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These are the user uploaded subtitles that are being translated: 1 00:00:03,637 --> 00:00:07,631 Narrator: Billions and billions of galaxies -- 2 00:00:07,641 --> 00:00:11,441 the universe is so vast, we can't even imagine 3 00:00:11,445 --> 00:00:13,106 what those numbers mean. 4 00:00:13,113 --> 00:00:20,816 But 14 billion years ago, none of it existed... 5 00:00:20,821 --> 00:00:24,223 until the Big Bang. 6 00:00:24,225 --> 00:00:28,287 The Big Bang is the origin of space 7 00:00:28,295 --> 00:00:30,992 and the origin of time itself. 8 00:00:30,998 --> 00:00:34,901 Narrator: We take a journey through space and time, 9 00:00:34,902 --> 00:00:38,532 from the beginning to the end of the universe itself. 10 00:00:53,988 --> 00:01:01,452 This is our world. 11 00:01:01,595 --> 00:01:07,125 Cities... forests... 12 00:01:07,134 --> 00:01:10,900 oceans... people -- 13 00:01:10,905 --> 00:01:14,500 everything in the universe is made from matter 14 00:01:14,508 --> 00:01:18,706 created in the first seconds of the Big Bang... 15 00:01:27,087 --> 00:01:34,790 ...every star, every planet, every atom, every blade of 16 00:01:34,795 --> 00:01:39,255 grass, every drop of water. 17 00:01:39,266 --> 00:01:40,700 Water is ancient. 18 00:01:40,701 --> 00:01:44,831 The hydrogen atoms in here were born moments after the Big Bang. 19 00:01:44,838 --> 00:01:48,706 Then came everything else. 20 00:01:48,709 --> 00:01:52,839 Narrator: The Big Bang is the defining event 21 00:01:52,846 --> 00:01:56,373 of our universe... and everything in it. 22 00:02:01,822 --> 00:02:07,886 The secrets of our past, our present, and our future are 23 00:02:07,895 --> 00:02:13,425 locked inside this one moment in time. 24 00:02:13,434 --> 00:02:17,996 To unlock the secrets of the Big Bang, we have to travel outside 25 00:02:18,005 --> 00:02:20,702 of our own solar system... 26 00:02:20,708 --> 00:02:29,480 And journey beyond even our own galaxy. 27 00:02:29,483 --> 00:02:34,614 As we travel into deep space, we're actually seeing into 28 00:02:34,622 --> 00:02:40,959 the past... and getting closer to being able to witness 29 00:02:40,961 --> 00:02:44,124 the dawn of time itself. 30 00:02:44,131 --> 00:02:51,299 Passing the first infant galaxies and the first stars... 31 00:02:51,305 --> 00:02:55,867 We arrive back at the moment the universe began and face 32 00:02:55,876 --> 00:03:03,613 the biggest questions in all of science. 33 00:03:03,751 --> 00:03:06,880 This is the Holy Grail of physics. 34 00:03:06,887 --> 00:03:09,254 We want to know why it banged. 35 00:03:09,256 --> 00:03:10,519 We want to know what banged. 36 00:03:10,524 --> 00:03:14,586 We want to know what was there before the bang. 37 00:03:14,728 --> 00:03:18,187 Narrator: To get the answers, we've built machines the size of 38 00:03:18,198 --> 00:03:20,997 cities to simulate conditions 39 00:03:21,001 --> 00:03:24,528 when the universe was created... 40 00:03:24,538 --> 00:03:34,812 And space telescopes to peer deep into our past. 41 00:03:34,948 --> 00:03:39,545 We are getting close to answering the age-old questions, 42 00:03:39,553 --> 00:03:40,884 "Why are we here? 43 00:03:40,888 --> 00:03:43,880 Where did we come from?" 44 00:03:44,024 --> 00:03:48,359 Does the universe in fact have a beginning or an end? 45 00:03:48,362 --> 00:03:52,265 And, if so, what are they like? 46 00:03:52,266 --> 00:03:56,828 If we find the answer to that, it would be the ultimate triumph 47 00:03:56,837 --> 00:03:58,669 of human reason. 48 00:03:58,672 --> 00:04:01,607 We would know the Mind of God. 49 00:04:09,917 --> 00:04:13,581 Narrator: The origin of the Big Bang is the greatest mystery 50 00:04:13,587 --> 00:04:16,386 of all time. 51 00:04:16,390 --> 00:04:20,623 And the more we learn, the deeper the mystery becomes. 52 00:04:20,627 --> 00:04:23,756 Dr. Kaku: We like to think that our universe is unique. 53 00:04:23,764 --> 00:04:25,562 However, now we're not so sure. 54 00:04:25,566 --> 00:04:30,732 Perhaps there is a multiverse of universes. 55 00:04:30,871 --> 00:04:35,433 Dr. Krauss: Another possibility is that our Big Bang is just one of many 56 00:04:35,442 --> 00:04:38,434 Big Bangs, but it may be one of just an infinite number 57 00:04:38,445 --> 00:04:39,105 of universes. 58 00:04:39,113 --> 00:04:41,844 And there may be other regions in that infinite number of 59 00:04:41,849 --> 00:04:47,549 universes where a Big Bang is just happening today. 60 00:04:47,688 --> 00:04:50,851 Narrator: But there's only one universe we're sure of, and 61 00:04:50,858 --> 00:04:58,788 understanding this one is hard enough. 62 00:04:58,799 --> 00:05:03,498 Since the late 1920s, everything we know about how our universe 63 00:05:03,504 --> 00:05:06,496 works has been turned upside down. 64 00:05:06,507 --> 00:05:09,704 Dr. Krauss: It's important to realize how much our picture of the universe 65 00:05:09,710 --> 00:05:11,974 has changed in the last century. 66 00:05:11,979 --> 00:05:14,471 At the beginning of the 20th century, the conventional 67 00:05:14,481 --> 00:05:18,679 wisdom in science was that the universe was static and eternal. 68 00:05:18,685 --> 00:05:22,622 Narrator: In 1929, that all changed. 69 00:05:22,623 --> 00:05:26,355 At the Mount Wilson observatory above Los Angeles, astronomer 70 00:05:26,360 --> 00:05:31,594 Edwin Hubble discovered galaxies aren't stuck in one place. 71 00:05:31,598 --> 00:05:35,535 Not only are they moving, but they're flying away from Earth 72 00:05:35,536 --> 00:05:40,303 at incredible speeds. 73 00:05:40,307 --> 00:05:47,543 This was the first real evidence of the Big Bang. 74 00:05:47,548 --> 00:05:50,609 All galaxies on average are moving away from us, and, 75 00:05:50,617 --> 00:05:53,951 stranger still, those that were twice as far away were moving 76 00:05:53,954 --> 00:05:54,944 twice as fast. 77 00:05:54,955 --> 00:05:58,619 And those that were three times as far away were moving 78 00:05:58,625 --> 00:06:00,252 three times as fast, and so on. 79 00:06:00,260 --> 00:06:02,820 Everything was moving away from us. 80 00:06:02,830 --> 00:06:06,061 Narrator: It became known as Hubble's Law. 81 00:06:06,066 --> 00:06:10,469 His discovery is still the starting point for exploration 82 00:06:10,470 --> 00:06:12,370 of the Big Bang. 83 00:06:12,372 --> 00:06:15,865 What Hubble convincingly demonstrated, by seeing the 84 00:06:15,876 --> 00:06:22,111 motion of those galaxies, is that the universe is expanding. 85 00:06:22,115 --> 00:06:25,449 Narrator: Theoretically, an expanding universe must have 86 00:06:25,452 --> 00:06:30,652 started from a single point. 87 00:06:30,657 --> 00:06:34,093 By measuring how fast the universe is expanding, 88 00:06:34,094 --> 00:06:37,860 astronomers calculated backwards and figured out when 89 00:06:37,865 --> 00:06:39,924 it burst into life. 90 00:06:39,933 --> 00:06:43,301 People ask the question, "How do you know that 91 00:06:43,303 --> 00:06:46,705 the universe is 13.7 billion years old? 92 00:06:46,707 --> 00:06:49,574 I mean, smarty-pants, you weren't there 93 00:06:49,576 --> 00:06:51,510 13.7 billion years ago." 94 00:06:51,511 --> 00:06:54,674 Well, when you watch television on videotape, you hit the stop 95 00:06:54,681 --> 00:06:57,651 button when you see an explosion, and you can run it 96 00:06:57,651 --> 00:07:01,110 backwards and see when it actually took place. 97 00:07:01,121 --> 00:07:03,453 The same thing takes place with cosmology. 98 00:07:03,457 --> 00:07:06,688 We can run the videotape backwards and then calculate 99 00:07:06,693 --> 00:07:10,288 when it all came from a cosmic explosion. 100 00:07:14,668 --> 00:07:18,434 Narrator: You don't have to be an astronomer 101 00:07:18,438 --> 00:07:20,770 to look back in time. 102 00:07:20,774 --> 00:07:24,938 If you gaze up at the night sky, you're seeing stars that are 103 00:07:24,945 --> 00:07:29,280 millions of light-years away, meaning it took the light from 104 00:07:29,283 --> 00:07:32,651 those stars millions of years to get here. 105 00:07:32,653 --> 00:07:37,682 So if you look far enough, you should be able to see 106 00:07:37,691 --> 00:07:43,061 the beginning of the universe. 107 00:07:43,063 --> 00:07:46,192 Named for the groundbreaking astronomer, the Hubble Space 108 00:07:46,199 --> 00:07:51,638 Telescope allows us to look deep into the universe, back in time, 109 00:07:51,638 --> 00:07:56,599 and closer to the moment of the Big Bang. 110 00:07:56,610 --> 00:08:00,843 But for scientists, winding back the clock to the Big Bang 111 00:08:00,847 --> 00:08:07,412 was only the first step. 112 00:08:07,421 --> 00:08:09,890 Dr. Kaku: When people first hear about the Big Bang theory, they say, 113 00:08:09,890 --> 00:08:11,119 well, where did it take place? 114 00:08:11,124 --> 00:08:12,182 It took place over there. 115 00:08:12,192 --> 00:08:13,216 It took place over there. 116 00:08:13,226 --> 00:08:14,955 Where did it take place? 117 00:08:14,962 --> 00:08:18,899 Actually, it took place everywhere, because the universe 118 00:08:18,899 --> 00:08:22,631 itself was extremely small at that time. 119 00:08:26,606 --> 00:08:29,041 Narrator: These are only some of the most abstract and 120 00:08:29,042 --> 00:08:31,374 difficult concepts there are. 121 00:08:31,378 --> 00:08:32,846 So here's a mind-bender. 122 00:08:32,846 --> 00:08:35,406 What came before the Big Bang? 123 00:08:35,415 --> 00:08:38,680 The philosophers in ancient times used to say how could 124 00:08:38,685 --> 00:08:40,346 something arise from nothing? 125 00:08:40,354 --> 00:08:44,188 And what's amazing to me is that the laws of physics 126 00:08:44,191 --> 00:08:45,590 allow that to happen. 127 00:08:45,592 --> 00:08:48,562 And it means that our whole universe, everything we see, 128 00:08:48,562 --> 00:08:51,793 everything that matters to us today, could have arisen out of 129 00:08:51,798 --> 00:08:54,597 precisely nothing. 130 00:08:54,601 --> 00:08:57,161 Narrator: It's one of the biggest hurdles to understanding 131 00:08:57,170 --> 00:08:58,228 the Big Bang. 132 00:08:58,238 --> 00:09:02,106 First you have to buy into the premise that something was 133 00:09:02,109 --> 00:09:04,737 created out of nothing. 134 00:09:04,745 --> 00:09:07,942 It's impossible to describe the moment of creation 135 00:09:07,948 --> 00:09:09,006 in human language. 136 00:09:09,016 --> 00:09:13,249 All we know is that from what may have been nothing, we go to 137 00:09:13,253 --> 00:09:19,693 a state of... almost infinite density and infinite temperature 138 00:09:19,693 --> 00:09:24,324 and infinite violence. 139 00:09:24,331 --> 00:09:27,289 Narrator: Understanding how nothing turned into something 140 00:09:27,300 --> 00:09:32,363 may be the greatest mystery of our universe. 141 00:09:32,372 --> 00:09:36,969 But if you understand that, you start to understand the 142 00:09:36,977 --> 00:09:40,607 Big Bang, when time and space began, 143 00:09:40,614 --> 00:09:44,175 and the great big explosion created everything. 144 00:09:57,664 --> 00:10:00,395 Narrator: At the dawn of time, the universe explodes into 145 00:10:00,400 --> 00:10:05,634 existence from absolutely nothing into everything. 146 00:10:05,639 --> 00:10:10,839 But everything is actually a single point, infinitely small, 147 00:10:10,844 --> 00:10:16,476 unimaginably hot, a super-dense speck of pure energy. 148 00:10:16,616 --> 00:10:23,579 The Big Bang was so immense that it brought into existence 149 00:10:23,590 --> 00:10:28,084 all of the mass and all of the energy contained in all of the 150 00:10:28,095 --> 00:10:32,521 400 billion galaxies we see in our universe in a region smaller 151 00:10:32,532 --> 00:10:35,467 than the size of a single atom. 152 00:10:35,602 --> 00:10:38,537 The entire observable universe was a millionth of a billionth 153 00:10:38,538 --> 00:10:40,472 of a centimeter across at that time. 154 00:10:40,474 --> 00:10:44,877 Everything was compressed into an incredibly hot, dense region. 155 00:10:44,878 --> 00:10:48,508 Narrator: It's not even matter yet, just a point of 156 00:10:48,515 --> 00:10:49,641 raging energy- 157 00:10:49,649 --> 00:10:54,382 It was the beginning of the universe and everything in it. 158 00:10:54,521 --> 00:10:56,319 Everything was simple. 159 00:10:56,323 --> 00:10:59,748 All the forces that we know about today 160 00:10:59,759 --> 00:11:01,818 were one and the same. 161 00:11:01,962 --> 00:11:03,327 The universe was amorphous. 162 00:11:03,330 --> 00:11:09,235 It had no structure. 163 00:11:09,236 --> 00:11:13,298 Narrator: In that instant of creation, all the laws of 164 00:11:13,306 --> 00:11:18,005 physics, the very forces that engineer our universe, 165 00:11:18,011 --> 00:11:21,879 began to take shape. 166 00:11:21,882 --> 00:11:26,911 The first force to emerge was gravity. 167 00:11:26,920 --> 00:11:31,448 The fate of the universe -- its size, structure, and everything 168 00:11:31,458 --> 00:11:38,455 in it -- was decided in that moment. 169 00:11:38,465 --> 00:11:43,062 Carlos Frenk studies how gravity shaped the universe by creating 170 00:11:43,069 --> 00:11:48,542 artificial universes in this supercomputer. 171 00:11:48,542 --> 00:11:54,242 He gives each one a different amount of gravity. 172 00:11:54,247 --> 00:11:58,707 The first one he tried had too little, resulting in, 173 00:11:58,718 --> 00:12:00,311 well, nothing. 174 00:12:00,320 --> 00:12:05,690 Dr. Frenk: Gravity has saved our universe, for if gravity was 175 00:12:05,692 --> 00:12:10,061 weaker than it is, we would have a very boring universe in which 176 00:12:10,063 --> 00:12:14,364 everything would be flying apart so fast that there would be 177 00:12:14,367 --> 00:12:16,802 no galaxies forming. 178 00:12:16,803 --> 00:12:19,864 Narrator: Next, he programmed a universe with 179 00:12:19,873 --> 00:12:24,276 too much gravity. 180 00:12:24,277 --> 00:12:27,542 Dr. Frenk: If gravity was stronger than we think it is, again, 181 00:12:27,547 --> 00:12:28,946 we'll end up with a failed universe. 182 00:12:28,949 --> 00:12:32,146 Everything will end up in black holes. 183 00:12:32,152 --> 00:12:34,280 It has to be just so. 184 00:12:34,287 --> 00:12:36,847 It has to be just right. 185 00:12:36,856 --> 00:12:40,622 Narrator: Lucky for us, the Big Bang got it just right -- 186 00:12:40,627 --> 00:12:43,153 the perfect amount of gravity. 187 00:12:43,163 --> 00:12:46,861 In the turmoil of forces after gravity emerged, still a 188 00:12:46,866 --> 00:12:50,996 fraction of a second after the Big Bang, a shock wave of energy 189 00:12:51,004 --> 00:12:54,975 erupted and expanded the universe in all directions 190 00:12:54,975 --> 00:13:01,574 at incredible speed. 191 00:13:01,581 --> 00:13:06,314 Dr. Krauss: All of space expanded by an unbelievably large factor in 192 00:13:06,319 --> 00:13:07,411 a fraction of a second. 193 00:13:07,420 --> 00:13:11,084 We think that in less than a millionth of a millionth of 194 00:13:11,091 --> 00:13:16,154 a millionth of a millionth of a second, space expanded by 195 00:13:16,162 --> 00:13:22,465 a factor bigger than a million, million, million, million times. 196 00:13:30,043 --> 00:13:31,704 Narrator: And for the record, 197 00:13:31,711 --> 00:13:34,078 that's faster than the speed of light. 198 00:13:34,080 --> 00:13:41,043 But, wait, doesn't that break one of the laws of physics? 199 00:13:41,187 --> 00:13:44,953 Even schoolchildren know that, "You can't go faster than 200 00:13:44,958 --> 00:13:46,119 the speed of light." 201 00:13:46,126 --> 00:13:48,185 But I say there's a loophole there. 202 00:13:48,194 --> 00:13:51,596 You see, nothing can go faster than light, 203 00:13:51,598 --> 00:13:53,225 nothing being empty space. 204 00:13:53,366 --> 00:13:54,492 Narrator: Don't worry. 205 00:13:54,501 --> 00:13:58,597 This idea gives even the best minds in science a headache. 206 00:13:58,605 --> 00:14:01,074 But it's critical to understanding 207 00:14:01,074 --> 00:14:02,769 the early universe. 208 00:14:02,776 --> 00:14:06,542 Scientists think it took less than a millionth of a millionth 209 00:14:06,546 --> 00:14:10,642 of a millionth of a millionth of a second for the universe to 210 00:14:10,650 --> 00:14:14,848 expand from the size of an atom to a baseball. 211 00:14:14,854 --> 00:14:17,983 That may not sound like much, but it's like a golf ball 212 00:14:17,991 --> 00:14:20,119 expanding to the size of the Earth 213 00:14:20,126 --> 00:14:21,924 in the same amount of time. 214 00:14:21,928 --> 00:14:26,559 That means it was expanding faster than the speed of light. 215 00:14:26,566 --> 00:14:28,500 That's fast. 216 00:14:28,501 --> 00:14:31,562 So many things were happening so fast in the early universe, 217 00:14:31,571 --> 00:14:34,199 because everything was so close together, 218 00:14:34,207 --> 00:14:37,074 that we needed a new unit of time to describe things. 219 00:14:37,077 --> 00:14:39,375 Narrator: It's called Planck time. 220 00:14:39,379 --> 00:14:44,146 To understand just how short a Planck time is, consider this. 221 00:14:44,150 --> 00:14:47,313 There are more units of Planck time in one second than all the 222 00:14:47,320 --> 00:14:49,254 seconds since the Big Bang. 223 00:14:49,255 --> 00:14:51,053 The math is mind-blowing. 224 00:14:51,057 --> 00:14:54,994 There are more than 31 million seconds in a year, and it's been 225 00:14:54,994 --> 00:14:57,895 14 billion years since the Big Bang. 226 00:14:57,897 --> 00:15:06,772 So multiply 31,556,926 by 14 billion, and what you get is 227 00:15:06,773 --> 00:15:07,899 a really big number. 228 00:15:07,907 --> 00:15:11,434 Dr. Krauss: It's a time scale that's so small that all human intuition 229 00:15:11,444 --> 00:15:13,071 goes out the window. 230 00:15:13,079 --> 00:15:16,344 If we look at our watches and measure one second, 231 00:15:16,349 --> 00:15:18,545 we can ask, how many Planck times is that? 232 00:15:18,551 --> 00:15:25,890 Well, it is a billion, billion, billion, billion, billion 233 00:15:25,892 --> 00:15:31,661 Planck times. 234 00:15:31,664 --> 00:15:35,430 Narrator: So, now the Big Bang is only a few Planck times 235 00:15:35,435 --> 00:15:41,602 old, an exploding mass of pure energy expanding faster than 236 00:15:41,608 --> 00:15:44,236 the speed of light. 237 00:15:44,244 --> 00:15:48,613 In the next few Planck times, the universe as we know it 238 00:15:48,615 --> 00:15:50,413 will be born. 239 00:15:56,956 --> 00:15:59,755 Narrator: A fraction of a second after the Big Bang, 240 00:15:59,759 --> 00:16:03,923 the universe is so small it can fit in the palm of your hand. 241 00:16:03,930 --> 00:16:09,130 But in another tiny fraction of a second, it expands to 242 00:16:09,135 --> 00:16:10,762 the size of the Earth. 243 00:16:10,770 --> 00:16:15,230 Then, moving faster than the speed of light, it grows larger 244 00:16:15,241 --> 00:16:17,073 than our solar system. 245 00:16:17,076 --> 00:16:22,515 And it's still just a raging storm of superheated energy. 246 00:16:22,649 --> 00:16:27,883 It would be hotter and denser and more violent than anything 247 00:16:27,887 --> 00:16:32,222 that we can experience in the universe today. 248 00:16:32,225 --> 00:16:36,753 Even the interior of a star is calm and serene by comparison 249 00:16:36,763 --> 00:16:41,257 to the violence of the earliest moments of the Big Bang. 250 00:16:41,267 --> 00:16:44,293 Temperatures were so hot that even the atoms of your body 251 00:16:44,304 --> 00:16:47,399 would disintegrate -- so hot, in fact, that the atoms would be 252 00:16:47,407 --> 00:16:48,465 ripped apart. 253 00:16:48,475 --> 00:16:49,636 Narrator: How hot? 254 00:16:49,642 --> 00:16:51,736 Trillions of degrees hot. 255 00:16:51,744 --> 00:16:57,239 But as the universe continues to expand, it also begins to cool. 256 00:16:57,250 --> 00:17:01,346 Dropping temperatures trigger the next stage in 257 00:17:01,354 --> 00:17:03,083 the universe's evolution. 258 00:17:03,089 --> 00:17:06,889 The raw energy of the explosion transforms into 259 00:17:06,893 --> 00:17:13,026 tiny subatomic particles. 260 00:17:13,032 --> 00:17:19,836 It's the first matter in the universe. 261 00:17:19,839 --> 00:17:23,298 This conversion of energy into matter was predicted by 262 00:17:23,309 --> 00:17:27,177 Albert Einstein years before anyone started talking about 263 00:17:27,180 --> 00:17:31,344 the Big Bang. 264 00:17:31,351 --> 00:17:35,845 It's the one scientific equation every schoolkid knows. 265 00:17:35,855 --> 00:17:38,950 There is one very familiar formula. 266 00:17:38,958 --> 00:17:41,052 And that is e equals mc squared. 267 00:17:41,194 --> 00:17:43,925 It says something about the creation of the universe. 268 00:17:43,930 --> 00:17:47,127 It says even if the universe is created just out of pure energy, 269 00:17:47,133 --> 00:17:50,034 that because energy can be converted to matter and matter 270 00:17:50,036 --> 00:17:53,597 to energy, that you can get all of the stuff that we see in the 271 00:17:53,606 --> 00:17:56,837 universe from this pure energetic event. 272 00:17:56,976 --> 00:18:01,573 Narrator: Einstein's little equation had a big impact. 273 00:18:10,690 --> 00:18:17,357 It led to the first nuclear bombs. 274 00:18:17,363 --> 00:18:21,561 In a nuclear explosion, a small amount of matter is converted 275 00:18:21,568 --> 00:18:25,698 into an enormous amount of energy. 276 00:18:25,705 --> 00:18:32,509 As the universe was forming, the exact opposite happened. 277 00:18:32,512 --> 00:18:37,245 Pure energy transformed into particles of matter. 278 00:18:37,250 --> 00:18:39,981 You don't need to create matter in the beginning. 279 00:18:39,986 --> 00:18:41,147 You just need energy. 280 00:18:41,154 --> 00:18:47,184 And energy alone can lead to the creation of an entire universe. 281 00:18:47,193 --> 00:18:50,527 Narrator: In just a fraction of a second after the Big Bang, 282 00:18:50,530 --> 00:18:56,196 the building blocks of our universe begin to take shape. 283 00:18:56,202 --> 00:19:02,266 But this first matter is like nothing we see today. 284 00:19:02,275 --> 00:19:05,506 The stuff of matter has been very different over the age 285 00:19:05,511 --> 00:19:06,239 of the universe. 286 00:19:06,245 --> 00:19:08,680 What we now think is normal matter was not at all normal in 287 00:19:08,681 --> 00:19:12,447 the earliest moments of the Big Bang. 288 00:19:12,452 --> 00:19:15,547 Narrator: That's because condition were so extreme. 289 00:19:15,555 --> 00:19:18,684 There were no atoms yet. 290 00:19:18,691 --> 00:19:24,994 But there were tiny subatomic particles. 291 00:19:24,998 --> 00:19:28,263 In the earliest moments of the Big Bang, the universe was 292 00:19:28,267 --> 00:19:31,202 so hot and dense, there were great amounts of energy. 293 00:19:31,204 --> 00:19:34,538 And so particles were being created all the time, and energy 294 00:19:34,540 --> 00:19:38,135 and matter were transferring back and forth in this hot, 295 00:19:38,144 --> 00:19:40,579 dense soup. 296 00:19:40,580 --> 00:19:43,641 Narrator: That earliest matter was too unstable to start 297 00:19:43,650 --> 00:19:50,750 forming the universe as we know it. 298 00:19:50,757 --> 00:19:52,191 Think of it like this. 299 00:19:52,191 --> 00:19:55,422 Imagine rush hour at Grand Central in New York City 300 00:19:55,428 --> 00:19:58,989 as that superheated early universe. 301 00:19:58,998 --> 00:20:02,798 The commuters racing through the main concourse are 302 00:20:02,802 --> 00:20:06,261 subatomic particles. 303 00:20:06,272 --> 00:20:09,435 If you look at a crowd of people -- a large crowd of 304 00:20:09,442 --> 00:20:12,605 people -- they may appear random. 305 00:20:12,612 --> 00:20:15,809 That random, quirky motion is very similar than what was 306 00:20:15,815 --> 00:20:19,115 happening in the particles in the universe in the earliest 307 00:20:19,118 --> 00:20:22,611 moments of the Big Bang. 308 00:20:22,622 --> 00:20:25,421 Narrator: The extreme temperature of the early 309 00:20:25,425 --> 00:20:28,360 universe energizes the subatomic particles. 310 00:20:28,361 --> 00:20:29,624 They appear. 311 00:20:29,629 --> 00:20:34,066 They disappear. 312 00:20:34,067 --> 00:20:36,559 They race around at incredible speeds. 313 00:20:36,569 --> 00:20:38,663 It's pure chaos. 314 00:20:44,110 --> 00:20:45,942 It's like people. 315 00:20:45,945 --> 00:20:49,074 If they're excited and running around fast to catch trains at 316 00:20:49,082 --> 00:20:52,279 a train station, they'll be moving around quickly. 317 00:20:52,285 --> 00:20:56,847 But eventually, they calm down and get slower. 318 00:20:56,856 --> 00:20:59,587 That's what's been happening to our universe, in a sense. 319 00:20:59,592 --> 00:21:01,720 The particles are moving around very fast. 320 00:21:01,728 --> 00:21:04,663 And as the universe cools down, the particles move more slowly 321 00:21:04,664 --> 00:21:08,498 and, in some sense, less random. 322 00:21:08,501 --> 00:21:11,698 Narrator: As the universe cools, the particles stop 323 00:21:11,704 --> 00:21:14,366 changing back into energy. 324 00:21:22,648 --> 00:21:26,744 Now there are more and more subatomic particles, but it's 325 00:21:26,753 --> 00:21:30,621 still a hot, violent place. 326 00:21:30,623 --> 00:21:33,923 All this is happening in fractions of a second 327 00:21:33,926 --> 00:21:35,394 too small to detect. 328 00:21:35,394 --> 00:21:39,865 But the Big Bang is moving into a critical stage now, a titanic 329 00:21:39,866 --> 00:21:44,167 battle between matter and the one thing that can destroy the 330 00:21:44,170 --> 00:21:48,835 universe before it even gets started... antimatter. 331 00:22:03,956 --> 00:22:09,622 Narrator: Everything in the universe is made from matter, 332 00:22:09,629 --> 00:22:13,361 from the smallest rock to the largest star. 333 00:22:13,366 --> 00:22:17,633 And all the matter there will ever be was created from the 334 00:22:17,637 --> 00:22:25,271 pure energy of the Big Bang. 335 00:22:25,278 --> 00:22:29,078 Einstein's equation, e equals mc squared, 336 00:22:29,081 --> 00:22:33,143 says that energy transforms into matter. 337 00:22:33,152 --> 00:22:35,678 But it was just a theory. 338 00:22:35,688 --> 00:22:43,288 Today science is able to test that theory. 339 00:22:43,296 --> 00:22:46,664 This is CERN in Switzerland, 340 00:22:46,666 --> 00:22:50,694 home to the world's largest machine. 341 00:22:50,703 --> 00:22:54,833 It's the size of a city and engineered to re-create the 342 00:22:54,841 --> 00:22:59,403 conditions millionths of a second after the Big Bang. 343 00:22:59,545 --> 00:23:02,674 If we want to probe ever-smaller scales, 344 00:23:02,682 --> 00:23:05,174 paradoxically we need an ever-bigger machine. 345 00:23:05,184 --> 00:23:08,586 There's just no other way of doing it, so big machines mean 346 00:23:08,588 --> 00:23:13,219 small physics, means early times and, therefore, getting closer 347 00:23:13,226 --> 00:23:17,060 and closer to the origin of the universe itself. 348 00:23:17,196 --> 00:23:20,530 Narrator: This monster machine is called a collider. 349 00:23:20,533 --> 00:23:24,060 It's designed to take us back to those first fractions of 350 00:23:24,070 --> 00:23:26,437 a second after the Big Bang. 351 00:23:26,439 --> 00:23:30,467 It's a 12-foot-wide concrete-line circular tunnel 352 00:23:30,476 --> 00:23:36,176 17 miles around. 353 00:23:36,182 --> 00:23:39,880 The collider makes tiny particles of matter smash into 354 00:23:39,886 --> 00:23:48,522 each other at almost the speed of light. 355 00:23:48,527 --> 00:23:50,256 For a split second, 356 00:23:50,263 --> 00:23:52,459 those collisions generate turbocharged energy 357 00:23:52,465 --> 00:23:57,494 similar to the explosive force of the Big Bang. 358 00:23:57,503 --> 00:24:02,964 And then that pure energy briefly transforms into matter, 359 00:24:02,975 --> 00:24:09,813 just like it did nearly 14 billion years ago. 360 00:24:09,815 --> 00:24:13,615 But a monster machine needs a monster detector 361 00:24:13,619 --> 00:24:15,451 to see these collisions. 362 00:24:15,588 --> 00:24:20,890 This detector is five stories tall and weighs over 7,000 tons. 363 00:24:20,893 --> 00:24:23,919 And 7,000 tons -- to give you a sense of perspective -- is the 364 00:24:23,930 --> 00:24:26,592 weight of the Eiffel Tower. 365 00:24:26,732 --> 00:24:29,565 Narrator: But as big as it is, it can't see the actual 366 00:24:29,568 --> 00:24:31,161 particles of new matter. 367 00:24:31,170 --> 00:24:34,970 They hang around for just a split second and move so fast it 368 00:24:34,974 --> 00:24:39,138 can only record their trails. 369 00:24:39,145 --> 00:24:41,443 There's a lot of energy in these particles. 370 00:24:41,447 --> 00:24:44,246 They move very, very quickly, and so you need a very large 371 00:24:44,250 --> 00:24:49,017 amount of detector in order to be able to map the path of these 372 00:24:49,021 --> 00:24:50,523 particles very precisely. 373 00:24:50,523 --> 00:24:53,424 So, the detector is so big because you need 374 00:24:53,426 --> 00:24:54,382 better resolution. 375 00:24:54,393 --> 00:24:56,361 It works exactly the same as a camera. 376 00:24:56,362 --> 00:24:58,831 The more pixels you have, the better the picture. 377 00:24:58,831 --> 00:25:00,094 It's exactly the same here. 378 00:25:00,099 --> 00:25:03,865 We just have a five-story camera. 379 00:25:03,869 --> 00:25:06,964 Narrator: Scientists hope that it'll reveal just how 380 00:25:06,973 --> 00:25:11,001 energy transforms into matter... 381 00:25:11,010 --> 00:25:15,277 But not just any matter -- the kind of matter that emerged 382 00:25:15,281 --> 00:25:22,381 14 billion years ago at the dawn of time itself. 383 00:25:22,388 --> 00:25:25,688 But the dawn of time was a critical moment in the birth of 384 00:25:25,691 --> 00:25:28,956 the universe, because pure energy also produced one of the 385 00:25:28,961 --> 00:25:33,364 most dangerous things in the universe -- antimatter. 386 00:25:33,366 --> 00:25:40,830 That's right, antimatter -- it's real. 387 00:25:40,840 --> 00:25:44,333 Dr. Kaku: Antimatter is the mirror image of ordinary matter. 388 00:25:44,343 --> 00:25:46,835 However, matter has one charge, 389 00:25:46,846 --> 00:25:49,804 and antimatter has the opposite charge. 390 00:25:49,815 --> 00:25:53,649 If there was an anti-me made out of antimatter, that person, in 391 00:25:53,652 --> 00:25:57,179 principle, could look exactly like me -- same personality 392 00:25:57,189 --> 00:26:00,853 quirks, same everything, except, of course, when I decide to 393 00:26:00,860 --> 00:26:01,850 shake his hand. 394 00:26:01,861 --> 00:26:05,422 At that point, we both would blow ourselves to smithereens in 395 00:26:05,431 --> 00:26:09,868 a gigantic nuclear explosion. 396 00:26:09,869 --> 00:26:13,601 Narrator: Matter with a positive charge locks horns with 397 00:26:13,606 --> 00:26:17,565 its archenemy, antimatter, with a negative charge. 398 00:26:17,576 --> 00:26:21,103 The fate of the universe hangs in the balance 399 00:26:21,113 --> 00:26:22,672 of this epic battle. 400 00:26:22,681 --> 00:26:26,311 Equal amounts of matter and antimatter will cancel each 401 00:26:26,318 --> 00:26:29,219 other out -- not good. 402 00:26:29,221 --> 00:26:31,747 A universe with equal amounts of matter and antimatter is 403 00:26:31,757 --> 00:26:34,818 equivalent to a universe with no matter at all, because the 404 00:26:34,827 --> 00:26:38,127 matter and antimatter will annihilate back into 405 00:26:38,130 --> 00:26:38,824 pure radiation. 406 00:26:38,831 --> 00:26:41,596 And there'll be nothing interesting -- no stars and 407 00:26:41,600 --> 00:26:46,071 galaxies and people in between. 408 00:26:46,072 --> 00:26:49,531 Narrator: Like a cosmic game of Risk, the side with the most 409 00:26:49,542 --> 00:26:53,137 soldiers wins. 410 00:26:53,145 --> 00:26:59,585 The score was very close, but there was a winner. 411 00:26:59,585 --> 00:27:02,350 Dr. Krauss: For every billion particles of antimatter, there were a 412 00:27:02,354 --> 00:27:05,881 billion and one particles of matter. 413 00:27:05,891 --> 00:27:08,258 That was the moment of creation. 414 00:27:08,260 --> 00:27:12,788 The one extra particle of matter in each little volume survives, 415 00:27:12,798 --> 00:27:17,065 survives enough to form all the matter we see in the stars and 416 00:27:17,069 --> 00:27:23,509 galaxies today. 417 00:27:23,509 --> 00:27:26,479 Narrator: One in a billion might not sound like much, but 418 00:27:26,479 --> 00:27:30,074 it's enough to build a universe. 419 00:27:30,082 --> 00:27:32,141 Dr. Kaku: We're the leftovers. 420 00:27:32,151 --> 00:27:35,451 So, believe it or not, everything you see around you, 421 00:27:35,454 --> 00:27:39,049 the atoms of your body, the atoms of the stars, are nothing 422 00:27:39,058 --> 00:27:43,154 but leftovers -- leftovers from this ancient collision between 423 00:27:43,162 --> 00:27:49,693 matter and antimatter. 424 00:27:49,702 --> 00:27:53,468 Narrator: Lucky for us, there was enough left over to make all 425 00:27:53,472 --> 00:27:57,568 the stars and planets. 426 00:27:57,576 --> 00:28:03,037 And the universe is still less than one second old. 427 00:28:03,048 --> 00:28:10,079 But now it's swarming with tiny, primitive particles. 428 00:28:10,089 --> 00:28:14,549 The next stage is assembling those tiny particles into 429 00:28:14,560 --> 00:28:17,086 the first atoms. 430 00:28:24,670 --> 00:28:27,037 Narrator: Give or take a couple of Planck times, the 431 00:28:27,039 --> 00:28:32,808 universe is nearly a second old and still a very strange place. 432 00:28:32,811 --> 00:28:38,215 But matter has won the battle with antimatter. 433 00:28:38,217 --> 00:28:43,451 And now it's time to build the universe. 434 00:28:43,455 --> 00:28:49,895 It's still extremely hot and expanding incredibly fast. 435 00:28:49,895 --> 00:28:52,990 When the universe was a second old, the particles in it 436 00:28:52,998 --> 00:28:55,490 were very different than the particles we see today. 437 00:28:55,501 --> 00:28:57,094 There were no atoms. 438 00:28:57,102 --> 00:28:59,935 Nothing that we recognize in the room around us today 439 00:28:59,939 --> 00:29:03,842 yet existed. 440 00:29:03,976 --> 00:29:08,436 Narrator: Now all that begins to change. 441 00:29:08,447 --> 00:29:12,111 Temperatures continue to cool. 442 00:29:12,117 --> 00:29:15,985 And as the primitive particles keep slowing down, they start 443 00:29:15,988 --> 00:29:21,916 bonding together to form the atoms of the first elements. 444 00:29:21,927 --> 00:29:27,457 The first one to form is hydrogen. 445 00:29:27,466 --> 00:29:31,369 Then over the next three minutes, the universe begins to 446 00:29:31,370 --> 00:29:40,973 create two more elements -- helium and lithium. 447 00:29:40,980 --> 00:29:44,507 We went from a universe that was infinitely small to a 448 00:29:44,516 --> 00:29:47,042 universe that was light-years in size. 449 00:29:47,052 --> 00:29:50,283 In the first three minutes, essentially everything 450 00:29:50,289 --> 00:29:54,556 interesting that was going to happen in the universe happened. 451 00:29:54,560 --> 00:29:56,289 Narrator: Well, not quite. 452 00:29:56,295 --> 00:29:59,492 If you were there, you couldn't see it. 453 00:29:59,498 --> 00:30:01,626 Dr. Kaku: When we look at the night sky, we can see literally 454 00:30:01,634 --> 00:30:04,797 billions of years into the past, and we think it's always 455 00:30:04,803 --> 00:30:06,931 been that way. 456 00:30:07,072 --> 00:30:08,574 Nope, not true. 457 00:30:08,574 --> 00:30:12,841 380,000 years after the Big Bang -- that's when the universe 458 00:30:12,845 --> 00:30:14,677 began to become transparent. 459 00:30:14,813 --> 00:30:20,513 But before then, it was milky. 460 00:30:20,519 --> 00:30:29,792 Narrator: There is a milky soup of loose electrons. 461 00:30:29,795 --> 00:30:33,959 The young universe has to cool down enough for the electrons 462 00:30:33,966 --> 00:30:37,493 to slow down and stick to new atoms. 463 00:30:37,503 --> 00:30:41,201 It took a long time for all of the hydrogen, helium, and 464 00:30:41,206 --> 00:30:44,972 lithium atoms in the universe to form. 465 00:30:44,977 --> 00:30:50,211 Scientists calculate it took 380,000 years for the electrons 466 00:30:50,215 --> 00:30:53,515 to slow down enough so that the universe could start 467 00:30:53,519 --> 00:30:55,351 mass-producing atoms. 468 00:30:55,354 --> 00:30:58,790 When that happens, the milky fog clears. 469 00:30:58,791 --> 00:31:03,786 The first light escapes and races across the universe. 470 00:31:03,796 --> 00:31:07,460 Nearly 14 billion years later, two young scientists in 471 00:31:07,466 --> 00:31:13,166 New Jersey pick it up by accident. 472 00:31:13,172 --> 00:31:18,406 In 1964, Arno Penzias and Robert Wilson were mapping 473 00:31:18,410 --> 00:31:20,674 radio signals across our galaxy. 474 00:31:20,679 --> 00:31:24,809 Everywhere they looked, they picked up a strange 475 00:31:24,817 --> 00:31:26,911 background hum. 476 00:31:26,919 --> 00:31:29,718 They first suspected their equipment. 477 00:31:29,722 --> 00:31:33,590 Maybe pigeon droppings on the antenna were causing 478 00:31:33,592 --> 00:31:35,060 the strange signal. 479 00:31:35,060 --> 00:31:39,588 But after cleaning the antenna, the mysterious hum remained. 480 00:31:39,598 --> 00:31:46,937 So much for pigeon droppings. 481 00:31:46,939 --> 00:31:50,637 Penzias delivered a talk at Princeton University. 482 00:31:50,642 --> 00:31:54,613 And according to lore, one person in the back said, "Either 483 00:31:54,613 --> 00:31:58,277 you have discovered the effects of bird droppings or the 484 00:31:58,283 --> 00:32:02,720 creation of the universe." 485 00:32:02,721 --> 00:32:06,885 Narrator: It was in fact the moment of creation, nearly 486 00:32:06,892 --> 00:32:14,322 14 billion years ago, when those first atoms got their electrons. 487 00:32:14,333 --> 00:32:18,793 That's the moment when the milky cloud clears and the new 488 00:32:18,804 --> 00:32:23,867 universe comes into view for the first time. 489 00:32:23,876 --> 00:32:27,835 To capture better images of this critical event, NASA launched 490 00:32:27,846 --> 00:32:32,249 the Cosmic Background Explorer Satellite, or COBE. 491 00:32:32,251 --> 00:32:36,518 They pointed it out into space, where it took the temperature 492 00:32:36,522 --> 00:32:37,648 of the universe. 493 00:32:37,656 --> 00:32:41,593 By measuring differences in temperature across space, 494 00:32:41,593 --> 00:32:45,359 they created the first map of our early universe. 495 00:32:45,364 --> 00:32:48,994 The images were called the Face of God. 496 00:32:49,001 --> 00:32:53,199 We got gorgeous pictures -- baby pictures of the infant 497 00:32:53,205 --> 00:32:56,573 universe when it was 380,000 years of age. 498 00:32:56,575 --> 00:32:58,339 But there were problems with it. 499 00:32:58,343 --> 00:32:59,902 The picture was very fuzzy. 500 00:32:59,912 --> 00:33:05,783 The COBE results were simply not good enough. 501 00:33:05,784 --> 00:33:07,843 Man: Mission looking good. Liftoff. 502 00:33:07,853 --> 00:33:11,255 Narrator: So NASA launched an even more advanced satellite, 503 00:33:11,256 --> 00:33:15,818 WMAP, the Wilkinson Microwave Anisotropy Probe. 504 00:33:15,828 --> 00:33:19,958 In 2001, David Spergel was part of the team looking for a 505 00:33:19,965 --> 00:33:23,663 clearer image of the early universe. 506 00:33:23,802 --> 00:33:25,998 It was exciting to go to the Cape. 507 00:33:26,004 --> 00:33:29,406 It was one of these moments we were sitting there, watching 508 00:33:29,408 --> 00:33:31,968 this -- I was there with my family -- 509 00:33:31,977 --> 00:33:33,411 watching the rocket go off. 510 00:33:33,412 --> 00:33:36,473 It was very exciting when, within about a day, we were able 511 00:33:36,482 --> 00:33:39,474 to get our first signal from the satellite and know it was 512 00:33:39,485 --> 00:33:42,352 working and working properly. 513 00:33:42,488 --> 00:33:45,219 Narrator: This is the most detailed picture of the early 514 00:33:45,224 --> 00:33:49,650 universe ever taken, just 380,000 years after 515 00:33:49,661 --> 00:33:53,529 the Big Bang. 516 00:33:53,532 --> 00:33:56,900 The red and yellow areas are warmer, the blue and 517 00:33:56,902 --> 00:33:57,960 green regions cooler. 518 00:33:57,970 --> 00:34:01,065 And those temperature differences are clues to the 519 00:34:01,073 --> 00:34:07,171 future structure of the universe. 520 00:34:07,179 --> 00:34:09,910 You see tiny variations in temperature. 521 00:34:09,915 --> 00:34:13,044 Those tiny variations in temperature reflect small 522 00:34:13,051 --> 00:34:14,314 variations in density. 523 00:34:14,319 --> 00:34:15,878 This region has more matter. 524 00:34:15,888 --> 00:34:17,549 This region has less matter. 525 00:34:17,556 --> 00:34:20,992 Narrator: Like a blueprint for the construction of our 526 00:34:20,993 --> 00:34:24,520 universe, this image shows us where there's more matter and 527 00:34:24,530 --> 00:34:27,227 where there's less. 528 00:34:27,232 --> 00:34:32,898 Regions with no matter will become empty space. 529 00:34:32,905 --> 00:34:36,967 Areas with denser matter will become the construction sites of 530 00:34:36,975 --> 00:34:43,813 galaxies, stars, and planets. 531 00:34:43,815 --> 00:34:47,080 These are the fluctuations that will grow to form galaxies. 532 00:34:47,085 --> 00:34:50,953 So if it wasn't for those little density fluctuations, you and I 533 00:34:50,956 --> 00:34:55,723 would not be here today. 534 00:34:55,727 --> 00:35:00,927 Narrator: Our universe is now 380,000 years old and trillions 535 00:35:00,933 --> 00:35:05,234 and trillions of miles across. 536 00:35:05,237 --> 00:35:10,403 Clouds of hydrogen and helium gas float through space. 537 00:35:10,409 --> 00:35:14,243 It will take another 200 million years before those 538 00:35:14,246 --> 00:35:16,943 gases create the first stars. 539 00:35:17,082 --> 00:35:22,213 These first stars ignited the universe into what must have 540 00:35:22,220 --> 00:35:24,245 been the most amazing fireworks. 541 00:35:30,796 --> 00:35:35,495 The universe went from the dark ages to an age of splendor when 542 00:35:35,500 --> 00:35:39,733 the first stars illuminated the gas and the universe began to 543 00:35:39,738 --> 00:35:42,298 glow in majestic fashion. 544 00:35:42,307 --> 00:35:45,641 I wish I'd been there. 545 00:35:45,644 --> 00:35:48,875 Dr. Krauss: It was like Christmas tree lights turning on. 546 00:35:48,880 --> 00:35:52,714 The universe began to light up in all directions, until you 547 00:35:52,718 --> 00:35:56,677 form the beautiful mosaic we now see today. 548 00:36:03,762 --> 00:36:08,222 Narrator: More and more stars turn on. 549 00:36:08,233 --> 00:36:14,161 1 billion years after the Big Bang, the first galaxy forms. 550 00:36:14,172 --> 00:36:20,407 Over the next 8 billion years, countless more take shape. 551 00:36:20,412 --> 00:36:25,851 Then about 5 billion years ago, in a quiet corner of one of 552 00:36:25,851 --> 00:36:34,248 those galaxies, gravity begins to draw in dust and gas. 553 00:36:34,259 --> 00:36:41,290 Gradually they clump together and give birth to a star, 554 00:36:41,299 --> 00:36:46,260 our Sun. 555 00:36:46,271 --> 00:36:51,334 9 billion years after the Big Bang, our tiny solar system 556 00:36:51,343 --> 00:36:57,942 springs to life, and with it, planet Earth. 557 00:36:57,949 --> 00:37:02,682 Everything there is exists because of the Big Bang, 558 00:37:02,688 --> 00:37:04,247 and it's still going on. 559 00:37:04,256 --> 00:37:07,248 Our universe is still expanding. 560 00:37:07,259 --> 00:37:10,991 But it won't just keep going forever. 561 00:37:10,996 --> 00:37:16,332 Our universe had a beginning, and it will also have an end. 562 00:37:22,541 --> 00:37:25,567 Narrator: In the 14 billion years since the Big Bang, 563 00:37:25,577 --> 00:37:30,674 galaxies have been created... 564 00:37:30,682 --> 00:37:34,277 Filled with stars, planets, and moons. 565 00:37:34,286 --> 00:37:41,784 And the universe has been expanding the whole time. 566 00:37:41,793 --> 00:37:45,661 We've learned space is quite big -- at least 150 billion 567 00:37:45,664 --> 00:37:47,496 light-years across. 568 00:37:47,499 --> 00:37:50,366 Narrator: The universe may be infinite. 569 00:37:50,368 --> 00:37:54,271 It might literally go on forever. 570 00:37:54,272 --> 00:37:56,468 The answer is there doesn't have to be anything, 571 00:37:56,475 --> 00:37:57,237 in principle. 572 00:37:57,242 --> 00:38:00,371 The universe could be infinite, and there's no outside, or it 573 00:38:00,378 --> 00:38:01,903 could be closed on itself. 574 00:38:01,913 --> 00:38:04,007 It could be such that if I looked far enough in that 575 00:38:04,015 --> 00:38:06,575 direction I'd see the back of my head. 576 00:38:06,585 --> 00:38:09,520 Narrator: We may never know if the Big Bang produced a 577 00:38:09,521 --> 00:38:14,721 universe that goes on forever. 578 00:38:14,726 --> 00:38:19,823 But we do know that the Big Bang hasn't stopped yet. 579 00:38:19,831 --> 00:38:21,799 The Big Bang is really continuing now. 580 00:38:21,800 --> 00:38:24,531 We're continuing to bang, if you want, in the sense that the 581 00:38:24,536 --> 00:38:28,700 expansion of the universe is continuing. 582 00:38:28,707 --> 00:38:31,972 One of the most astounding discoveries in the last few 583 00:38:31,977 --> 00:38:35,538 years has been the realization that our universe is not slowing 584 00:38:35,547 --> 00:38:38,847 down, like we once thought, but it's actually speeding up. 585 00:38:38,850 --> 00:38:40,113 It's accelerating. 586 00:38:40,118 --> 00:38:42,610 It's in a runaway mode. 587 00:38:42,621 --> 00:38:46,319 We now believe there's something called dark energy, the energy 588 00:38:46,324 --> 00:38:50,761 of nothing, that is pushing the galaxies apart and is killing 589 00:38:50,762 --> 00:38:53,094 the universe. 590 00:38:53,098 --> 00:38:56,466 Narrator: We can't see this destructive force, and we have 591 00:38:56,468 --> 00:39:00,166 no idea why it exists. 592 00:39:00,172 --> 00:39:03,972 But it could mean the end of everything created in 593 00:39:03,975 --> 00:39:06,000 the Big Bang. 594 00:39:06,011 --> 00:39:10,812 If dark energy continues pushing the universe apart, our 595 00:39:10,816 --> 00:39:14,753 Milky Way galaxy could become a lonely outpost. 596 00:39:14,753 --> 00:39:19,384 100 billion years from now, most of our galactic neighbors will 597 00:39:19,391 --> 00:39:21,325 be out of sight. 598 00:39:21,326 --> 00:39:23,624 Stars will burn out. 599 00:39:23,628 --> 00:39:26,154 Galaxies will grow dark. 600 00:39:26,164 --> 00:39:28,929 Even atoms will tear apart. 601 00:39:28,934 --> 00:39:33,565 The birth of the universe, the Big Bang, was over in a flash. 602 00:39:33,572 --> 00:39:39,500 But the death of our universe will take almost forever. 603 00:39:39,511 --> 00:39:44,677 That great philosopher of the western world, Woody Allen, once said 604 00:39:44,683 --> 00:39:52,682 eternity is an awful long time, especially toward the end. 605 00:39:52,691 --> 00:39:56,457 Narrator: Figuring out how our universe will end is as dark 606 00:39:56,461 --> 00:40:00,762 a mystery as the Big Bang. 607 00:40:00,765 --> 00:40:05,259 It could collapse back in on itself, like a balloon when 608 00:40:05,270 --> 00:40:10,970 the air is let out. 609 00:40:10,976 --> 00:40:14,606 So, would the universe end with a Big Crunch, a reverse of 610 00:40:14,613 --> 00:40:18,379 the Big Bang, or would it end by expanding out and becoming 611 00:40:18,383 --> 00:40:19,179 cold and dark? 612 00:40:19,184 --> 00:40:23,382 If you wished, would it end in fire or ice, or with a bang or 613 00:40:23,388 --> 00:40:26,016 a whimper? 614 00:40:26,024 --> 00:40:29,460 Narrator: If the universe collapses, it might trigger 615 00:40:29,461 --> 00:40:31,293 another Big Bang. 616 00:40:41,039 --> 00:40:46,967 Maybe that's already happened, and we're just one in a 617 00:40:46,978 --> 00:40:49,913 long line of universes. 618 00:40:49,915 --> 00:40:54,148 Personally, I believe in continual genesis -- that is, 619 00:40:54,152 --> 00:40:58,749 there's a never-ending process whereby universes collide, split 620 00:40:58,757 --> 00:41:02,421 apart, give birth to new universes, perhaps with 621 00:41:02,427 --> 00:41:08,696 different laws of physics within each universe. 622 00:41:08,700 --> 00:41:10,725 Maybe this isn't the first time it's happened. 623 00:41:10,735 --> 00:41:12,965 Maybe it's cyclic, and it goes around and around again, 624 00:41:12,971 --> 00:41:15,770 eventually will collapse, and the whole thing will 625 00:41:15,774 --> 00:41:16,798 start over again. 626 00:41:16,808 --> 00:41:25,876 Narrator: One universe or many, they all start with a Big Bang. 627 00:41:25,884 --> 00:41:29,377 Dr. Krauss: Everything that makes us human -- the atoms in our 628 00:41:29,387 --> 00:41:33,790 bodies, the jewelry we wear, all the things that lead to the 629 00:41:33,792 --> 00:41:37,751 tragedy of life and the beauty and the excitement, love, 630 00:41:37,762 --> 00:41:41,392 everything else -- arose because of processes that happened 631 00:41:41,399 --> 00:41:44,664 14 billion years ago. 632 00:41:44,669 --> 00:41:48,003 And if we really want to understand ourselves at some 633 00:41:48,006 --> 00:41:55,140 fundamental level, we really have to understand the Big Bang. 634 00:41:55,146 --> 00:41:59,174 Narrator: 14 billion years ago, the Big Bang created time 635 00:41:59,184 --> 00:42:04,122 and space, our whole vast universe, and everything in it, 636 00:42:04,122 --> 00:42:10,494 including us. 637 00:42:10,495 --> 00:42:12,293 Dr. Kaku: Some people ask the question, 638 00:42:12,297 --> 00:42:13,787 "What's in it for me?" 639 00:42:13,798 --> 00:42:18,167 The Big Bang gave us everything we see around us -- the 640 00:42:18,169 --> 00:42:21,161 distribution of galaxies and stars. 641 00:42:21,172 --> 00:42:24,506 It set into motion the creation of elements that we see 642 00:42:24,509 --> 00:42:25,271 in the universe. 643 00:42:25,276 --> 00:42:30,077 And even the laws of physics themselves, we think, were born 644 00:42:30,081 --> 00:42:36,487 at the instant of creation. 645 00:42:36,621 --> 00:42:41,354 Narrator: Everything started with the Big Bang, one brief 646 00:42:41,359 --> 00:42:47,059 moment in time 14 billion years ago, that contains the answers 647 00:42:47,065 --> 00:42:52,504 to our greatest questions about our past, our present, 648 00:42:52,504 --> 00:42:53,528 and our future. 649 00:42:53,538 --> 00:42:59,466 Each discovery brings us one step closer to understanding 650 00:42:59,477 --> 00:43:01,741 how the universe works. 54572