time to form atoms, 595 00:38:58,650 --> 00:39:02,089 building galaxies, stars, and planets. 596 00:39:04,791 --> 00:39:06,990 If that sounds familiar, 597 00:39:06,990 --> 00:39:10,700 it's because it's just like the universe we see today. 598 00:39:13,069 --> 00:39:16,201 This is one idea for how a universe like ours is formed... 599 00:39:16,201 --> 00:39:18,940 That, in fact, we all live inside of a black hole 600 00:39:18,940 --> 00:39:20,940 that was created this way. 601 00:39:20,940 --> 00:39:22,340 Within our galaxy alone, 602 00:39:22,340 --> 00:39:25,209 there are tens of millions of black holes. 603 00:39:25,209 --> 00:39:27,009 And just think... Inside each one of them 604 00:39:27,009 --> 00:39:29,611 could be a baby universe waiting to be born. 605 00:39:29,621 --> 00:39:30,651 That's incredible. 606 00:39:32,490 --> 00:39:35,290 Are we inside of a black hole that exists in a universe 607 00:39:35,290 --> 00:39:38,489 that has other black holes that has other universes 608 00:39:38,489 --> 00:39:40,229 which exists inside of a black hole? 609 00:39:40,229 --> 00:39:43,701 It goes on and on and on ad infinitum. 610 00:39:43,701 --> 00:39:46,900 Once again, this is all theoretical, 611 00:39:46,900 --> 00:39:50,239 but it's a compelling idea. 612 00:39:50,239 --> 00:39:53,841 I mean, are we actually existing inside of a black hole? 613 00:39:53,841 --> 00:39:55,311 I don't know, but, you know, 614 00:39:55,311 --> 00:39:57,510 sometimes when I'm sitting in traffic waiting to get home, 615 00:39:57,510 --> 00:40:00,510 it feels like time is stretched out infinitely. 616 00:40:02,050 --> 00:40:04,049 I don't think that you should lose sleep at night 617 00:40:04,049 --> 00:40:06,721 wondering if we're actually inside of a black hole. 618 00:40:06,721 --> 00:40:08,721 The answer is "probably not." 619 00:40:08,721 --> 00:40:12,260 But because black holes are just pushing at the edge 620 00:40:12,260 --> 00:40:14,730 of what we understand about nature, 621 00:40:14,730 --> 00:40:16,399 they are the perfect illustration 622 00:40:16,399 --> 00:40:18,601 of everything that we don't know about the universe, 623 00:40:18,601 --> 00:40:19,931 and that is a lot. 624 00:40:28,539 --> 00:40:31,139 So, what do we know? 625 00:40:31,139 --> 00:40:32,951 We can't see black holes. 626 00:40:32,951 --> 00:40:37,480 We can only find circumstantial evidence of them. 627 00:40:37,490 --> 00:40:42,419 They violate the laws of physics that predict them. 628 00:40:42,419 --> 00:40:45,761 They may even be hairy. 629 00:40:45,761 --> 00:40:49,430 So, do they actually exist? 630 00:40:54,299 --> 00:40:56,499 So, I will tell you that right now in modern physics, 631 00:40:56,499 --> 00:40:58,571 we have no idea what is going on 632 00:40:58,571 --> 00:41:00,770 inside the heart of a black hole, 633 00:41:00,770 --> 00:41:03,380 whether black holes in the true sense really exist at all, 634 00:41:03,380 --> 00:41:05,910 but the wonderful thing is that physics is now taking us 635 00:41:05,910 --> 00:41:10,721 down paths that we would never have imagined before. 636 00:41:10,721 --> 00:41:14,920 Lack of evidence of how black holes work 637 00:41:14,920 --> 00:41:18,320 is not evidence against the existence of black holes. 638 00:41:18,330 --> 00:41:20,829 It's just evidence of lack of understanding. 639 00:41:23,001 --> 00:41:25,060 If you ask me what I believe, 640 00:41:25,070 --> 00:41:27,070 I'd have to tell you that I don't believe in black holes. 641 00:41:27,070 --> 00:41:29,470 I believe in something which behaves like black holes. 642 00:41:32,939 --> 00:41:36,011 It could be that all the objects in our universe 643 00:41:36,011 --> 00:41:38,680 that we currently identify as black holes 644 00:41:38,680 --> 00:41:40,680 aren't really black holes, 645 00:41:40,680 --> 00:41:43,320 but if I were to bet, I would bet on black holes. 646 00:41:46,149 --> 00:41:48,421 I think they're the simplest explanation. 647 00:41:48,421 --> 00:41:51,560 Yep, they have a lot of problems that we have to resolve, 648 00:41:51,560 --> 00:41:54,030 but I do... I believe in black holes. 649 00:41:56,630 --> 00:41:58,699 Whatever it is that we're seeing, 650 00:41:58,699 --> 00:41:59,971 it smells like a black hole, 651 00:41:59,971 --> 00:42:02,231 walks like a black hole, it quacks like a black hole. 652 00:42:02,241 --> 00:42:03,770 It's a black hole. 653 00:42:06,310 --> 00:42:10,039 Right now, black holes are the best explanation 654 00:42:10,039 --> 00:42:12,379 for what we see out there. 655 00:42:12,379 --> 00:42:15,910 But if we can find a way to unify our theories, 656 00:42:15,920 --> 00:42:18,780 we might finally prove they exist 657 00:42:18,790 --> 00:42:24,489 and discover a whole lot more about how our universe works. 53413