Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:02,650 --> 00:00:05,090 Black holes... 2 00:00:05,090 --> 00:00:10,560 Long considered the bullies of the cosmos, 3 00:00:10,560 --> 00:00:13,500 but are they really so bad? 4 00:00:13,500 --> 00:00:16,630 Black holes aren't violent. They are elegant. 5 00:00:16,630 --> 00:00:18,870 They're incredibly powerful objects, 6 00:00:18,870 --> 00:00:21,970 but they're beautifully simple. 7 00:00:21,970 --> 00:00:24,270 Simple but unpredictable. 8 00:00:24,270 --> 00:00:27,140 Black holes rip planets to shreds, 9 00:00:27,140 --> 00:00:31,650 but they also give birth to stars. 10 00:00:31,650 --> 00:00:33,180 Black holes are like the ultimate 11 00:00:33,180 --> 00:00:36,350 recycling-trash-bin combination. 12 00:00:38,490 --> 00:00:41,120 They build galaxies 13 00:00:41,120 --> 00:00:47,000 and may have lit up the dark infant universe. 14 00:00:47,000 --> 00:00:49,230 It's one of the biggest changes that happened. 15 00:00:49,230 --> 00:00:54,470 Someone switched the lights on and transforms our universe. 16 00:00:54,470 --> 00:00:55,940 They come in all sizes, 17 00:00:55,940 --> 00:00:59,370 from microscopic to ultramassive, 18 00:00:59,380 --> 00:01:03,040 controlling the fate of everything around them. 19 00:01:03,050 --> 00:01:05,410 The story of the universe and how it's arranged 20 00:01:05,420 --> 00:01:07,780 is the story of black holes. 21 00:01:07,780 --> 00:01:12,090 Black holes are the master architects of the universe, 22 00:01:12,090 --> 00:01:15,620 and without them, we would not exist. 23 00:01:15,630 --> 00:01:18,630 ... Captions by vitac... www.vitac.com 24 00:01:18,630 --> 00:01:21,660 captions paid for by discovery communications 25 00:01:35,850 --> 00:01:37,510 Black holes... 26 00:01:37,510 --> 00:01:41,680 We're riveted by their destructive power. 27 00:01:41,690 --> 00:01:44,420 Black holes are dangerous. 28 00:01:44,420 --> 00:01:45,890 Black holes are hazards. 29 00:01:45,890 --> 00:01:51,190 Black holes are not friendly for their environments. 30 00:01:51,190 --> 00:01:53,360 There's just no good end to anything 31 00:01:53,360 --> 00:01:55,260 that falls into a black hole. 32 00:01:55,270 --> 00:01:57,770 Perhaps one of the most frightening objects 33 00:01:57,770 --> 00:02:00,740 in the universe. 34 00:02:00,740 --> 00:02:04,610 But what exactly are these scary objects? 35 00:02:04,610 --> 00:02:06,910 Black holes are created when you get enough matter 36 00:02:06,910 --> 00:02:09,540 in a small region of space. 37 00:02:09,550 --> 00:02:12,080 This happens when a massive star dies 38 00:02:12,080 --> 00:02:15,550 and collapses in on itself... 39 00:02:19,260 --> 00:02:21,020 ...a supernova. 40 00:02:24,230 --> 00:02:28,030 A black hole is the ultimate consequence of gravity. 41 00:02:28,030 --> 00:02:30,300 It's an object that has so much mass 42 00:02:30,300 --> 00:02:33,740 crushed into such a small space that its escape velocity 43 00:02:33,740 --> 00:02:35,870 becomes greater than the speed of light. 44 00:02:40,310 --> 00:02:43,950 They are a one-way street. 45 00:02:43,950 --> 00:02:45,480 You go in. 46 00:02:45,480 --> 00:02:47,720 Nothing escapes, not even light. 47 00:02:50,950 --> 00:02:55,620 But do black holes really deserve their bad rap? 48 00:02:55,630 --> 00:02:57,460 In some ways, I think we set up black holes 49 00:02:57,460 --> 00:02:59,330 to be more villains than they actually are. 50 00:02:59,330 --> 00:03:02,960 Black holes suffer a bit of a P.R. Problem. 51 00:03:02,970 --> 00:03:05,270 I think they're a lot more menacing in science fiction 52 00:03:05,270 --> 00:03:07,800 and popular media than they really are. 53 00:03:13,410 --> 00:03:16,480 There are trillions of galaxies in the known universe. 54 00:03:18,450 --> 00:03:21,720 And most of them have a supermassive black hole 55 00:03:21,720 --> 00:03:23,450 at their center. 56 00:03:27,560 --> 00:03:32,460 These monsters are millions of times the mass of our sun. 57 00:03:32,460 --> 00:03:36,430 Their immense gravity can send stars flying. 58 00:03:36,430 --> 00:03:38,730 They're instrumental in choreographing 59 00:03:38,740 --> 00:03:41,140 the dance of stars in their vicinity. 60 00:03:43,710 --> 00:03:46,270 Supermassive black holes shoot out torrents 61 00:03:46,280 --> 00:03:51,080 of lethal radiation and violent cosmic winds 62 00:03:51,080 --> 00:03:55,620 and gobble up anything that comes close. 63 00:03:55,620 --> 00:04:00,420 Now scientists are beginning to realize these cosmic giants 64 00:04:00,420 --> 00:04:03,190 may also have a creative side. 65 00:04:05,730 --> 00:04:07,100 Most people think of black holes 66 00:04:07,100 --> 00:04:09,060 as being like giant vacuum cleaners in space, 67 00:04:09,070 --> 00:04:11,230 and basically everything falls into them, 68 00:04:11,230 --> 00:04:13,470 but that's not actually the case. 69 00:04:13,470 --> 00:04:18,540 They're better thought of as the engines of cosmic change. 70 00:04:18,540 --> 00:04:22,540 Although black holes are the end states of stars, 71 00:04:22,550 --> 00:04:26,380 they can actually influence the formation of stars, 72 00:04:26,380 --> 00:04:29,980 as well, in a bunch of different ways. 73 00:04:29,990 --> 00:04:33,920 A galaxy's job is to make stars, 74 00:04:33,920 --> 00:04:38,060 but uncontrolled star growth isn't healthy. 75 00:04:38,060 --> 00:04:42,660 Too many stars can drain a galaxy's gas supply. 76 00:04:42,670 --> 00:04:45,330 Black holes are very important. 77 00:04:45,340 --> 00:04:50,810 It appears that galaxy evolution is tied to black-hole evolution. 78 00:04:50,810 --> 00:04:53,240 We don't know exactly how yet, 79 00:04:53,240 --> 00:04:58,550 but the marriage appears certain. 80 00:04:58,550 --> 00:05:02,920 One idea is that supermassive black holes 81 00:05:02,920 --> 00:05:06,990 act as cosmic control mechanisms. 82 00:05:06,990 --> 00:05:09,860 Black holes can act like a thermostat in your house. 83 00:05:09,860 --> 00:05:11,930 If your house gets too hot, 84 00:05:11,930 --> 00:05:14,360 the thermostat will kick on the air conditioner, 85 00:05:14,360 --> 00:05:17,300 and if it gets too cold, it'll kick on the heater. 86 00:05:17,300 --> 00:05:21,170 Black holes do the same things for galaxies. 87 00:05:21,170 --> 00:05:24,610 Supermassive black holes regulate star formation 88 00:05:24,610 --> 00:05:30,880 by pulling gas in and shooting it back out into the galaxy. 89 00:05:30,880 --> 00:05:33,210 When these black holes are consuming matter, 90 00:05:33,220 --> 00:05:35,080 they're drawing matter into themselves, 91 00:05:35,090 --> 00:05:38,220 but they're also spewing stuff out. 92 00:05:38,220 --> 00:05:41,820 Basically, black holes eat like little babies... 93 00:05:41,830 --> 00:05:43,320 Very sloppily, 94 00:05:43,330 --> 00:05:47,330 so a lot of what they eat comes flying back out again. 95 00:05:47,330 --> 00:05:49,460 They eat stars. They eat planets. 96 00:05:49,470 --> 00:05:53,270 But most often, they eat giant clouds of gas. 97 00:05:53,270 --> 00:05:55,340 The black hole drags gas and dust 98 00:05:55,340 --> 00:05:58,010 into an accretion disk around it. 99 00:05:58,010 --> 00:06:02,080 This disk spins faster and faster. 100 00:06:02,080 --> 00:06:05,480 Magnetic energy builds up. 101 00:06:05,480 --> 00:06:08,250 With the accretion disk swirling around the black hole, 102 00:06:08,250 --> 00:06:10,850 there are also magnetic fields that are going on. 103 00:06:10,850 --> 00:06:12,520 The material is moving so rapidly 104 00:06:12,520 --> 00:06:15,960 that the magnetic field sort of winds up, coils up, 105 00:06:15,960 --> 00:06:17,760 and forms a vortex like a tornado. 106 00:06:17,760 --> 00:06:19,630 Astronomers call them jets. 107 00:06:26,240 --> 00:06:28,740 These jets propagate outward like freight trains 108 00:06:28,740 --> 00:06:30,440 plowing through the galaxy 109 00:06:30,440 --> 00:06:34,080 over hundreds and thousands of light-years. 110 00:06:34,080 --> 00:06:37,550 These are like death rays. 111 00:06:37,550 --> 00:06:40,780 The jets disrupt the star-forming gas clouds, 112 00:06:40,780 --> 00:06:45,490 limiting excess star formation in the main body of the galaxy, 113 00:06:45,490 --> 00:06:48,560 but in the very outer reaches of the galaxy, 114 00:06:48,560 --> 00:06:52,130 they can spark star birth. 115 00:06:52,130 --> 00:06:53,530 Things are more gentle out there. 116 00:06:53,530 --> 00:06:55,800 You're not as close to the energetic heart, 117 00:06:55,800 --> 00:06:58,870 so stars, planets, and life can form out there 118 00:06:58,870 --> 00:07:00,700 partially because of the material 119 00:07:00,700 --> 00:07:03,600 that the black hole has moved out there. 120 00:07:03,610 --> 00:07:08,380 So black holes can have outsize influence 121 00:07:08,380 --> 00:07:10,850 on the regions that they inhabit. 122 00:07:10,850 --> 00:07:15,420 Right around them, they can prevent the formation of stars 123 00:07:15,420 --> 00:07:18,250 whereas, on very, very large scales, 124 00:07:18,250 --> 00:07:22,260 they can actually instigate the formation of stars. 125 00:07:26,230 --> 00:07:30,230 2018... black holes hit the front page. 126 00:07:35,940 --> 00:07:38,810 Scientists discovered black holes gobbling up gas 127 00:07:38,810 --> 00:07:44,880 so fast that they seem to be outgrowing their host galaxies. 128 00:07:44,880 --> 00:07:47,850 It naturally makes the question come up... 129 00:07:47,850 --> 00:07:51,090 How big can a black hole get? 130 00:07:51,090 --> 00:07:53,190 Now we have the answer. 131 00:07:53,190 --> 00:07:56,460 They can reach size triple-XL, 132 00:07:56,460 --> 00:08:00,090 becoming ultramassive black holes. 133 00:08:14,840 --> 00:08:16,840 Ultramassive black holes are so cool 134 00:08:16,850 --> 00:08:19,150 because it's just mind-boggling 135 00:08:19,150 --> 00:08:22,550 that black holes so large can exist. 136 00:08:22,550 --> 00:08:24,990 Ultramassive black holes are very rare 137 00:08:24,990 --> 00:08:28,990 and typically have masses of more than 10 billion times 138 00:08:28,990 --> 00:08:30,830 the mass of the sun. 139 00:08:30,830 --> 00:08:33,690 10 billion solar masses... 140 00:08:33,700 --> 00:08:37,730 That's a 10 followed by nine zeros. 141 00:08:37,730 --> 00:08:41,440 Ultramassive black holes are real beasts. 142 00:08:41,440 --> 00:08:43,400 The black hole at the center of our galaxy 143 00:08:43,410 --> 00:08:45,440 is 4 million solar masses. 144 00:08:45,440 --> 00:08:49,510 Imagine black holes that are 2,500 times bigger. 145 00:08:49,510 --> 00:08:51,410 That's what we're talking about here. 146 00:08:54,950 --> 00:08:57,920 An ultramassive black hole this big 147 00:08:57,920 --> 00:09:00,860 would be as wide as the solar system... 148 00:09:02,890 --> 00:09:06,990 ...and weigh as much as all the stars in the milky way. 149 00:09:09,730 --> 00:09:12,600 They're inside galaxies that aren't a whole lot bigger. 150 00:09:12,600 --> 00:09:17,040 That really surprised the hell out of everybody. 151 00:09:17,040 --> 00:09:20,370 And in 2018, scientists discover 152 00:09:20,380 --> 00:09:25,110 a 20-billion-solar-mass ultramassive black hole 153 00:09:25,110 --> 00:09:28,180 growing faster than any other black hole. 154 00:09:30,850 --> 00:09:35,290 This ravenous behemoth devours the mass of our sun 155 00:09:35,290 --> 00:09:37,020 every two days. 156 00:09:39,230 --> 00:09:41,230 These big black holes are really good 157 00:09:41,230 --> 00:09:43,630 at gobbling up other things. 158 00:09:43,630 --> 00:09:45,270 They'll literally eat anything. 159 00:09:45,270 --> 00:09:48,440 They're monsters of the universe. 160 00:09:48,440 --> 00:09:50,470 This kind of voracious eating 161 00:09:50,470 --> 00:09:54,110 can have devastating consequences. 162 00:09:54,110 --> 00:09:58,610 It blasts so much energy and turbulence into the galaxy 163 00:09:58,620 --> 00:10:02,520 that stars no longer form, 164 00:10:02,520 --> 00:10:07,320 and the bigger the black hole, the faster the galaxy dies. 165 00:10:07,320 --> 00:10:09,890 The primary thing these ultramassive black holes 166 00:10:09,890 --> 00:10:13,230 do to galaxies is they shut down all star formation, 167 00:10:13,230 --> 00:10:16,000 and so in that sense, they kind of kill galaxies. 168 00:10:16,000 --> 00:10:17,430 And so these things 169 00:10:17,430 --> 00:10:21,700 could even wipe out their host galaxies. 170 00:10:21,700 --> 00:10:26,520 Ultramassive black holes are a problem for scientists, too. 171 00:10:26,530 --> 00:10:30,540 They might be the fastest eaters, 172 00:10:30,550 --> 00:10:35,720 but that doesn't explain how they got so large. 173 00:10:35,720 --> 00:10:37,520 With these ultramassive black holes, 174 00:10:37,520 --> 00:10:40,350 these black holes that are 10s of billions of times 175 00:10:40,360 --> 00:10:43,060 more massive than our sun, you can't just grow them 176 00:10:43,060 --> 00:10:45,530 from the slow accretion of gas over time. 177 00:10:45,530 --> 00:10:47,030 There's just not enough gas, 178 00:10:47,030 --> 00:10:48,760 and there's just not enough time. 179 00:10:51,230 --> 00:10:53,130 It gives us a new mystery to solve. 180 00:10:53,140 --> 00:10:55,540 How do you make black holes that are just that big? 181 00:10:55,540 --> 00:10:57,910 There's not a clear answer so far 182 00:10:57,910 --> 00:11:01,580 as to how these ultramassive black holes were formed. 183 00:11:01,580 --> 00:11:03,840 People wonder if there's some other mechanism 184 00:11:03,850 --> 00:11:06,210 by which you could make black holes. 185 00:11:06,220 --> 00:11:08,950 A mechanism so violent it also throws 186 00:11:08,950 --> 00:11:13,320 supermassive black holes clean out of galaxies. 187 00:11:30,000 --> 00:11:33,070 We now know that ultramassive black holes 188 00:11:33,070 --> 00:11:37,180 billions of times the mass of the sun exist, 189 00:11:37,180 --> 00:11:42,280 but we have no idea how they got so big. 190 00:11:42,280 --> 00:11:44,580 We've detected lightweight stellar-mass 191 00:11:44,590 --> 00:11:47,420 black holes colliding. 192 00:11:47,420 --> 00:11:51,420 They merged into a new larger black hole 193 00:11:51,430 --> 00:11:53,730 and generated huge amounts of energy. 194 00:11:57,970 --> 00:12:01,670 But what about supermassive black holes? 195 00:12:01,670 --> 00:12:02,940 When galaxies merge, 196 00:12:02,940 --> 00:12:05,300 their central supermassive black holes 197 00:12:05,310 --> 00:12:08,570 will fall to the center of the newly formed galaxy. 198 00:12:10,910 --> 00:12:13,410 Could these supermassive black holes 199 00:12:13,410 --> 00:12:15,610 caught up in galactic mergers 200 00:12:15,620 --> 00:12:20,020 combine to form an ultramassive black hole? 201 00:12:26,660 --> 00:12:30,130 In 2017, the Hubble space telescope spotted 202 00:12:30,130 --> 00:12:36,200 something strange in a distant galaxy called 3c186. 203 00:12:38,270 --> 00:12:41,740 It detected an incredibly bright spot 204 00:12:41,740 --> 00:12:46,380 thousands of light-years from the galaxy center. 205 00:12:46,380 --> 00:12:50,650 Scientists suspect it's a quasar. 206 00:12:50,650 --> 00:12:54,920 A quasar is an incredibly bright, active galactic nucleus 207 00:12:54,920 --> 00:12:57,320 that's powered by a supermassive black hole. 208 00:13:00,560 --> 00:13:03,830 We regularly spot black-hole-powered quasars, 209 00:13:03,830 --> 00:13:07,330 but always at the centers of galaxies, 210 00:13:07,330 --> 00:13:10,300 until now. 211 00:13:10,300 --> 00:13:12,740 When we actually got this data from Hubble, 212 00:13:12,740 --> 00:13:15,040 we were absolutely stunned to discover 213 00:13:15,040 --> 00:13:17,340 that the quasar that we've long known to exist 214 00:13:17,340 --> 00:13:20,680 in the center of this galaxy wasn't actually at the center. 215 00:13:20,680 --> 00:13:23,280 This black hole is offset from the center of the galaxy 216 00:13:23,280 --> 00:13:25,620 by about 35,000 light-years. 217 00:13:25,620 --> 00:13:27,290 That's really weird. 218 00:13:27,290 --> 00:13:30,790 What is an incredibly rare and bizarre event 219 00:13:30,790 --> 00:13:33,360 to find a quasar, a supermassive black hole, 220 00:13:33,360 --> 00:13:36,630 that is not at the center of the galaxy. 221 00:13:36,630 --> 00:13:38,660 When scientists looked closer, 222 00:13:38,670 --> 00:13:42,770 they discovered that the quasar is hurtling through space 223 00:13:42,770 --> 00:13:46,240 away from the center of the galaxy. 224 00:13:46,240 --> 00:13:47,970 Now, mind you, this is a black hole 225 00:13:47,980 --> 00:13:51,080 with the mass of about a billion times the sun, 226 00:13:51,080 --> 00:13:55,780 and it's screaming away at 4 million miles an hour. 227 00:13:55,780 --> 00:13:57,150 This black hole, 228 00:13:57,150 --> 00:13:59,690 which was probably originally in the galaxy center, 229 00:13:59,690 --> 00:14:02,620 has somehow been shot out at high velocity 230 00:14:02,620 --> 00:14:05,490 by some incredibly violent event. 231 00:14:05,490 --> 00:14:07,890 It's hard to imagine what kind of event 232 00:14:07,900 --> 00:14:11,130 would pump that much energy into such a huge object 233 00:14:11,130 --> 00:14:14,270 to shoot it away from the center of a galaxy. 234 00:14:14,270 --> 00:14:18,300 Who kicked it out, how, and why? 235 00:14:18,310 --> 00:14:20,840 Scientists have an idea. 236 00:14:20,840 --> 00:14:24,940 3c186 may be the remnant of a galaxy merger. 237 00:14:24,950 --> 00:14:28,250 The merged galaxies' supermassive black holes 238 00:14:28,250 --> 00:14:30,720 circle each other, 239 00:14:30,720 --> 00:14:35,320 sending out blasts of energy in the form of gravitational waves. 240 00:14:38,960 --> 00:14:42,130 Gravitational waves are all around us. 241 00:14:42,130 --> 00:14:46,570 They're ripples in the fabric of space-time. 242 00:14:46,570 --> 00:14:48,570 Every time mass moves, 243 00:14:48,570 --> 00:14:50,640 gravitational waves are produced, 244 00:14:50,640 --> 00:14:55,240 so if I wave my hand, I am making gravitational waves. 245 00:14:55,240 --> 00:15:00,280 A hand produces imperceptible waves. 246 00:15:00,280 --> 00:15:01,780 When objects as huge 247 00:15:01,780 --> 00:15:05,620 as supermassive black holes collide, 248 00:15:05,620 --> 00:15:09,020 the energy released as gravitational waves 249 00:15:09,020 --> 00:15:12,360 is phenomenal. 250 00:15:12,360 --> 00:15:14,430 Scientists think these black holes 251 00:15:14,430 --> 00:15:17,830 might have been different sizes. 252 00:15:17,830 --> 00:15:19,800 It's possible that if one of the black holes 253 00:15:19,800 --> 00:15:20,930 is really massive 254 00:15:20,940 --> 00:15:22,830 and the other one isn't quite as massive, 255 00:15:22,840 --> 00:15:25,470 that when they spiral around and merge, 256 00:15:25,470 --> 00:15:28,940 they send out gravitational waves in an asymmetric way. 257 00:15:35,580 --> 00:15:38,680 This asymmetry has a catastrophic effect. 258 00:15:41,620 --> 00:15:44,190 As the two black holes collide and merge, 259 00:15:44,190 --> 00:15:47,660 they shoot out a huge blast of gravitational waves, 260 00:15:47,660 --> 00:15:50,100 but only in one direction. 261 00:15:52,300 --> 00:15:56,470 This blast of energy kicks the newly combined black hole 262 00:15:56,470 --> 00:15:59,710 out of the galactic center. 263 00:15:59,710 --> 00:16:03,610 Think of a shotgun recoil, but supersized. 264 00:16:05,780 --> 00:16:08,210 And there's so much energy in that emission 265 00:16:08,220 --> 00:16:09,650 that it acts like a rocket, 266 00:16:09,650 --> 00:16:12,780 and it actually pushes the merged black hole away. 267 00:16:12,790 --> 00:16:14,950 It would have been one of the most energetic events 268 00:16:14,960 --> 00:16:16,820 ever witnessed. 269 00:16:16,820 --> 00:16:18,390 They're so energetic, 270 00:16:18,390 --> 00:16:21,730 they are literally shaking the fabric of space. 271 00:16:25,330 --> 00:16:28,700 We didn't witness the actual collision, 272 00:16:28,700 --> 00:16:32,070 but 3c186 could be evidence 273 00:16:32,070 --> 00:16:37,210 that supermassive black holes can collide and merge, 274 00:16:37,210 --> 00:16:41,310 building even larger black holes. 275 00:16:41,320 --> 00:16:43,850 This would be a mechanism by which you would create, 276 00:16:43,850 --> 00:16:47,220 ultimately, an ultramassive black hole. 277 00:16:47,220 --> 00:16:49,390 As for the ejected black hole, 278 00:16:49,390 --> 00:16:52,360 the gravitational recoil sent it 279 00:16:52,360 --> 00:16:56,190 on a one-way ride to oblivion. 280 00:16:56,200 --> 00:17:00,430 So gravitational waves kicked this supermassive black hole 281 00:17:00,430 --> 00:17:02,430 and sent it flying through space. 282 00:17:02,440 --> 00:17:07,310 In 20 million years, it's expected to exit its galaxy. 283 00:17:07,310 --> 00:17:10,010 The ejected supermassive black hole 284 00:17:10,010 --> 00:17:12,640 may eventually hit another galaxy 285 00:17:12,650 --> 00:17:16,350 and merge with its supermassive black hole. 286 00:17:22,290 --> 00:17:24,160 These largest of black holes 287 00:17:24,160 --> 00:17:26,990 seem to throw their weight around, 288 00:17:26,990 --> 00:17:31,860 bullying galaxies and other black holes. 289 00:17:31,870 --> 00:17:36,130 Now researchers have discovered a vampire black hole 290 00:17:36,140 --> 00:17:39,600 that's draining the lifeblood of its neighbor. 291 00:18:00,600 --> 00:18:02,570 Ultramassive black holes 292 00:18:02,570 --> 00:18:05,440 seem to destroy their galaxies, 293 00:18:05,440 --> 00:18:11,110 while supermassive black holes seem to regulate star formation. 294 00:18:11,110 --> 00:18:15,780 But are all supermassive black holes forces for good? 295 00:18:21,190 --> 00:18:25,660 Hundreds of galaxies surround the milky way, 296 00:18:25,660 --> 00:18:28,790 large and small, 297 00:18:28,790 --> 00:18:34,100 but most of the largest galaxies are red. 298 00:18:34,100 --> 00:18:36,170 This is not a good omen. 299 00:18:36,170 --> 00:18:39,640 In space, red means danger. 300 00:18:41,810 --> 00:18:43,910 If you have active ongoing star birth, 301 00:18:43,910 --> 00:18:45,240 then you have massive stars, 302 00:18:45,240 --> 00:18:47,080 and massive stars tend to be blue, 303 00:18:47,080 --> 00:18:49,510 but they don't live very long, and they blow up. 304 00:18:53,420 --> 00:18:55,850 Once you stop star formation, after some amount of time, 305 00:18:55,850 --> 00:18:59,560 the galaxy turns red. 306 00:18:59,560 --> 00:19:01,260 The only stars left alive 307 00:19:01,260 --> 00:19:07,160 are small, long-lived red stars called red dwarfs. 308 00:19:07,170 --> 00:19:10,630 A red galaxy with only red dwarfs 309 00:19:10,640 --> 00:19:14,040 is a dying galaxy. 310 00:19:14,040 --> 00:19:17,670 The Sloan digital sky survey found an entire population 311 00:19:17,680 --> 00:19:20,780 of these luminous red galaxies 312 00:19:20,780 --> 00:19:23,180 that were no longer forming stars 313 00:19:23,180 --> 00:19:24,310 that were dead. 314 00:19:27,220 --> 00:19:31,890 One galaxy around 340 million light-years away stood out. 315 00:19:35,660 --> 00:19:40,630 It was named after a Japanese anime character, Akira. 316 00:19:40,630 --> 00:19:42,230 It's very red. 317 00:19:42,230 --> 00:19:44,730 All the stars in it are red, and that means they're old, 318 00:19:44,740 --> 00:19:46,270 so we know that Akira has not had 319 00:19:46,270 --> 00:19:48,740 any active star formation in a long time. 320 00:19:51,580 --> 00:19:53,540 The Akira galaxy doesn't form stars 321 00:19:53,550 --> 00:19:55,980 because it doesn't have the cool, calm gas 322 00:19:55,980 --> 00:19:57,350 needed to build them. 323 00:19:59,520 --> 00:20:03,120 Something is heating the gas, making it turbulent. 324 00:20:05,090 --> 00:20:07,460 One of the ways in which a black hole can drive 325 00:20:07,460 --> 00:20:09,960 the evolution of the galaxy in which it resides 326 00:20:09,960 --> 00:20:13,500 is by simply powering a wind. 327 00:20:13,500 --> 00:20:16,900 These are winds that are literally driven by light. 328 00:20:19,710 --> 00:20:21,240 When a black hole feeds, 329 00:20:21,240 --> 00:20:26,010 it drags gas into an accretion disk. 330 00:20:26,010 --> 00:20:29,510 The disk heats up and gives off light radiation. 331 00:20:31,880 --> 00:20:35,550 The radiation pressure from the accretion disk around this black hole 332 00:20:35,550 --> 00:20:37,850 couples to the ambient gas and dust 333 00:20:37,860 --> 00:20:42,190 and pushes it outwards at very high velocity. 334 00:20:42,190 --> 00:20:46,030 These winds that are driven out by the black hole 335 00:20:46,030 --> 00:20:49,870 essentially warm up the gas in the galaxy, 336 00:20:49,870 --> 00:20:52,500 preventing further star formation. 337 00:20:54,610 --> 00:20:58,240 However, whatever's fueling the black hole in Akira 338 00:20:58,240 --> 00:21:00,110 is a mystery. 339 00:21:00,110 --> 00:21:03,050 Here's a weird thing... There is an outflow, 340 00:21:03,050 --> 00:21:05,120 a wind coming out of this galaxy, 341 00:21:05,120 --> 00:21:07,150 and that means there's gas feeding 342 00:21:07,150 --> 00:21:10,220 that black hole in the center, and it's blowing it out. 343 00:21:10,220 --> 00:21:13,820 Where is this gas coming from? 344 00:21:13,830 --> 00:21:16,790 Ah, it's stealing it. 345 00:21:16,800 --> 00:21:20,600 It has a small companion galaxy, which is nicknamed Tetsuo, 346 00:21:20,600 --> 00:21:22,330 and that has gas in it. 347 00:21:25,170 --> 00:21:29,370 Akira's supermassive black hole pulls gas from Tetsuo 348 00:21:29,370 --> 00:21:32,180 and drags it into the center of the galaxy. 349 00:21:35,050 --> 00:21:38,280 The black hole is taking the gas from this companion galaxy, 350 00:21:38,280 --> 00:21:40,050 and that's what's falling around the black hole 351 00:21:40,050 --> 00:21:41,750 and creating this wind, 352 00:21:41,750 --> 00:21:44,390 so Akira is actually sort of a dead galaxy, 353 00:21:44,390 --> 00:21:47,620 but it's being rejuvenated by its companion, Tetsuo. 354 00:21:51,160 --> 00:21:52,960 Like a cosmic vampire, 355 00:21:52,960 --> 00:21:57,730 Akira's supermassive black hole feeds off Tetsuo. 356 00:22:00,170 --> 00:22:04,740 The black hole drags gas and dust into its accretion disk, 357 00:22:04,740 --> 00:22:08,750 which spins faster and faster. 358 00:22:08,750 --> 00:22:11,010 When these particles are rubbing against each other, 359 00:22:11,020 --> 00:22:13,320 well, that generates friction. 360 00:22:13,320 --> 00:22:15,690 Friction may not seem like that big of a deal. 361 00:22:15,690 --> 00:22:17,053 I mean, you can rub your hands together 362 00:22:17,060 --> 00:22:18,720 on a cold day to get warm, 363 00:22:18,720 --> 00:22:20,290 but imagine rubbing your hands together 364 00:22:20,290 --> 00:22:22,630 at very nearly the speed of light. 365 00:22:22,630 --> 00:22:24,230 How much friction is that gonna generate? 366 00:22:24,230 --> 00:22:27,260 It's gonna make a lot of heat. 367 00:22:27,270 --> 00:22:31,570 Over a million degrees Fahrenheit... 368 00:22:31,570 --> 00:22:35,440 So hot the accretion disk lights up. 369 00:22:38,280 --> 00:22:41,780 Its temperature goes up, and he starts emitting light. 370 00:22:41,780 --> 00:22:44,710 It becomes incredibly bright. 371 00:22:44,720 --> 00:22:46,750 Even though there's a black hole in the core, 372 00:22:46,750 --> 00:22:52,120 its surroundings are intensely bright. 373 00:22:52,120 --> 00:22:54,460 This heats up the surrounding gas, 374 00:22:54,460 --> 00:22:56,430 generating a hot wind, 375 00:22:56,430 --> 00:23:01,700 which extends thousands of light-years from the black hole. 376 00:23:01,700 --> 00:23:04,700 And those winds carry with them a lot of energy, 377 00:23:04,700 --> 00:23:08,340 and that energy, if it couples to the gas in the galaxy, 378 00:23:08,340 --> 00:23:10,270 can blow that gas out. 379 00:23:10,280 --> 00:23:12,680 They inject energy into nearby gas clouds 380 00:23:12,680 --> 00:23:17,410 and heat them up and prevent them from forming stars. 381 00:23:17,420 --> 00:23:20,980 Stars don't form... The galaxy dies. 382 00:23:23,560 --> 00:23:27,160 These dying galaxies are called red geysers. 383 00:23:30,730 --> 00:23:34,060 Scientists think around 10% of the red galaxies 384 00:23:34,070 --> 00:23:37,270 we see around us died this way... 385 00:23:39,500 --> 00:23:42,640 ...heated up by this galactic warming. 386 00:23:45,340 --> 00:23:48,310 We think that the source of some of this galactic warming 387 00:23:48,310 --> 00:23:51,110 is in the growth of supermassive black holes themselves 388 00:23:51,120 --> 00:23:53,480 because when you grow a supermassive black hole, 389 00:23:53,490 --> 00:23:57,020 you must liberate an enormous amount of energy. 390 00:23:57,020 --> 00:23:59,620 You can't grow a black hole for free, 391 00:23:59,620 --> 00:24:03,430 and that energy gets dumped back into the ambient surroundings 392 00:24:03,430 --> 00:24:05,460 and keeps this halo of gas hot. 393 00:24:05,460 --> 00:24:08,300 It prevents it from cooling and forming stars. 394 00:24:11,740 --> 00:24:13,600 Sagittarius a-star, 395 00:24:13,610 --> 00:24:17,140 the supermassive black hole at the heart of our galaxy, 396 00:24:17,140 --> 00:24:21,710 the milky way, could turn into a red geyser. 397 00:24:21,710 --> 00:24:24,810 If you were suddenly to dump an enormous amount of gas 398 00:24:24,820 --> 00:24:26,650 onto Sagittarius a-star, 399 00:24:26,650 --> 00:24:29,450 you could have what is effectively a red-geyser effect, 400 00:24:29,450 --> 00:24:33,460 a very powerful wind driven by all of this energy. 401 00:24:37,660 --> 00:24:40,200 Star formation would stop, 402 00:24:40,200 --> 00:24:45,000 and our milky way would become another dying red galaxy. 403 00:24:49,940 --> 00:24:53,910 Now new research suggests that Sagittarius a-star 404 00:24:53,910 --> 00:24:58,010 has already affected the inner region of our galaxy, 405 00:24:58,020 --> 00:24:59,950 not by killing stars, 406 00:24:59,950 --> 00:25:05,520 but by transforming planets from gas giants into super-earths. 407 00:25:25,800 --> 00:25:27,530 At the center of our galaxy 408 00:25:27,530 --> 00:25:32,500 lies a supermassive black hole, Sagittarius a-star. 409 00:25:35,610 --> 00:25:40,440 We think it's calm, dormant, safe. 410 00:25:40,450 --> 00:25:42,550 Relative to other supermassive black holes 411 00:25:42,550 --> 00:25:46,020 in the universe, ours is relatively quiet. 412 00:25:46,020 --> 00:25:48,750 It's been active in the past, 413 00:25:48,760 --> 00:25:52,190 and it could flare up in the future. 414 00:25:52,190 --> 00:25:54,460 It could be active tomorrow, for all we know. 415 00:25:54,460 --> 00:25:56,130 All you need to do to light it up 416 00:25:56,130 --> 00:25:58,260 is start dumping some gas on it, 417 00:25:58,260 --> 00:26:00,900 and there is almost certainly a giant cloud of gas 418 00:26:00,900 --> 00:26:02,400 that we don't currently know of 419 00:26:02,400 --> 00:26:04,570 on its way to the center of our galaxy, 420 00:26:04,570 --> 00:26:06,540 and it will find itself one day in the vicinity 421 00:26:06,540 --> 00:26:08,170 of our supermassive black hole, 422 00:26:08,170 --> 00:26:11,840 and it will start to light up like a Christmas tree. 423 00:26:11,840 --> 00:26:16,150 In February of 2018, scientists at Harvard 424 00:26:16,150 --> 00:26:21,050 simulated Sagittarius a-star during a feeding frenzy 425 00:26:21,050 --> 00:26:25,560 to understand the impact of an active supermassive black hole 426 00:26:25,560 --> 00:26:27,120 on its local environment. 427 00:26:30,830 --> 00:26:32,000 They found that, 428 00:26:32,000 --> 00:26:35,270 as Sagittarius a-star gobbled up gas and dust, 429 00:26:35,270 --> 00:26:41,070 it belched out bright flares of high-energy radiation, 430 00:26:41,070 --> 00:26:46,080 which radically affected the region around the black hole. 431 00:26:46,080 --> 00:26:48,680 The environment near the center of a galaxy 432 00:26:48,680 --> 00:26:51,150 that has an actively feeding black hole 433 00:26:51,150 --> 00:26:54,090 is the worst place in the universe. 434 00:26:54,090 --> 00:26:56,020 You've got this tremendous object 435 00:26:56,020 --> 00:26:59,590 which is heating up this gas to millions of degrees. 436 00:26:59,590 --> 00:27:02,060 This is no place that you want to be. 437 00:27:05,000 --> 00:27:07,000 The model revealed what would happen 438 00:27:07,000 --> 00:27:10,570 to any planets in the line of fire. 439 00:27:10,570 --> 00:27:11,640 Think about being in the way 440 00:27:11,640 --> 00:27:14,070 of one of these black-hole burps. 441 00:27:14,070 --> 00:27:16,610 All of a sudden, there's a tremendous wind of radiation 442 00:27:16,610 --> 00:27:18,310 that comes through your solar system. 443 00:27:18,310 --> 00:27:21,250 That could actually strip away the outer layers of gas 444 00:27:21,250 --> 00:27:22,780 of a planet like Neptune. 445 00:27:25,420 --> 00:27:26,850 The high-energy radiation 446 00:27:26,850 --> 00:27:29,050 from the supermassive black holes 447 00:27:29,060 --> 00:27:33,420 would hit the gas planets and heat up their atmospheres. 448 00:27:33,430 --> 00:27:36,130 Maybe this would actually strip away the outer layers, 449 00:27:36,130 --> 00:27:38,260 leaving the solid material in the middle. 450 00:27:38,260 --> 00:27:40,430 You could actually turn a gas-giant planet 451 00:27:40,430 --> 00:27:42,470 into a terrestrial solid planet 452 00:27:42,470 --> 00:27:46,200 all because you're close to a black hole. 453 00:27:46,210 --> 00:27:50,910 This radiation strips away the gas, leaving the core, 454 00:27:50,910 --> 00:27:54,280 now a new rocky planet 455 00:27:54,280 --> 00:27:58,180 but a giant one... A super-earth. 456 00:27:58,180 --> 00:28:00,120 Normally, you think of rocky planets 457 00:28:00,120 --> 00:28:01,890 being about the size of the earth, 458 00:28:01,890 --> 00:28:06,020 but this would be a way of making so called super-earths. 459 00:28:06,030 --> 00:28:08,090 Super-earths are one of the most common 460 00:28:08,090 --> 00:28:12,100 type of planets discovered in our galaxy. 461 00:28:12,100 --> 00:28:14,430 It's possible that any super-earths 462 00:28:14,430 --> 00:28:16,870 close to Sagittarius a-star 463 00:28:16,870 --> 00:28:19,970 were created by these blasts of energy. 464 00:28:24,180 --> 00:28:26,380 Away from our galactic center, 465 00:28:26,380 --> 00:28:29,850 a much smaller stellar-mass black hole 466 00:28:29,850 --> 00:28:33,350 is also radically transforming its environment. 467 00:28:36,260 --> 00:28:38,890 January 2017... 468 00:28:38,890 --> 00:28:41,990 Researchers discover something strange 469 00:28:41,990 --> 00:28:46,700 in a cloud of gas called W44. 470 00:28:46,700 --> 00:28:48,730 W44 is a supernova remnant. 471 00:28:48,730 --> 00:28:53,900 It's the debris... the expanding cloud from a star that blew up. 472 00:28:53,910 --> 00:28:58,080 The explosive shock wave from a supernova 473 00:28:58,080 --> 00:29:01,810 pushes gas and dust out from the dead star, 474 00:29:01,810 --> 00:29:05,480 forming a huge nebula. 475 00:29:05,490 --> 00:29:06,950 We see a lot of these. 476 00:29:06,950 --> 00:29:09,490 I mean, they're catastrophic, amazing, incredible events, 477 00:29:09,490 --> 00:29:10,620 but as far as they go, 478 00:29:10,620 --> 00:29:13,720 this one appears to be pretty standard, 479 00:29:13,730 --> 00:29:15,990 except for one weird thing. 480 00:29:16,000 --> 00:29:17,130 In the heart of it, 481 00:29:17,130 --> 00:29:19,060 there's something very mysterious going on. 482 00:29:19,070 --> 00:29:21,200 There seems to be something shooting out 483 00:29:21,200 --> 00:29:23,730 of the very center of this explosion. 484 00:29:29,680 --> 00:29:32,640 A thin protrusion trillions of miles long 485 00:29:32,650 --> 00:29:36,780 streams out from the cloud. 486 00:29:36,780 --> 00:29:39,380 It's moving at over 60 miles a second 487 00:29:39,390 --> 00:29:42,890 against the flow of the galaxy. 488 00:29:42,890 --> 00:29:45,260 It's very strange that it's moving backwards 489 00:29:45,260 --> 00:29:47,730 against the rotation of the milky way. 490 00:29:47,730 --> 00:29:51,430 When you see a giant, giant, very massive cloud of gas 491 00:29:51,430 --> 00:29:54,030 that is moving counter to the rotation of the milky way, 492 00:29:54,030 --> 00:29:56,000 it needed to be like a bullet from a gun 493 00:29:56,000 --> 00:29:59,540 fired against a headwind in the opposite direction. 494 00:29:59,540 --> 00:30:00,800 So what is that gun? 495 00:30:00,810 --> 00:30:05,010 You know, what fired that bullet of gas? 496 00:30:05,010 --> 00:30:07,510 The tip of the bullet cloud is expanding 497 00:30:07,510 --> 00:30:09,910 at 75 miles a second. 498 00:30:09,920 --> 00:30:12,880 That's 270,000 miles an hour, 499 00:30:12,890 --> 00:30:17,150 over 150 times faster than a bullet. 500 00:30:17,160 --> 00:30:20,990 What in the cosmos has the power to accelerate gas 501 00:30:20,990 --> 00:30:23,660 to such high speed? 502 00:30:23,660 --> 00:30:25,500 Could that actually be a black hole 503 00:30:25,500 --> 00:30:28,600 moving very, very quickly? 504 00:30:28,600 --> 00:30:31,700 Researchers think a stellar-mass black hole 505 00:30:31,700 --> 00:30:33,400 hidden in the bullet cloud 506 00:30:33,410 --> 00:30:36,210 is powering the movement of the gas. 507 00:30:36,210 --> 00:30:38,610 Gravity from this black hole is incredibly strong, 508 00:30:38,610 --> 00:30:40,540 and so it will latch onto this gas cloud 509 00:30:40,550 --> 00:30:42,080 as it passes through it, 510 00:30:42,080 --> 00:30:45,380 and it can completely disrupt the motions of this cloud. 511 00:30:45,380 --> 00:30:47,790 This is a very interesting stream of gas 512 00:30:47,790 --> 00:30:50,320 that's somehow connected to a black hole, 513 00:30:50,320 --> 00:30:51,660 and we don't know whether it's there 514 00:30:51,660 --> 00:30:53,720 because the black hole is moving through the gas, 515 00:30:53,730 --> 00:30:55,330 and it's creating a wake, 516 00:30:55,330 --> 00:30:57,490 or whether somehow this black hole 517 00:30:57,500 --> 00:31:02,100 is spitting out a stream of material in some way. 518 00:31:02,100 --> 00:31:04,030 The black hole could be dragging gas 519 00:31:04,040 --> 00:31:07,140 into an accretion disk around it. 520 00:31:07,140 --> 00:31:09,370 The gas heats up and expands, 521 00:31:09,380 --> 00:31:15,610 giving the initial supernova explosion, W44, an extra kick, 522 00:31:15,620 --> 00:31:20,080 driving this bullet-like cloud out in front of it. 523 00:31:20,090 --> 00:31:23,790 Or the black hole could be racing away from the nebula, 524 00:31:23,790 --> 00:31:27,190 dragging the gas behind it like a wake. 525 00:31:33,430 --> 00:31:37,970 Ultramassive, supermassive, and stellar-mass black holes 526 00:31:37,970 --> 00:31:41,670 all play a role in shaping the cosmos, 527 00:31:41,670 --> 00:31:44,880 but there may be another type of black hole 528 00:31:44,880 --> 00:31:49,180 even more dangerous than the rest... 529 00:31:49,180 --> 00:31:51,950 A microscopic black hole. 530 00:32:15,800 --> 00:32:18,830 We have so far detected triple-XL 531 00:32:18,840 --> 00:32:24,240 ultramassive black holes, large supermassive black holes, 532 00:32:24,240 --> 00:32:28,540 medium-sized intermediate black holes, 533 00:32:28,550 --> 00:32:32,310 and small stellar-mass black holes. 534 00:32:32,320 --> 00:32:36,490 Now scientists have another to add to the roster... 535 00:32:36,490 --> 00:32:39,220 Microscopic black holes. 536 00:32:39,220 --> 00:32:40,860 We know there are supermassive black holes 537 00:32:40,860 --> 00:32:42,720 at the centers of galaxies. 538 00:32:42,730 --> 00:32:45,290 We know there are star-sized black holes 539 00:32:45,300 --> 00:32:46,630 from the deaths of stars. 540 00:32:46,630 --> 00:32:48,360 That's what we know for sure. 541 00:32:48,370 --> 00:32:50,970 It's possible there are much smaller black holes, 542 00:32:50,970 --> 00:32:54,040 microscopically small black holes. 543 00:32:54,040 --> 00:32:57,310 Microscopic black holes are virtually invisible 544 00:32:57,310 --> 00:32:58,840 to the naked eye, 545 00:32:58,840 --> 00:33:04,780 but magnified, they look like regular stellar-mass black holes 546 00:33:04,780 --> 00:33:07,080 the definition of a black hole 547 00:33:07,080 --> 00:33:09,420 is an object that has so much mass 548 00:33:09,420 --> 00:33:12,850 crushed into such a small space that its escape velocity 549 00:33:12,860 --> 00:33:14,990 becomes greater than the speed of light, 550 00:33:14,990 --> 00:33:17,460 so it could be something the size of a star, 551 00:33:17,460 --> 00:33:18,990 the size of a galaxy. 552 00:33:19,000 --> 00:33:22,100 It could also be the mass of a planet. 553 00:33:22,100 --> 00:33:25,130 If you could crush the earth down far enough, 554 00:33:25,140 --> 00:33:27,740 it could become a black hole. 555 00:33:27,740 --> 00:33:28,970 The density of a black hole 556 00:33:28,970 --> 00:33:30,440 is something that the human brain 557 00:33:30,440 --> 00:33:32,510 really doesn't wrap itself around very easily. 558 00:33:32,510 --> 00:33:34,940 When you think about something the size of the earth, 559 00:33:34,950 --> 00:33:37,610 how small would the earth have to be to be a black hole? 560 00:33:37,610 --> 00:33:40,120 And the answer is something on the order of a marble. 561 00:33:40,120 --> 00:33:41,920 So think about taking the entire earth 562 00:33:41,920 --> 00:33:44,620 and compressing it down to the size of just a marble. 563 00:33:46,990 --> 00:33:51,630 So where do these strange little black holes come from? 564 00:33:51,630 --> 00:33:54,930 These very small black holes can only be formed 565 00:33:54,930 --> 00:34:01,240 in the exotic conditions of the incredibly early universe. 566 00:34:01,240 --> 00:34:04,240 Our universe might get flooded with these small black holes 567 00:34:04,240 --> 00:34:09,240 that simply persist to the present day. 568 00:34:09,250 --> 00:34:10,710 It's the only time in the history of the universe 569 00:34:10,710 --> 00:34:12,510 where you could take a small amount of matter 570 00:34:12,520 --> 00:34:14,020 and crush it down so tightly 571 00:34:14,020 --> 00:34:15,780 that it could become a black hole. 572 00:34:15,790 --> 00:34:17,890 Those conditions don't exist anymore, 573 00:34:17,890 --> 00:34:21,560 so if these things exist, they would be primordial. 574 00:34:21,560 --> 00:34:24,130 They would be as old as the universe itself. 575 00:34:30,300 --> 00:34:33,670 These primordial black holes may be ancient, 576 00:34:33,670 --> 00:34:36,810 but they still pack a punch. 577 00:34:36,810 --> 00:34:38,410 When it comes to black holes, 578 00:34:38,410 --> 00:34:42,380 the smaller black holes are actually more dangerous 579 00:34:42,380 --> 00:34:44,510 because their mass is concentrated 580 00:34:44,520 --> 00:34:47,180 into such a small volume. 581 00:34:47,180 --> 00:34:51,620 In fact, a tiny black hole would be lethal. 582 00:34:51,620 --> 00:34:55,090 If it were to pass in front of me, very quickly, 583 00:34:55,090 --> 00:34:58,790 almost instantly, I would be ripped apart head to toe, 584 00:34:58,800 --> 00:35:03,530 stretched into a long, thin stream of fundamental particles 585 00:35:03,530 --> 00:35:06,330 that would then wind their way into the black hole. 586 00:35:06,340 --> 00:35:12,140 It would actively feast on me in a matter of seconds. 587 00:35:12,140 --> 00:35:15,580 But if Paul or an interstellar robotic probe 588 00:35:15,580 --> 00:35:17,880 visited a supermassive black hole 589 00:35:17,880 --> 00:35:20,420 or even an ultramassive black hole, 590 00:35:20,420 --> 00:35:25,150 they wouldn't be immediately ripped to shreds. 591 00:35:25,160 --> 00:35:27,320 One of the most fun questions about black holes is, 592 00:35:27,320 --> 00:35:29,220 how close could you get to a black hole 593 00:35:29,230 --> 00:35:31,460 before the gravity would rip you apart? 594 00:35:31,460 --> 00:35:34,630 And that actually depends on the volume of the black hole. 595 00:35:34,630 --> 00:35:39,030 If the black hole is very large, you could get very, very close. 596 00:35:39,040 --> 00:35:40,570 The more massive they are, 597 00:35:40,570 --> 00:35:43,810 the slightly softer they are in how they tear things apart, 598 00:35:43,810 --> 00:35:45,970 so a supermassive black hole, actually... 599 00:35:45,980 --> 00:35:48,140 You can cross within the event horizon 600 00:35:48,150 --> 00:35:50,580 and not really notice it. 601 00:35:50,580 --> 00:35:52,110 You're never gonna get back out, 602 00:35:52,120 --> 00:35:54,180 but you won't necessarily be stretched to your death 603 00:35:54,180 --> 00:35:55,920 while you cross inside. 604 00:35:58,660 --> 00:36:01,820 So a probe could visit a supermassive black hole 605 00:36:01,830 --> 00:36:03,590 and not be destroyed... 606 00:36:05,900 --> 00:36:08,330 ...until it crossed the event horizon 607 00:36:08,330 --> 00:36:10,670 and traveled deep inside. 608 00:36:12,740 --> 00:36:15,370 Then it would be torn to pieces. 609 00:36:17,770 --> 00:36:23,580 But microscopic black holes are currently just a theory. 610 00:36:23,580 --> 00:36:26,880 Microscopic black holes have been the focus 611 00:36:26,880 --> 00:36:29,150 for some researchers for many years, 612 00:36:29,150 --> 00:36:30,690 but currently there's no evidence 613 00:36:30,690 --> 00:36:32,820 to support their existence. 614 00:36:35,590 --> 00:36:38,890 Microscopic primordial black holes may or may not 615 00:36:38,900 --> 00:36:41,460 have been around since the big bang. 616 00:36:43,770 --> 00:36:48,200 Now scientists have discovered supermassive black holes 617 00:36:48,210 --> 00:36:51,410 from the very early universe. 618 00:36:51,410 --> 00:36:56,480 They're shedding light on one of the most mysterious eras, 619 00:36:56,480 --> 00:36:59,080 the cosmic dark ages. 620 00:37:16,800 --> 00:37:20,470 Black holes don't just shape the universe now. 621 00:37:20,470 --> 00:37:24,470 They've been shaping it from almost the dawn of time. 622 00:37:26,470 --> 00:37:29,180 Scientists think black holes may have triggered 623 00:37:29,180 --> 00:37:32,310 one of the universe's greatest transformations... 624 00:37:32,310 --> 00:37:37,320 Turning from dark and foggy to transparent and light. 625 00:37:44,890 --> 00:37:46,430 At the beginning of time, 626 00:37:46,430 --> 00:37:50,600 the universe was a tiny ball of super-hot energy... 627 00:37:50,600 --> 00:37:53,600 The big bang. 628 00:37:53,600 --> 00:37:57,540 Shortly after our big bang, our universe was shining bright 629 00:37:57,540 --> 00:38:01,610 because it was full of hot, glowing gas. 630 00:38:01,610 --> 00:38:05,310 Then it cooled off and entered the so-called dark ages 631 00:38:05,310 --> 00:38:09,720 until eventually something lit it up again. 632 00:38:09,720 --> 00:38:12,350 It's one of the biggest changes that happened in our universe. 633 00:38:12,350 --> 00:38:17,660 Someone switched the lights on and transformed the universe. 634 00:38:17,660 --> 00:38:19,030 During the dark ages, 635 00:38:19,030 --> 00:38:22,900 the universe was blanketed in a thick fog. 636 00:38:22,900 --> 00:38:25,060 Then something lit it up 637 00:38:25,070 --> 00:38:29,470 in a process called reionization. 638 00:38:29,470 --> 00:38:31,040 We still don't really know for sure 639 00:38:31,040 --> 00:38:35,510 whether reionization was mainly caused by young stars 640 00:38:35,510 --> 00:38:39,980 or whether it was mainly black holes that ate stuff 641 00:38:39,980 --> 00:38:42,420 and spewed out a bunch of radiation. 642 00:38:45,320 --> 00:38:48,650 Then in December of 2017, 643 00:38:48,660 --> 00:38:53,190 researchers in Chile scan a region of space so far away 644 00:38:53,190 --> 00:38:58,330 it takes light 13 billion years to reach us. 645 00:38:58,330 --> 00:39:03,240 They spot an object from just 690 million years 646 00:39:03,240 --> 00:39:04,770 after the big bang 647 00:39:04,770 --> 00:39:10,510 when the universe was only 5% of its current age. 648 00:39:10,510 --> 00:39:16,880 It's called quasar J1342+0928. 649 00:39:19,950 --> 00:39:22,520 The thing that's so amazing about this farthest quasar 650 00:39:22,520 --> 00:39:27,130 is we may actually have seen the boundary of these dark ages. 651 00:39:27,130 --> 00:39:31,230 This particular supermassive black hole/quasar tells us 652 00:39:31,230 --> 00:39:35,400 something about the formation of the early universe. 653 00:39:35,400 --> 00:39:38,440 It's thought that quasars helped drag the universe 654 00:39:38,440 --> 00:39:40,410 out of the dark ages. 655 00:39:40,410 --> 00:39:43,010 They gobbled up so much hydrogen gas 656 00:39:43,010 --> 00:39:46,850 and belched out jets of energy 657 00:39:46,850 --> 00:39:49,380 and cleared up the fog. 658 00:39:49,380 --> 00:39:52,180 Those jets could have actually put so much energy 659 00:39:52,190 --> 00:39:55,420 into the universe that it made it clear again. 660 00:39:55,420 --> 00:39:57,420 We may actually be seeing the moment 661 00:39:57,430 --> 00:40:00,930 where something punches through this boundary of the dark ages. 662 00:40:05,330 --> 00:40:07,730 Pockets of reionization opened up 663 00:40:07,740 --> 00:40:10,640 throughout the early universe. 664 00:40:10,640 --> 00:40:14,740 They came in different sizes, depending on what created them. 665 00:40:17,410 --> 00:40:19,380 While our universe was being reionized, 666 00:40:19,380 --> 00:40:21,410 there was kind of, like, all these holes 667 00:40:21,420 --> 00:40:23,520 that kept growing. 668 00:40:23,520 --> 00:40:27,820 If the reionization was made by a large number of little stars, 669 00:40:27,820 --> 00:40:29,860 you would have many, many small holes, 670 00:40:29,860 --> 00:40:32,760 much like a sponge, 671 00:40:32,760 --> 00:40:36,060 whereas if you had a small number 672 00:40:36,060 --> 00:40:37,560 of monster black holes doing it, 673 00:40:37,570 --> 00:40:41,870 you'd have a lot of big holes, like in Swiss cheese. 674 00:40:46,770 --> 00:40:50,010 At present, we can't measure the ionized pockets 675 00:40:50,010 --> 00:40:53,080 to determine if it was stars or black holes 676 00:40:53,080 --> 00:40:55,110 that lit up the early universe. 677 00:40:55,120 --> 00:40:58,250 Perhaps it was both... 678 00:40:58,250 --> 00:41:02,250 Black holes and stars working together. 679 00:41:07,860 --> 00:41:09,960 The more we investigate black holes, 680 00:41:09,960 --> 00:41:11,960 the more we learn about their role 681 00:41:11,970 --> 00:41:14,270 as architects of the universe. 682 00:41:23,240 --> 00:41:25,880 I think scientists of my generation are very lucky 683 00:41:25,880 --> 00:41:31,620 to be able to be at the beginning of this revolution. 684 00:41:31,620 --> 00:41:34,720 We used to portray black holes as monsters. 685 00:41:34,720 --> 00:41:37,320 Now we know that, without them, 686 00:41:37,330 --> 00:41:40,160 the universe would be a very different place. 687 00:41:40,160 --> 00:41:42,060 They made life possible. 688 00:41:42,060 --> 00:41:45,830 Without black holes, we probably wouldn't exist. 689 00:41:45,830 --> 00:41:47,000 We're discovering 690 00:41:47,000 --> 00:41:50,370 just how black holes shaped the universe, 691 00:41:50,370 --> 00:41:56,440 but the more we learn, the more questions they pose. 692 00:41:56,440 --> 00:41:58,580 I've spent my career studying black holes, 693 00:41:58,580 --> 00:42:02,080 and I want to spend the rest of my career studying black holes, 694 00:42:02,080 --> 00:42:05,420 and I guarantee you that, at the end of my career, 695 00:42:05,420 --> 00:42:08,050 on the day I retire, I will probably have 696 00:42:08,060 --> 00:42:11,560 more questions about black holes than I do today. 697 00:42:13,960 --> 00:42:15,730 This is an incredibly exciting time 698 00:42:15,730 --> 00:42:17,330 for black-hole science. 699 00:42:17,330 --> 00:42:19,200 Who knows what we're gonna discover? 700 00:42:19,250 --> 00:42:23,800 Repair and Synchronization by Easy Subtitles Synchronizer 1.0.0.0 56228