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These are the user uploaded subtitles that are being translated: 1 00:00:01,569 --> 00:00:05,306 (male narrator) Is there really a face on Mars? 2 00:00:06,707 --> 00:00:10,010 Is this the Eye of God? 3 00:00:12,213 --> 00:00:16,117 Why is there a giant hexagon on Saturn? 4 00:00:16,150 --> 00:00:17,751 When I first saw these pictures, 5 00:00:17,785 --> 00:00:20,654 I thought, "How the hell do you get that?" 6 00:00:20,688 --> 00:00:24,092 (narrator) What has astronomers blowing things up? 7 00:00:25,793 --> 00:00:30,831 And why is one of Saturn's moons a Star Wars lookalike? 8 00:00:30,864 --> 00:00:34,168 (Andy Howell) It looks just like the Death Star! 9 00:00:34,202 --> 00:00:38,772 (narrator) Could the strange shapes of the universe now solve mysteries 10 00:00:38,806 --> 00:00:43,244 that have haunted mankind since ancient times? 11 00:00:45,146 --> 00:00:50,851 Ancient mysteries shrouded in the shadows of time. 12 00:00:50,884 --> 00:00:53,821 Now can they finally be solved 13 00:00:53,854 --> 00:00:57,625 by looking to the heavens? 14 00:00:57,658 --> 00:01:00,261 The truth is out there, 15 00:01:00,294 --> 00:01:03,431 hidden among the stars 16 00:01:03,464 --> 00:01:06,800 in a place we call 17 00:01:06,834 --> 00:01:09,670 the universe. 18 00:01:13,474 --> 00:01:17,345 Of all the wonders in the ancient sky, 19 00:01:17,378 --> 00:01:22,550 perhaps nothing mystified mankind more than the moon. 20 00:01:22,583 --> 00:01:25,119 But what could explain the face that appears 21 00:01:25,153 --> 00:01:27,621 on its silvery surface? 22 00:01:27,655 --> 00:01:29,423 Was it a magic spirit 23 00:01:29,457 --> 00:01:34,262 or one of many gods ruling the heavens? 24 00:01:34,295 --> 00:01:37,465 Some say the face belongs to Cain the Wanderer, 25 00:01:37,498 --> 00:01:39,733 son of Adam and Eve, 26 00:01:39,767 --> 00:01:42,336 condemned to circle the Earth endlessly 27 00:01:42,370 --> 00:01:45,473 for killing his brother Abel. 28 00:01:47,241 --> 00:01:50,744 Other ancients saw things differently. 29 00:01:50,778 --> 00:01:53,447 The man in the moon is only a man to us. 30 00:01:53,481 --> 00:01:56,417 In other cultures--for example, East Asian cultures-- 31 00:01:56,450 --> 00:02:00,254 many people see other shapes or other faces. 32 00:02:00,288 --> 00:02:01,589 In East Asian cultures, 33 00:02:01,622 --> 00:02:04,158 it was thought that rabbits live on the moon, 34 00:02:04,192 --> 00:02:07,328 and so the man in the moon is actually a rabbit. 35 00:02:09,597 --> 00:02:11,932 (narrator) Why does this mysterious anomaly 36 00:02:11,965 --> 00:02:14,268 look as it does? 37 00:02:14,302 --> 00:02:17,171 Is there an answer in science? 38 00:02:17,205 --> 00:02:20,474 The dark areas are ancient lava flows 39 00:02:20,508 --> 00:02:24,245 that are reasonably flat. 40 00:02:24,278 --> 00:02:27,348 And the bright areas are more mountainous regions 41 00:02:27,381 --> 00:02:29,417 where there are lots of craters, 42 00:02:29,450 --> 00:02:31,585 and they reflect the sunlight more. 43 00:02:33,654 --> 00:02:36,824 (narrator) But what did the ancients make of the other imperfections 44 00:02:36,857 --> 00:02:39,493 in the celestial sphere? 45 00:02:42,330 --> 00:02:45,199 A star that suddenly brightened, 46 00:02:45,233 --> 00:02:48,302 a comet appearing to streak through space? 47 00:02:49,970 --> 00:02:53,307 The invention of telescopes 400 years ago 48 00:02:53,341 --> 00:02:57,878 only deepened the mysteries, 49 00:02:57,911 --> 00:03:01,682 revealing strange shapes everywhere. 50 00:03:03,851 --> 00:03:05,419 (Walkowicz) When we look out into the universe 51 00:03:05,453 --> 00:03:07,755 and we see shapes in the distant stars 52 00:03:07,788 --> 00:03:09,557 or in other astronomical objects, 53 00:03:09,590 --> 00:03:12,960 what we're really looking at is physics as the sculptor, 54 00:03:12,993 --> 00:03:14,662 because the more detail that we get, 55 00:03:14,695 --> 00:03:17,765 the better we can learn about the shape of that object 56 00:03:17,798 --> 00:03:22,202 and the more detailed we can make our model of how it formed. 57 00:03:24,572 --> 00:03:26,974 (narrator) For each of the odd forms we see, 58 00:03:27,007 --> 00:03:28,676 its shape is the latest chapter 59 00:03:28,709 --> 00:03:32,280 in the sometimes violent and often dramatic events 60 00:03:32,313 --> 00:03:36,450 that seem to speak to us with a story. 61 00:03:39,420 --> 00:03:42,523 Could this be the Eye of God? 62 00:03:44,292 --> 00:03:46,660 700 light-years away, 63 00:03:46,694 --> 00:03:50,331 the haunting image appears in striking variations 64 00:03:50,364 --> 00:03:53,601 as modern telescopes photograph its details 65 00:03:53,634 --> 00:03:56,404 in different wavelengths of light. 66 00:03:56,437 --> 00:03:58,606 (Filippenko) It really just looks like an eye 67 00:03:58,639 --> 00:04:01,742 staring down at you from space, 68 00:04:01,775 --> 00:04:05,346 and if the celestial sphere is the home 69 00:04:05,379 --> 00:04:07,481 of various gods or the single God, 70 00:04:07,515 --> 00:04:10,718 well, gee, maybe this is the Eye of God. 71 00:04:13,887 --> 00:04:18,492 (narrator) To our ancestors, the stars were great mysteries. 72 00:04:18,526 --> 00:04:20,694 What were they made of? 73 00:04:20,728 --> 00:04:23,631 What was their purpose? 74 00:04:23,664 --> 00:04:26,500 In those earlier times, the view of the night sky 75 00:04:26,534 --> 00:04:29,036 is that you had all these bright objects-- 76 00:04:29,069 --> 00:04:30,904 the stars, the planets-- 77 00:04:30,938 --> 00:04:34,908 as immutable, everlasting objects. 78 00:04:34,942 --> 00:04:37,911 (narrator) The strange shape we perceive as an eye 79 00:04:37,945 --> 00:04:42,483 proves that stars are not unchanging and everlasting. 80 00:04:42,516 --> 00:04:46,920 Like humans, they have limited life spans. 81 00:04:46,954 --> 00:04:49,590 This is an ordinary star in its death throes 82 00:04:49,623 --> 00:04:53,060 emitting gently its atmosphere out into space. 83 00:04:53,093 --> 00:04:55,095 The remainder of the star, its core, 84 00:04:55,128 --> 00:04:58,732 is so highly energetic that it's emitting enough radiation 85 00:04:58,766 --> 00:05:02,570 to light up this gas in space, almost like a fluorescent tube. 86 00:05:04,405 --> 00:05:07,408 (narrator) When discovered by telescope in 1820, 87 00:05:07,441 --> 00:05:11,945 the Eye of God appeared only as a fuzzy round shape, 88 00:05:11,979 --> 00:05:14,548 similar to what planets looked like. 89 00:05:14,582 --> 00:05:17,418 Astronomers called it and others like it 90 00:05:17,451 --> 00:05:19,987 "planetary nebulas." 91 00:05:20,020 --> 00:05:25,092 Today's astrophysicists call this the Helix Nebula. 92 00:05:25,125 --> 00:05:28,962 Astronomers used to think that the Helix Nebula 93 00:05:28,996 --> 00:05:32,633 is a coil in space, 94 00:05:32,666 --> 00:05:34,468 and we see it end on, 95 00:05:34,502 --> 00:05:38,071 so it looks like this. 96 00:05:38,105 --> 00:05:41,775 (narrator) More recent study, though, has revealed a different shape 97 00:05:41,809 --> 00:05:44,778 hidden in the dramatic object. 98 00:05:44,812 --> 00:05:47,581 It turns out that modern observations have shown us 99 00:05:47,615 --> 00:05:53,387 that the Helix Nebula actually has two intersecting rings. 100 00:05:53,421 --> 00:05:55,389 (narrator) If we could fly around it, 101 00:05:55,423 --> 00:05:57,858 the Eye of God is suddenly transformed 102 00:05:57,891 --> 00:06:01,028 into something dramatically different. 103 00:06:05,566 --> 00:06:08,902 About 3,000 planetary nebulas 104 00:06:08,936 --> 00:06:13,073 like the Eye of God are known in our galaxy. 105 00:06:13,106 --> 00:06:17,478 They come in a kaleidoscopic mix of strange shapes... 106 00:06:19,980 --> 00:06:22,816 Each a different way a dying star 107 00:06:22,850 --> 00:06:25,419 takes its final gasp. 108 00:06:26,787 --> 00:06:29,890 (Filippenko) There's the Cat's Eye Nebula. 109 00:06:29,923 --> 00:06:32,893 There's the Lemon Slice Nebula. 110 00:06:32,926 --> 00:06:35,195 There's the Owl Nebula. 111 00:06:35,228 --> 00:06:37,831 One of my favorites is the Eskimo Nebula, 112 00:06:37,865 --> 00:06:40,634 because it really does look like there's a face there, 113 00:06:40,668 --> 00:06:43,804 surrounded by a hood to keep it warm. 114 00:06:45,706 --> 00:06:48,742 (narrator) Strange shapes also signal the deaths of stars 115 00:06:48,776 --> 00:06:52,145 that end their lives not so gently 116 00:06:52,179 --> 00:06:55,449 but in violent explosions. 117 00:06:57,851 --> 00:07:00,654 About 7,000 light-years away, 118 00:07:00,688 --> 00:07:05,125 odd-looking evidence of such a blast remains. 119 00:07:05,158 --> 00:07:06,794 It was observed in X-rays, 120 00:07:06,827 --> 00:07:09,162 and when we look at the structure of it, 121 00:07:09,196 --> 00:07:12,700 it appears to have these sort of spooky, dark eyes 122 00:07:12,733 --> 00:07:16,937 and then a grinning face, almost like a ghoulish pumpkin. 123 00:07:16,970 --> 00:07:22,075 (narrator) Consider this a literal blast from the past, 124 00:07:22,109 --> 00:07:27,247 marking a mystery more than 1,000 years old. 125 00:07:27,280 --> 00:07:29,517 (Filippenko) In the year 1006, 126 00:07:29,550 --> 00:07:32,019 a bright star was suddenly seen in the sky, 127 00:07:32,052 --> 00:07:33,721 and it lasted for many months. 128 00:07:33,754 --> 00:07:36,957 It was brighter than Venus. It could be seen during the day. 129 00:07:36,990 --> 00:07:39,126 What could this possibly be? 130 00:07:39,159 --> 00:07:42,863 We now know that this object is the remnant, 131 00:07:42,896 --> 00:07:46,634 the expanding gases, of an exploding star, 132 00:07:46,667 --> 00:07:49,503 a supernova. 133 00:07:49,537 --> 00:07:52,039 (narrator) The most famous of the supernova remnants 134 00:07:52,072 --> 00:07:53,741 is the Crab Nebula, 135 00:07:53,774 --> 00:07:58,278 its shape reminiscent of a crab's shell. 136 00:07:58,311 --> 00:08:01,515 Another is nicknamed the Hand of God 137 00:08:01,549 --> 00:08:04,518 for the form its long fingers of glowing gas 138 00:08:04,552 --> 00:08:07,788 appear to take. 139 00:08:07,821 --> 00:08:11,992 About 300 supernova remnants are visible in some detail 140 00:08:12,025 --> 00:08:15,596 to Earth telescopes, 141 00:08:15,629 --> 00:08:18,532 each one with a different shape. 142 00:08:18,566 --> 00:08:21,835 In supernova remnants, we see a variety of different shapes. 143 00:08:21,869 --> 00:08:24,271 Some look like the "@" sign. 144 00:08:24,304 --> 00:08:27,207 Some look like a Q, the letter Q. 145 00:08:27,240 --> 00:08:28,709 Some look spherical. 146 00:08:28,742 --> 00:08:31,912 There's even one that looks like a manatee. 147 00:08:31,945 --> 00:08:33,013 I don't know how you get the manatee. 148 00:08:33,046 --> 00:08:35,115 That's just crazy. 149 00:08:37,350 --> 00:08:41,221 (narrator) How can the simple spherical shape of a star explode 150 00:08:41,254 --> 00:08:45,926 to create such bizarre remnants? 151 00:08:45,959 --> 00:08:48,762 To investigate, astronomer Andy Howell 152 00:08:48,796 --> 00:08:52,299 enlisted the help of pyrotechnicians. 153 00:08:52,332 --> 00:08:54,101 Well, a supernova, you know, starts with a star 154 00:08:54,134 --> 00:08:55,769 that's spherical, and then 155 00:08:55,803 --> 00:08:57,771 sometimes the explosions are spherical, sometimes not, 156 00:08:57,805 --> 00:08:59,172 so it'll be interesting to see what we get here. 157 00:08:59,206 --> 00:09:00,641 Sure. Okay, let's go over to the firing box, 158 00:09:00,674 --> 00:09:02,075 - and we'll try one out. - Awesome. 159 00:09:02,109 --> 00:09:04,778 Expecting to see, like, a plunger or something here, but-- 160 00:09:04,812 --> 00:09:05,813 [laughs] Like the old days. 161 00:09:05,846 --> 00:09:07,180 - We ready to go? - Yeah. 162 00:09:07,214 --> 00:09:10,317 All right, three, two, one. 163 00:09:11,785 --> 00:09:15,122 Whoa-ho-ho! 164 00:09:15,155 --> 00:09:18,258 Whoa, whoa. That one was--that looks cool. 165 00:09:18,291 --> 00:09:21,695 Let's run that back and see it at the beginning. 166 00:09:23,964 --> 00:09:27,868 It's exploding in some not completely spherical way, 167 00:09:27,901 --> 00:09:30,070 and we see that in stars sometimes 168 00:09:30,103 --> 00:09:32,339 when you light the star off center, 169 00:09:32,372 --> 00:09:34,074 you can get an aspherical explosion. 170 00:09:34,107 --> 00:09:36,343 And, wow, here we really see this plume of material 171 00:09:36,376 --> 00:09:39,079 coming out, messing up the spherical symmetry, 172 00:09:39,112 --> 00:09:40,848 and sometimes we see that in supernova remnants. 173 00:09:40,881 --> 00:09:42,950 You'll see some little jet that sort of shot out 174 00:09:42,983 --> 00:09:44,184 of the supernova. 175 00:09:44,217 --> 00:09:46,286 So it's not exactly a supernova, 176 00:09:46,319 --> 00:09:48,989 but it's pretty analogous. 177 00:09:50,390 --> 00:09:52,693 (narrator) Some other stellar explosions, 178 00:09:52,726 --> 00:09:54,828 as well as the planetary nebulas, 179 00:09:54,862 --> 00:09:58,699 are often split personalities. 180 00:09:58,732 --> 00:10:01,835 How can a star possibly start out as a sphere 181 00:10:01,869 --> 00:10:05,072 and then shoot out in two clear directions? 182 00:10:06,807 --> 00:10:09,276 We're trying to demonstrate how some shapes 183 00:10:09,309 --> 00:10:13,346 we see in remnants are bipolar. 184 00:10:13,380 --> 00:10:15,348 Explosions happen, not spherically, 185 00:10:15,382 --> 00:10:17,885 but they come out to the side. 186 00:10:17,918 --> 00:10:19,853 (narrator) A belt of dense debris 187 00:10:19,887 --> 00:10:23,991 may surround an exploding star in space. 188 00:10:24,024 --> 00:10:27,861 On Earth, a metal barrier between explosive charges 189 00:10:27,895 --> 00:10:30,330 does the same job. 190 00:10:30,363 --> 00:10:32,432 (Howell) Any time there's an obstruction, of course, 191 00:10:32,465 --> 00:10:35,669 the energy is going to go where it has least resistance. 192 00:10:35,703 --> 00:10:37,004 It's just going to shoot out. 193 00:10:37,037 --> 00:10:39,139 Okay, so let's fire it, see what we get. 194 00:10:39,172 --> 00:10:40,841 - All right, ready to go? - Ready to go. 195 00:10:40,874 --> 00:10:43,944 All right, three, two, one. 196 00:10:44,912 --> 00:10:48,782 [laughs] Whoa! 197 00:10:48,816 --> 00:10:51,418 When we made an explosion with a barrier in the middle, 198 00:10:51,451 --> 00:10:55,923 we get these beautiful lobes go out on either side. 199 00:10:55,956 --> 00:10:57,991 We see that in a lot of astrophysical contexts 200 00:10:58,025 --> 00:11:00,060 where you have a ring or a disc of material, 201 00:11:00,093 --> 00:11:03,764 and it obstructs the explosion, or the mass lost from the star, 202 00:11:03,797 --> 00:11:07,735 and you see stuff flying out in these lobes. 203 00:11:07,768 --> 00:11:10,871 (narrator) Of all the bipolar shapes in the cosmos, 204 00:11:10,904 --> 00:11:16,009 there's one that's attracting special attention. 205 00:11:16,043 --> 00:11:20,247 The double cloud of glowing gas hides a giant star, 206 00:11:20,280 --> 00:11:23,283 now thought to be an ultra powerful supernova 207 00:11:23,316 --> 00:11:25,018 in the making. 208 00:11:25,052 --> 00:11:27,420 What makes it so different? 209 00:11:27,454 --> 00:11:28,989 And why do some think 210 00:11:29,022 --> 00:11:32,359 it could wipe out millions of species on Earth? 211 00:11:37,765 --> 00:11:41,101 (narrator) In searching space for its strangest shapes, 212 00:11:41,134 --> 00:11:44,171 a certain spot near the Southern Cross constellation 213 00:11:44,204 --> 00:11:45,438 stands out. 214 00:11:45,472 --> 00:11:50,210 There, our ancestors were once perplexed by a sudden mystery 215 00:11:50,243 --> 00:11:55,048 from an ancient star named Eta Carinae. 216 00:11:55,082 --> 00:11:56,950 Eta Carinae is a star 217 00:11:56,984 --> 00:11:59,853 that was relatively obscure for a long time, 218 00:11:59,887 --> 00:12:02,990 but in the early 1840s, it brightened 219 00:12:03,023 --> 00:12:06,860 to become the second brightest star in the sky. 220 00:12:06,894 --> 00:12:09,963 (narrator) A century later, another layer of mystery 221 00:12:09,997 --> 00:12:13,066 enveloped the strange star. 222 00:12:13,100 --> 00:12:17,237 In the 1940s, telescopic observations of Eta Carinae 223 00:12:17,270 --> 00:12:20,140 showed that it wasn't just a point-like star, 224 00:12:20,173 --> 00:12:23,777 but rather, it had a nebula, a cloud of gas, around it. 225 00:12:23,811 --> 00:12:27,414 And in fact, the shape reminded people of a little man 226 00:12:27,447 --> 00:12:31,518 with stubby arms and feet and kind of a pointy head. 227 00:12:31,551 --> 00:12:34,955 (narrator) The nebula was nicknamed the "Homunculus," 228 00:12:34,988 --> 00:12:37,557 for the humanlike creature alchemists were once said 229 00:12:37,590 --> 00:12:40,760 to have created in their laboratory flasks. 230 00:12:42,562 --> 00:12:45,298 Today's telescopes give us a very clear view 231 00:12:45,332 --> 00:12:48,401 of the gas cloud. 232 00:12:48,435 --> 00:12:52,873 What forces were at work to carve out this strange shape? 233 00:12:54,341 --> 00:12:57,577 To explore the answer, astronomer Laura Danly 234 00:12:57,610 --> 00:13:00,247 wants to bring the nebula down to Earth. 235 00:13:00,280 --> 00:13:01,548 - Bryan. - Hey, Laura. 236 00:13:01,581 --> 00:13:02,916 Nice to see you. 237 00:13:02,950 --> 00:13:04,918 (narrator) Cutting-edge 3-D printing 238 00:13:04,952 --> 00:13:07,454 will allow her to hold the Homunculus 239 00:13:07,487 --> 00:13:10,057 in the palm of her hand. 240 00:13:10,090 --> 00:13:11,291 It actually breaks it up, 241 00:13:11,324 --> 00:13:14,294 layer by layer, into essentially the path 242 00:13:14,327 --> 00:13:17,330 that's going to get traced out by the 3-D printer. 243 00:13:17,364 --> 00:13:20,367 Wow, that's not too different from what the scientists did 244 00:13:20,400 --> 00:13:23,336 when they observed it. 245 00:13:23,370 --> 00:13:28,608 (narrator) In 2014, astronomers took about a hundred telescope slices 246 00:13:28,641 --> 00:13:30,577 of the Homunculus, 247 00:13:30,610 --> 00:13:33,580 essentially scanning it in 3-D. 248 00:13:35,382 --> 00:13:39,252 Now the printer uses the data to deposit plastic filament 249 00:13:39,286 --> 00:13:41,154 onto a platform, 250 00:13:41,188 --> 00:13:43,123 where, over the span of eight hours, 251 00:13:43,156 --> 00:13:47,294 the telescope slices take solid form. 252 00:13:47,327 --> 00:13:49,897 It's amazing to be able to hold in my hand 253 00:13:49,930 --> 00:13:51,164 the Homunculus Nebula. 254 00:13:51,198 --> 00:13:53,500 I observed this myself as a grad student, 255 00:13:53,533 --> 00:13:55,268 but to be able to look at it 256 00:13:55,302 --> 00:13:57,938 and see things you can't see from Earth 257 00:13:57,971 --> 00:14:00,607 is really an amazing thing. 258 00:14:00,640 --> 00:14:02,910 For a long time, we thought that Eta Carinae 259 00:14:02,943 --> 00:14:04,311 was just a single star, 260 00:14:04,344 --> 00:14:07,247 so we now know that there is a binary pair. 261 00:14:07,280 --> 00:14:10,183 What we didn't know is, did the binary pair 262 00:14:10,217 --> 00:14:14,955 have any influence on the shape of this Homunculus Nebula? 263 00:14:14,988 --> 00:14:18,458 Now with this 3-D model, we know that it did. 264 00:14:18,491 --> 00:14:21,394 (narrator) Dimples and ridges on each end of the nebula, 265 00:14:21,428 --> 00:14:26,233 plus two distinctive protrusions are the key clues. 266 00:14:26,266 --> 00:14:30,337 Inside the nebula, the binary stars circle each other-- 267 00:14:30,370 --> 00:14:35,142 one 30 times the mass of the sun, the other 90. 268 00:14:35,175 --> 00:14:38,678 Each one emits intense outflows of particles 269 00:14:38,711 --> 00:14:42,582 called stellar winds. 270 00:14:42,615 --> 00:14:45,685 The smaller star whips around the larger one, 271 00:14:45,718 --> 00:14:50,157 carving a tunnel through its stellar winds, 272 00:14:50,190 --> 00:14:55,195 leaving physical imprints on the nebula's cloud. 273 00:14:55,228 --> 00:14:59,933 The story of Eta Carinae, however, is far from over. 274 00:15:01,068 --> 00:15:03,703 In the future, we know that Eta Carinae 275 00:15:03,736 --> 00:15:08,041 will actually undergo a final explosive death, 276 00:15:08,075 --> 00:15:10,077 and at that point when it does explode, 277 00:15:10,110 --> 00:15:14,581 it'll crash into these gases that it had previously ejected, 278 00:15:14,614 --> 00:15:18,351 and this will cause it to become enormously more powerful 279 00:15:18,385 --> 00:15:22,055 than just a typical, run-of-the-mill supernova. 280 00:15:26,459 --> 00:15:30,330 (narrator) Some believe it may produce a gamma ray burst, 281 00:15:30,363 --> 00:15:34,401 a deadly beam of radiation that could cause a mass extinction 282 00:15:34,434 --> 00:15:36,603 here on Earth. 283 00:15:36,636 --> 00:15:41,341 Most astronomers, however, say it's too far away 284 00:15:41,374 --> 00:15:44,477 and the beam wouldn't be a direct hit, 285 00:15:44,511 --> 00:15:48,081 so we're safe for now. 286 00:15:48,115 --> 00:15:51,518 Humanlike shapes such as the odd Homunculus 287 00:15:51,551 --> 00:15:54,654 are actually everywhere in the cosmos. 288 00:15:54,687 --> 00:15:59,226 Could the universe be trying to get our attention? 289 00:15:59,259 --> 00:16:00,393 When we look around us and see 290 00:16:00,427 --> 00:16:02,729 these incredible shapes in nature, 291 00:16:02,762 --> 00:16:06,166 we map them into things we're familiar with on Earth, 292 00:16:06,199 --> 00:16:09,402 like a butterfly or a face or an eye, 293 00:16:09,436 --> 00:16:12,739 and that's this phenomenon called pareidolia. 294 00:16:12,772 --> 00:16:17,344 It just means our monkey brains evolved to recognize 295 00:16:17,377 --> 00:16:21,648 things that would be of interest to us as people. 296 00:16:21,681 --> 00:16:26,219 (narrator) Faces in particular jump out at us everywhere. 297 00:16:26,253 --> 00:16:30,723 Like the ancients, we still see the man in the moon. 298 00:16:30,757 --> 00:16:35,128 The sun recently had surface activity looking like a face, 299 00:16:35,162 --> 00:16:39,499 and if you look carefully on Saturn's moon, Dione, 300 00:16:39,532 --> 00:16:43,403 you'll see a face there too. 301 00:16:43,436 --> 00:16:48,007 But Saturn itself is the epitome of strange shapes. 302 00:16:49,409 --> 00:16:52,779 It's said that beauty is in the eye of the beholder, 303 00:16:52,812 --> 00:16:54,814 but I know few people who don't think 304 00:16:54,847 --> 00:16:58,351 that Saturn is beautiful. 305 00:16:58,385 --> 00:17:03,056 (narrator) The ancients assumed the planet was a simple sphere, 306 00:17:03,090 --> 00:17:07,427 but when Galileo first saw it through his telescope in 1610, 307 00:17:07,460 --> 00:17:12,365 the fuzzy image opened up a new celestial mystery. 308 00:17:12,399 --> 00:17:14,601 When Galileo originally observed Saturn, 309 00:17:14,634 --> 00:17:17,837 he had really a rudimentary telescope 310 00:17:17,870 --> 00:17:19,539 and not great eyesight. 311 00:17:19,572 --> 00:17:22,209 So what he saw was a planetary body 312 00:17:22,242 --> 00:17:24,744 or something that appeared to be a planetary body 313 00:17:24,777 --> 00:17:27,147 with lobes off of the side of it, 314 00:17:27,180 --> 00:17:29,582 and so he drew, in his notebook, 315 00:17:29,616 --> 00:17:32,085 a planet that had these lobes and arcs 316 00:17:32,119 --> 00:17:34,854 off of the side of the planet. 317 00:17:34,887 --> 00:17:39,192 (narrator) As Saturn and the Earth each revolve around the sun, 318 00:17:39,226 --> 00:17:43,463 Saturn's angle, as we look at it, is always changing. 319 00:17:43,496 --> 00:17:47,467 For early telescopes, it was a challenge. 320 00:17:47,500 --> 00:17:49,402 One of the additional difficulties would be 321 00:17:49,436 --> 00:17:53,740 the fact that that fuzzy shape with the two ends 322 00:17:53,773 --> 00:17:57,410 would actually be changing, and that's because, of course, 323 00:17:57,444 --> 00:18:01,181 the rings are changing their tilt one way or the other 324 00:18:01,214 --> 00:18:02,815 as we look at them. 325 00:18:02,849 --> 00:18:06,186 When they're edge-on, they would actually almost disappear, 326 00:18:06,219 --> 00:18:07,887 so it would've been very confusing 327 00:18:07,920 --> 00:18:12,359 as to what could make that shape change. 328 00:18:12,392 --> 00:18:16,129 (narrator) When astronomers concluded Saturn had rings, 329 00:18:16,163 --> 00:18:18,631 the problem was solved, 330 00:18:18,665 --> 00:18:23,303 but it took some 17th-century out-of-the-box thinking. 331 00:18:23,336 --> 00:18:25,238 (Danly) It was really an amazing insight. 332 00:18:25,272 --> 00:18:28,375 No one had ever seen or even thought about something like it. 333 00:18:28,408 --> 00:18:30,343 They had seen planets through telescopes, 334 00:18:30,377 --> 00:18:32,379 and they were all round, but to imagine a planet 335 00:18:32,412 --> 00:18:36,649 with rings around it was really a leap of imagination. 336 00:18:36,683 --> 00:18:40,520 (narrator) But the rings aren't the only strange shapes circling Saturn. 337 00:18:41,721 --> 00:18:44,491 The planet is surrounded by a mysterious array 338 00:18:44,524 --> 00:18:46,593 of weird objects, 339 00:18:46,626 --> 00:18:51,198 among them 62 known moons. 340 00:18:51,231 --> 00:18:54,467 (Howell) My favorite Saturn moon is Mimas 341 00:18:54,501 --> 00:18:58,938 'cause it looks like the Death Star. 342 00:18:58,971 --> 00:19:01,874 It looks just like the Death Star! 343 00:19:01,908 --> 00:19:03,410 In fact, in Star Wars they say, 344 00:19:03,443 --> 00:19:06,213 "That's no moon. That's a space station." 345 00:19:06,246 --> 00:19:07,780 And that's what it looks like, 346 00:19:07,814 --> 00:19:11,651 but we know that the laser death ray on Mimas 347 00:19:11,684 --> 00:19:13,420 is actually just a crater. 348 00:19:13,453 --> 00:19:17,557 There was some giant impact in its past. 349 00:19:17,590 --> 00:19:20,860 (narrator) But the most mysterious shape in the Saturn system 350 00:19:20,893 --> 00:19:23,963 is on the ringed planet itself. 351 00:19:23,996 --> 00:19:26,833 Centered on its pole is a bizarre shape 352 00:19:26,866 --> 00:19:29,936 that seems impossible in nature. 353 00:19:29,969 --> 00:19:33,273 Could it be a sign of intelligent life? 354 00:19:37,477 --> 00:19:39,879 (narrator) Strange shapes and patterns in the heavens 355 00:19:39,912 --> 00:19:43,816 have mystified mankind for thousands of years. 356 00:19:43,850 --> 00:19:47,554 While modern science can explain many of the phenomena 357 00:19:47,587 --> 00:19:50,223 that baffled the ancients, 358 00:19:50,257 --> 00:19:52,792 it has also uncovered new mysteries 359 00:19:52,825 --> 00:19:56,496 that we're only beginning to understand. 360 00:19:57,797 --> 00:20:01,401 The rings of Saturn once puzzled our ancestors. 361 00:20:01,434 --> 00:20:04,704 * 362 00:20:04,737 --> 00:20:06,873 But recent close-ups reveal a shape 363 00:20:06,906 --> 00:20:09,842 that seems to defy explanation: 364 00:20:09,876 --> 00:20:13,846 a hexagon at Saturn's north pole. 365 00:20:13,880 --> 00:20:16,316 When I first saw these pictures of Saturn-- 366 00:20:16,349 --> 00:20:20,353 at one of the poles, there's this hexagon shape-- 367 00:20:20,387 --> 00:20:23,656 I thought, "How the hell do you get that?" 368 00:20:23,690 --> 00:20:27,760 (narrator) The clouds making up the hexagon form six straight sides, 369 00:20:27,794 --> 00:20:30,963 each 8,600 miles long. 370 00:20:32,365 --> 00:20:35,935 Four planet Earths would fit inside of it. 371 00:20:38,538 --> 00:20:43,476 How can nature create this seemingly impossible shape? 372 00:20:43,510 --> 00:20:45,612 It's thought that the hexagon is formed 373 00:20:45,645 --> 00:20:48,681 when winds of differing speeds next to each other 374 00:20:48,715 --> 00:20:53,553 are actually creating vortices or rotations in the atmosphere. 375 00:20:53,586 --> 00:20:58,391 (narrator) But rotations in an atmosphere speed up to become storms. 376 00:20:58,425 --> 00:21:00,793 It happens that way on Earth, 377 00:21:00,827 --> 00:21:05,465 where swirling storms produce hurricanes or tornados, 378 00:21:05,498 --> 00:21:08,901 all more or less circular in shape. 379 00:21:08,935 --> 00:21:13,840 The same is true for the other gas giants in the solar system. 380 00:21:13,873 --> 00:21:15,942 How can something round 381 00:21:15,975 --> 00:21:21,314 end up creating something with six straight sides? 382 00:21:21,348 --> 00:21:25,017 This laboratory simulation in a tank of rotating fluids 383 00:21:25,051 --> 00:21:27,554 may reveal the secret. 384 00:21:27,587 --> 00:21:30,490 Six swirling vortexes around the edge 385 00:21:30,523 --> 00:21:34,827 work together to create the familiar shape. 386 00:21:34,861 --> 00:21:37,029 The vortexes on the ringed planet 387 00:21:37,063 --> 00:21:40,032 are thought to be atmospheric cyclones, 388 00:21:40,066 --> 00:21:45,037 large storms the size of Earth that are not visible from space. 389 00:21:45,071 --> 00:21:49,476 Most of the action is apparently below the surface. 390 00:21:49,509 --> 00:21:52,512 The very sharp corners of the hexagon 391 00:21:52,545 --> 00:21:55,482 are the places where there are pinch points 392 00:21:55,515 --> 00:21:57,116 between two cyclones, 393 00:21:57,149 --> 00:22:00,953 so it looks like it's kind of an unnatural shape in nature, 394 00:22:00,987 --> 00:22:06,493 but in fact, it's very naturally shaped by those storms. 395 00:22:06,526 --> 00:22:10,062 (narrator) The extreme winds and chemical clouds of the gas giants 396 00:22:10,096 --> 00:22:15,968 create strange shapes in a realm of wild, fluid motions. 397 00:22:16,002 --> 00:22:20,440 But on the rocky planets of the inner solar system, 398 00:22:20,473 --> 00:22:24,076 other forces are at work. 399 00:22:24,110 --> 00:22:26,446 The planet Mars is especially rich 400 00:22:26,479 --> 00:22:29,816 in weirdly shaped rocks and landscapes. 401 00:22:29,849 --> 00:22:32,118 (Howell) We see a lot of strange shapes on Mars, 402 00:22:32,151 --> 00:22:37,089 because now we have so many satellites and robots on Mars 403 00:22:37,123 --> 00:22:39,459 that we're seeing so much of the planet. 404 00:22:39,492 --> 00:22:42,128 There's just a lot more chance to see cool stuff. 405 00:22:42,161 --> 00:22:45,131 [futuristic music] 406 00:22:45,164 --> 00:22:52,138 * 407 00:22:52,171 --> 00:22:54,741 In fact, Mars is the only planet we know about 408 00:22:54,774 --> 00:22:57,544 that's entirely populated by robots. 409 00:22:57,577 --> 00:23:00,079 Of course, it's robots that we sent there. 410 00:23:04,551 --> 00:23:08,588 (narrator) The mysteries of Mars began in ancient times. 411 00:23:08,621 --> 00:23:13,693 Its red color led the Chinese to call it "the fire star" 412 00:23:13,726 --> 00:23:17,564 and the Romans to name it for their god of war. 413 00:23:19,165 --> 00:23:22,535 19th-century astronomers thought they saw canals 414 00:23:22,569 --> 00:23:26,673 built by aliens on a Mars rich with vegetation. 415 00:23:26,706 --> 00:23:29,709 [dramatic music] 416 00:23:29,742 --> 00:23:30,710 * 417 00:23:30,743 --> 00:23:33,646 The notion of a powerful Martian civilization 418 00:23:33,680 --> 00:23:36,516 lasted well into modern times, 419 00:23:36,549 --> 00:23:40,787 when space probes revealed the truth. 420 00:23:40,820 --> 00:23:44,891 From our spacecraft that we have observing Mars today, 421 00:23:44,924 --> 00:23:47,960 we know that Mars is not a rich, lush environment 422 00:23:47,994 --> 00:23:52,899 that has life and plants on it. 423 00:23:52,932 --> 00:23:54,634 From the photos from Mars, 424 00:23:54,667 --> 00:23:58,638 there are just a host of strange shapes that we can see, 425 00:23:58,671 --> 00:24:00,673 either from orbit or from the surface. 426 00:24:00,707 --> 00:24:03,476 Things like smiley faces in craters, 427 00:24:03,510 --> 00:24:04,811 the man on Mars, 428 00:24:04,844 --> 00:24:07,814 footprint-shaped craters, heart-shaped craters, 429 00:24:07,847 --> 00:24:11,217 and on the surface, we see rocks that look like rodents, 430 00:24:11,250 --> 00:24:14,854 frogs, blueberries, bones, traffic lights-- 431 00:24:14,887 --> 00:24:18,758 just a whole host of different things that we can see. 432 00:24:18,791 --> 00:24:22,194 (narrator) Photos from Mars are posted online every day, 433 00:24:22,228 --> 00:24:25,131 and amateur observers have an Internet obsession, 434 00:24:25,164 --> 00:24:29,836 combing through them to pick out weird objects. 435 00:24:29,869 --> 00:24:32,672 Could these be evidence of intelligence, 436 00:24:32,705 --> 00:24:34,974 as some of these amateurs believe, 437 00:24:35,007 --> 00:24:38,144 or is nature just teasing us? 438 00:24:38,177 --> 00:24:41,080 Well, there's millions of rocks on the surface of Mars 439 00:24:41,113 --> 00:24:42,849 in various configurations. 440 00:24:42,882 --> 00:24:46,619 In a chaotic system with so many different variations, 441 00:24:46,653 --> 00:24:50,923 nearly any conceivable shape will be visible somewhere 442 00:24:50,957 --> 00:24:54,994 at some point in time. 443 00:24:55,027 --> 00:24:59,065 (narrator) And those shapes can change. 444 00:24:59,098 --> 00:25:02,034 In 1976, a Mars orbiter 445 00:25:02,068 --> 00:25:05,738 saw the infamous face on Mars, 446 00:25:05,772 --> 00:25:11,744 but in 2001, a more advanced orbiter saw the same feature. 447 00:25:11,778 --> 00:25:14,213 With different lighting and higher resolution, 448 00:25:14,246 --> 00:25:17,684 the face virtually disappears. 449 00:25:19,185 --> 00:25:22,555 Nevertheless, we have an innate human tendency 450 00:25:22,589 --> 00:25:26,325 to see familiar forms in all kinds of objects, 451 00:25:26,358 --> 00:25:28,761 even here on Earth. 452 00:25:28,795 --> 00:25:31,030 At the top of this crest right here, 453 00:25:31,063 --> 00:25:34,166 I see what looks like a toad or a frog. 454 00:25:34,200 --> 00:25:36,636 And if we turn behind us and tilt our heads slightly, 455 00:25:36,669 --> 00:25:38,571 we can see the facial features of something 456 00:25:38,605 --> 00:25:41,708 that looks almost like a troll or a goblin, 457 00:25:41,741 --> 00:25:44,611 so it really demonstrates how you can take 458 00:25:44,644 --> 00:25:46,178 very unfamiliar-looking terrain 459 00:25:46,212 --> 00:25:50,617 and find features in it that look very familiar to us. 460 00:25:52,084 --> 00:25:54,053 (narrator) The shapes on Mars teach us 461 00:25:54,086 --> 00:25:58,024 about the environment that formed them. 462 00:25:58,057 --> 00:26:01,160 Today, Mars is a very dry, windy place, 463 00:26:01,193 --> 00:26:04,697 and so the only forces that are really acting upon rocks 464 00:26:04,731 --> 00:26:08,635 today on Mars are the wind and impacts. 465 00:26:08,668 --> 00:26:11,938 Earlier in Mars' history, if Mars was a much wetter place 466 00:26:11,971 --> 00:26:14,907 than it is today, water would have also contributed 467 00:26:14,941 --> 00:26:18,244 to the shape and appearance of the rocks on the surface. 468 00:26:21,347 --> 00:26:23,049 (narrator) Wind and weather may explain 469 00:26:23,082 --> 00:26:27,386 how the rocks of Mars take on so many different shapes, 470 00:26:27,419 --> 00:26:30,356 but what explains the even more bizarre shapes 471 00:26:30,389 --> 00:26:34,894 hurtling towards us through the far reaches of space? 472 00:26:39,298 --> 00:26:41,300 (narrator) Among the glistening stars 473 00:26:41,333 --> 00:26:45,872 fixed permanently in ancient skies, 474 00:26:45,905 --> 00:26:49,041 an occasional misbehaving intruder would strike fear 475 00:26:49,075 --> 00:26:53,212 into the hearts of the earliest astronomers. 476 00:26:53,245 --> 00:26:55,414 Today we call them comets, 477 00:26:55,447 --> 00:26:58,017 from the Greek word for "long hair," 478 00:26:58,050 --> 00:27:01,253 an allusion to their glowing tails. 479 00:27:01,287 --> 00:27:06,192 To our ancestors, they were invariably bad news. 480 00:27:06,225 --> 00:27:08,895 (Danly) Comets were terrifying to our ancestors. 481 00:27:08,928 --> 00:27:10,162 They didn't know what they were. 482 00:27:10,196 --> 00:27:11,864 They didn't know where they came from. 483 00:27:11,898 --> 00:27:14,266 They just appeared, and they were unlike anything 484 00:27:14,300 --> 00:27:16,202 they had ever seen before. 485 00:27:16,235 --> 00:27:17,904 (narrator) Records of comet sightings 486 00:27:17,937 --> 00:27:22,308 go back at least as far as 1600 B.C. in China, 487 00:27:22,341 --> 00:27:25,745 where they were known as "vile stars." 488 00:27:25,778 --> 00:27:29,248 Other cultures blamed them for various calamities: 489 00:27:29,281 --> 00:27:32,785 the murder of Julius Caesar in Rome, 490 00:27:32,819 --> 00:27:35,755 the Black Death in England, 491 00:27:35,788 --> 00:27:40,192 the arrival of the conquistadors in South America. 492 00:27:40,226 --> 00:27:44,196 Modern science tells us comets are dirty snowballs, 493 00:27:44,230 --> 00:27:46,065 collections of ice and dust, 494 00:27:46,098 --> 00:27:49,802 left over from the solar system's formation. 495 00:27:49,836 --> 00:27:52,972 [dramatic music] 496 00:27:53,005 --> 00:27:55,407 The sun heats them up, 497 00:27:55,441 --> 00:28:00,446 and jets of matter stream out to form their spectacular tails. 498 00:28:02,114 --> 00:28:07,787 But the closer you look, the stranger comets become. 499 00:28:07,820 --> 00:28:10,857 (Danly) Even through a telescope, we didn't really know 500 00:28:10,890 --> 00:28:13,225 what the true shape of a comet was, 501 00:28:13,259 --> 00:28:16,929 until we were able to send spacecraft out to visit them 502 00:28:16,963 --> 00:28:19,832 and look up close. 503 00:28:19,866 --> 00:28:26,138 (narrator) The spacecraft Giotto made the first flyby in 1985, 504 00:28:26,172 --> 00:28:29,508 revealing a close-up of Halley's Comet. 505 00:28:29,541 --> 00:28:32,378 It proved that comets are lumpy objects 506 00:28:32,411 --> 00:28:35,848 in the strangest of shapes. 507 00:28:35,882 --> 00:28:38,117 And now that we've gotten up-close views, 508 00:28:38,150 --> 00:28:40,953 we see that they don't look anything like we thought. 509 00:28:40,987 --> 00:28:43,522 There are a handful of them that are sort of roundish, 510 00:28:43,555 --> 00:28:46,392 but the majority of those we've seen 511 00:28:46,425 --> 00:28:50,129 have a double-lobed shape. 512 00:28:50,162 --> 00:28:53,265 (narrator) In 2004, the Rosetta mission was launched 513 00:28:53,299 --> 00:28:57,036 on a ten-year journey to orbit and place a lander 514 00:28:57,069 --> 00:29:02,241 on a comet more than 300 million miles from Earth. 515 00:29:02,274 --> 00:29:05,111 Prior to the launch, the Hubble space telescopes 516 00:29:05,144 --> 00:29:09,148 snapped 61 grainy photos of the comet. 517 00:29:09,181 --> 00:29:12,418 By analyzing tiny fluctuations in its brightness, 518 00:29:12,451 --> 00:29:16,555 astronomers calculated its approximate form-- 519 00:29:16,588 --> 00:29:19,425 an irregular lump, tumbling through space 520 00:29:19,458 --> 00:29:22,528 at two revolutions per day. 521 00:29:24,530 --> 00:29:30,036 But in late 2014, the probe finally approached the comet, 522 00:29:30,069 --> 00:29:35,341 and scientists were shocked at the bizarre shape they saw. 523 00:29:35,374 --> 00:29:37,243 The very recent Rosetta mission 524 00:29:37,276 --> 00:29:41,047 took exquisite photographs of Comet 67P, 525 00:29:41,080 --> 00:29:45,584 showing that it actually resembles a rubber ducky. 526 00:29:45,617 --> 00:29:47,954 It would have been awesome if it was a real rubber ducky, 527 00:29:47,987 --> 00:29:52,358 but it's just a bunch of rocks that look like a rubber ducky. 528 00:29:52,391 --> 00:29:54,260 (Walkowicz) The thing is, we don't really know 529 00:29:54,293 --> 00:29:57,930 how you make a comet that is this shape. 530 00:29:57,964 --> 00:29:59,598 It's extremely complicated, 531 00:29:59,631 --> 00:30:02,935 and we didn't really expect to see something 532 00:30:02,969 --> 00:30:06,238 that was that shape to begin with. 533 00:30:06,272 --> 00:30:08,374 There are a couple of different ways in which comets 534 00:30:08,407 --> 00:30:10,342 could get that double-lobed shape. 535 00:30:10,376 --> 00:30:13,880 One is, indeed, two objects that sort of stick together 536 00:30:13,913 --> 00:30:16,348 that, when they collide, they don't collide with enough force 537 00:30:16,382 --> 00:30:18,885 to bounce off each other or shatter each other 538 00:30:18,918 --> 00:30:22,054 but just to sort of stick to one another. 539 00:30:25,057 --> 00:30:30,562 (narrator) But could Comet 67P have formed as a single object, 540 00:30:30,596 --> 00:30:34,233 getting its curious shape later on? 541 00:30:34,266 --> 00:30:37,970 Now, you could also imagine that the cometary physics is at work 542 00:30:38,004 --> 00:30:40,506 in sculpting this particular odd shape. 543 00:30:40,539 --> 00:30:43,910 As the comet comes into our inner solar system, 544 00:30:43,943 --> 00:30:47,246 gases start to stream off from it as it gets heated up 545 00:30:47,279 --> 00:30:49,181 by the light from our sun. 546 00:30:49,215 --> 00:30:50,549 You can think of these a little bit 547 00:30:50,582 --> 00:30:53,385 as though they were like geysers on our planet, 548 00:30:53,419 --> 00:30:56,255 geologic activity where warmer material 549 00:30:56,288 --> 00:30:57,990 starts to stream out of the comet, 550 00:30:58,024 --> 00:31:02,194 possibly causing cracking and reshaping of the surface. 551 00:31:02,228 --> 00:31:06,032 (narrator) Could Rosetta's up-close view tell us which of the scenarios 552 00:31:06,065 --> 00:31:08,067 is the right one? 553 00:31:08,100 --> 00:31:10,136 (Danly) Recent observations show that the composition 554 00:31:10,169 --> 00:31:13,039 of the two lobes of 67P are very similar. 555 00:31:13,072 --> 00:31:15,474 That suggests they came from the same body. 556 00:31:15,507 --> 00:31:18,277 We also see that most of the outgassing 557 00:31:18,310 --> 00:31:21,147 comes right at the neck of the rubber ducky, 558 00:31:21,180 --> 00:31:22,681 right at the thinnest part, 559 00:31:22,714 --> 00:31:27,686 so it wears it away and leaves two big lobes on either end. 560 00:31:27,719 --> 00:31:31,690 (narrator) Comets are the lightweights in nearby space. 561 00:31:31,723 --> 00:31:35,694 The asteroids and dwarf planets are their big cousins, 562 00:31:35,727 --> 00:31:40,299 heavier, denser, and in many respects, stranger. 563 00:31:40,332 --> 00:31:43,369 What forces mold these planetary mavericks, 564 00:31:43,402 --> 00:31:47,073 and why, in their midst, is there a place in space 565 00:31:47,106 --> 00:31:50,176 where X marks the spot? 566 00:31:56,182 --> 00:32:01,020 (narrator) Planet Earth has always been a target for impacts from space. 567 00:32:01,053 --> 00:32:04,123 A giant impact may killed off the dinosaurs 568 00:32:04,156 --> 00:32:07,994 about 65 million years ago. 569 00:32:08,027 --> 00:32:09,695 And ancient mythology is filled 570 00:32:09,728 --> 00:32:13,499 with legends of rocks from the sky. 571 00:32:13,532 --> 00:32:18,304 The Greek deity Kronos is said to have cast a meteor to Earth 572 00:32:18,337 --> 00:32:23,675 landing at Delphi, where it was worshipped as sacred. 573 00:32:23,709 --> 00:32:27,546 This brings the search for strange shapes in the universe 574 00:32:27,579 --> 00:32:32,551 to the space between Mars and Jupiter, 575 00:32:32,584 --> 00:32:36,288 where the oddly formed asteroids are found. 576 00:32:36,322 --> 00:32:38,724 Most meteorites come from the asteroid belt. 577 00:32:38,757 --> 00:32:40,592 They're little chunks of asteroid that, 578 00:32:40,626 --> 00:32:43,429 through collisions, got knocked off their orbits 579 00:32:43,462 --> 00:32:45,731 and fell to Earth. 580 00:32:45,764 --> 00:32:48,767 [dramatic music] 581 00:32:48,800 --> 00:32:49,768 * 582 00:32:49,801 --> 00:32:54,040 (narrator) Austria, 1492. 583 00:32:55,307 --> 00:32:58,610 The 250-pound Thunderstone of Ensisheim 584 00:32:58,644 --> 00:33:01,280 falls in a fiery streak. 585 00:33:06,218 --> 00:33:10,189 A thunderclap is heard for hundreds of miles around. 586 00:33:10,222 --> 00:33:13,259 [thunder] 587 00:33:15,127 --> 00:33:18,297 (Danly) Like comets, meteorites were bad news. 588 00:33:18,330 --> 00:33:21,300 Emperor Maximilian was so worried about the meteorite, 589 00:33:21,333 --> 00:33:23,235 he had it chained to the church floor 590 00:33:23,269 --> 00:33:25,737 because only by securing it to holy ground 591 00:33:25,771 --> 00:33:29,741 could he neutralize the evil influence. 592 00:33:29,775 --> 00:33:35,081 (narrator) Mysteries among these space rocks persist today. 593 00:33:35,114 --> 00:33:39,318 An eerily ominous shape appeared in the asteroid belt in 2010. 594 00:33:42,188 --> 00:33:45,524 Why did an X suddenly appear there, 595 00:33:45,557 --> 00:33:49,761 with a trail of debris lagging behind it? 596 00:33:49,795 --> 00:33:52,764 Here we have a very unusual asteroid that has a tail 597 00:33:52,798 --> 00:33:56,068 and looks like a comet, but further observation showed 598 00:33:56,102 --> 00:33:58,604 that it has no gas in the tail like a comet would. 599 00:33:58,637 --> 00:34:02,241 Instead, the tail is made of dust. 600 00:34:02,274 --> 00:34:05,244 (narrator) Scientists believe the mysterious debris tail 601 00:34:05,277 --> 00:34:09,848 resulted from a small asteroid striking a much larger one, 602 00:34:09,881 --> 00:34:14,520 but why the cloud of dust in the shape of an X? 603 00:34:14,553 --> 00:34:16,655 One possible explanation for the X shape 604 00:34:16,688 --> 00:34:19,358 is that it's caused by a collision. 605 00:34:19,391 --> 00:34:21,293 The two asteroids were not symmetrical, 606 00:34:21,327 --> 00:34:25,264 and so the crash is not symmetrical. 607 00:34:25,297 --> 00:34:26,365 Imagine a pool of water. 608 00:34:26,398 --> 00:34:28,667 If you drop a single drop into it, 609 00:34:28,700 --> 00:34:31,303 you get perfectly round, smooth ripples, 610 00:34:31,337 --> 00:34:32,671 but if you drop something else, 611 00:34:32,704 --> 00:34:34,440 like ice cubes with square edges, 612 00:34:34,473 --> 00:34:35,874 you'll get a ragged splash, 613 00:34:35,907 --> 00:34:39,245 kind of like the ragged X in the asteroid crash. 614 00:34:41,513 --> 00:34:44,150 (narrator) Collisions help make the asteroid belt 615 00:34:44,183 --> 00:34:46,385 an astronomical sideshow 616 00:34:46,418 --> 00:34:50,456 made up of a fantastic variety of misshapen freaks. 617 00:34:52,424 --> 00:34:57,496 Asteroid Eros may look like a ballet slipper to some, 618 00:34:57,529 --> 00:35:00,432 but other asteroids are grotesque figures 619 00:35:00,466 --> 00:35:03,435 that defy description. 620 00:35:03,469 --> 00:35:06,372 The lumpy, irregular shapes of asteroids 621 00:35:06,405 --> 00:35:07,706 are basically pretty random. 622 00:35:07,739 --> 00:35:10,609 There's no favored shape. 623 00:35:12,844 --> 00:35:14,546 (narrator) In fact, irregular shapes 624 00:35:14,580 --> 00:35:18,817 are found throughout the solar system. 625 00:35:18,850 --> 00:35:22,854 But why are some moons or asteroids round 626 00:35:22,888 --> 00:35:26,325 while others are such bizarre lumps? 627 00:35:26,358 --> 00:35:28,327 (Johnson) The largest objects in our solar system, 628 00:35:28,360 --> 00:35:30,596 and even some very large asteroids, 629 00:35:30,629 --> 00:35:33,565 can have their shape be dominated mostly 630 00:35:33,599 --> 00:35:35,234 by gravitational forces 631 00:35:35,267 --> 00:35:39,505 pulling things into a spherical shape. 632 00:35:39,538 --> 00:35:41,207 (narrator) In the solar system, 633 00:35:41,240 --> 00:35:45,411 everything above about 400 miles in diameter is spherical, 634 00:35:45,444 --> 00:35:47,213 because at that size, 635 00:35:47,246 --> 00:35:50,349 gravity is strong enough to crush rock. 636 00:35:50,382 --> 00:35:54,453 It presses from all sides toward the center. 637 00:35:54,486 --> 00:35:56,388 It's something like someone's hands 638 00:35:56,422 --> 00:36:00,759 pressing on a lump of snow to make a spherical snowball. 639 00:36:00,792 --> 00:36:04,196 * 640 00:36:04,230 --> 00:36:06,432 Gravity has done its work on Ceres, 641 00:36:06,465 --> 00:36:09,935 the most massive object in the asteroid belt. 642 00:36:09,968 --> 00:36:13,272 The Dawn spacecraft began orbiting the asteroid 643 00:36:13,305 --> 00:36:15,641 in March 2015, 644 00:36:15,674 --> 00:36:19,778 revealing it to be fully spherical in shape. 645 00:36:19,811 --> 00:36:22,648 Because its shape is dominated by gravity, 646 00:36:22,681 --> 00:36:27,286 it conforms to the definition of a dwarf planet. 647 00:36:27,319 --> 00:36:30,756 Pluto and other dwarf planets in the outer solar system 648 00:36:30,789 --> 00:36:35,661 follow the same rule and are also spherical in shape. 649 00:36:35,694 --> 00:36:38,330 The one exception to this in our solar system 650 00:36:38,364 --> 00:36:39,898 is the dwarf planet Haumea, 651 00:36:39,931 --> 00:36:42,568 which has a very elongated shape. 652 00:36:42,601 --> 00:36:44,703 Haumea lies out beyond the orbit of Pluto 653 00:36:44,736 --> 00:36:47,306 and is actually spinning so rapidly 654 00:36:47,339 --> 00:36:49,875 that the centrifugal forces that it experiences 655 00:36:49,908 --> 00:36:54,946 are enough to stretch Haumea to a much more elongated shape. 656 00:36:54,980 --> 00:36:58,884 (narrator) But beyond Haumea, beyond the solar system, 657 00:36:58,917 --> 00:37:02,554 beyond the galaxy, the search for strange shapes 658 00:37:02,588 --> 00:37:06,024 extends into the depths of space. 659 00:37:06,057 --> 00:37:09,861 There, the ancients viewed a fuzzy patch among the stars 660 00:37:09,895 --> 00:37:12,964 of the constellation Andromeda. 661 00:37:12,998 --> 00:37:15,767 They were perplexed by what it was, 662 00:37:15,801 --> 00:37:18,270 scarcely knowing it would one day 663 00:37:18,304 --> 00:37:20,606 help solve a fundamental mystery 664 00:37:20,639 --> 00:37:25,811 to reveal the ultimate true size of the universe. 665 00:37:30,516 --> 00:37:32,050 [indistinct chatter] 666 00:37:32,083 --> 00:37:34,052 (narrator) More an a thousand years ago, 667 00:37:34,085 --> 00:37:36,855 stargazers identified something strange 668 00:37:36,888 --> 00:37:40,492 among the stars of the constellation Andromeda. 669 00:37:40,526 --> 00:37:43,595 Neither a star, a planet, nor a comet, 670 00:37:43,629 --> 00:37:46,031 it was an indistinct smudge 671 00:37:46,064 --> 00:37:49,868 and a mystery unsolved for centuries. 672 00:37:49,901 --> 00:37:51,870 My favorite strange shape in the sky 673 00:37:51,903 --> 00:37:53,739 is the Andromeda Nebula. 674 00:37:53,772 --> 00:37:55,040 That's what people used to call it, 675 00:37:55,073 --> 00:37:56,808 'cause they just saw this smudge, 676 00:37:56,842 --> 00:38:00,512 and they used the word for "cloud," "nebula." 677 00:38:00,546 --> 00:38:01,847 (narrator) Stranger still, 678 00:38:01,880 --> 00:38:04,816 the first telescopic photo in 1888 679 00:38:04,850 --> 00:38:08,720 showed its oval form with spiral arms. 680 00:38:08,754 --> 00:38:12,324 No one realized that the intriguing Andromeda Nebula 681 00:38:12,358 --> 00:38:16,462 would upend humanity's view of the universe. 682 00:38:16,495 --> 00:38:18,597 Initially, the entire universe 683 00:38:18,630 --> 00:38:21,867 was thought to consist of our galaxy. 684 00:38:21,900 --> 00:38:25,804 All the stars in our galaxy, all the stars we see in the sky, 685 00:38:25,837 --> 00:38:28,740 everybody thought, "Well, that's just it." 686 00:38:28,774 --> 00:38:29,975 One of the puzzles about 687 00:38:30,008 --> 00:38:32,744 what were called nebulae at the time was, 688 00:38:32,778 --> 00:38:35,781 exactly what they were and where were they? 689 00:38:35,814 --> 00:38:39,050 How far away were they? 690 00:38:39,084 --> 00:38:42,588 (narrator) Was the Andromeda Nebula relatively near 691 00:38:42,621 --> 00:38:45,424 or impossibly far? 692 00:38:45,457 --> 00:38:47,626 The key clue came in 1908, 693 00:38:47,659 --> 00:38:50,896 from Henrietta Leavitt, one in a team of women 694 00:38:50,929 --> 00:38:54,633 paid 25¢ an hour at Harvard Observatory 695 00:38:54,666 --> 00:38:59,538 to analyze telescope photographs on glass plates. 696 00:38:59,571 --> 00:39:01,707 Henrietta Leavitt had spent a lot of time 697 00:39:01,740 --> 00:39:04,876 studying particular types of variable stars, 698 00:39:04,910 --> 00:39:08,647 how those stars changed their brightness. 699 00:39:08,680 --> 00:39:10,649 (narrator) These so-called variable stars 700 00:39:10,682 --> 00:39:13,885 expand and contract in a regular cycle, 701 00:39:13,919 --> 00:39:18,690 almost as if they are breathing, getting brighter and dimmer, 702 00:39:18,724 --> 00:39:22,394 brighter and dimmer. 703 00:39:22,428 --> 00:39:24,896 Leavitt discovered that you can tell how bright 704 00:39:24,930 --> 00:39:27,433 certain types of variable stars are 705 00:39:27,466 --> 00:39:29,635 by how fast they're pulsing. 706 00:39:29,668 --> 00:39:31,069 The slower the pulse, 707 00:39:31,102 --> 00:39:34,673 the greater their overall brightness. 708 00:39:34,706 --> 00:39:37,609 If two variable stars are pulsing with the same cycle, 709 00:39:37,643 --> 00:39:40,979 we know that they have the same overall brightness. 710 00:39:41,012 --> 00:39:44,850 Now take one of them and move it far away. 711 00:39:44,883 --> 00:39:47,753 It looks dimmer to our eye, but by counting the pulses, 712 00:39:47,786 --> 00:39:50,088 we know it's as bright as the near star. 713 00:39:50,121 --> 00:39:53,058 So we can use that difference in apparent brightness 714 00:39:53,091 --> 00:39:56,662 to calculate how far away it is. 715 00:39:56,695 --> 00:39:58,997 (narrator) Legendary astronomer Edwin Hubble 716 00:39:59,030 --> 00:40:01,433 then took up the detective work. 717 00:40:01,467 --> 00:40:04,436 On October 5, 1923, 718 00:40:04,470 --> 00:40:06,705 he examined the Andromeda Nebula 719 00:40:06,738 --> 00:40:09,441 and detected a variable star 720 00:40:09,475 --> 00:40:13,979 that has been called "the star that changed the universe." 721 00:40:14,012 --> 00:40:17,082 Counting the pulses, he figured its distance, 722 00:40:17,115 --> 00:40:22,454 which is now known to be 2.5 million light-years away. 723 00:40:22,488 --> 00:40:25,090 The distance seemed impossibly large, 724 00:40:25,123 --> 00:40:30,095 so large, in fact, that it led to only one conclusion. 725 00:40:30,128 --> 00:40:33,599 It turns out that the Andromeda Nebula 726 00:40:33,632 --> 00:40:35,200 is a galaxy full of stars. 727 00:40:35,233 --> 00:40:39,805 It's another galaxy that's even bigger than our own galaxy. 728 00:40:39,838 --> 00:40:43,241 (narrator) In fact, the mysterious little cloud of the ancients 729 00:40:43,274 --> 00:40:45,911 was not alone. 730 00:40:45,944 --> 00:40:48,480 Telescopes revealed others like it, 731 00:40:48,514 --> 00:40:51,750 each of which was also a galaxy. 732 00:40:51,783 --> 00:40:55,020 The universe had billions of them. 733 00:40:55,053 --> 00:40:57,889 When we learned that Andromeda was outside our galaxy, 734 00:40:57,923 --> 00:40:59,891 it was a revolution in our understanding 735 00:40:59,925 --> 00:41:01,660 in our place in the universe, 736 00:41:01,693 --> 00:41:05,964 so this strangely shaped nebula that no one knew what it was 737 00:41:05,997 --> 00:41:10,769 really held the key to unlocking a universe of galaxies. 738 00:41:10,802 --> 00:41:14,540 (narrator) Today, astronomers marvel at the number of galaxies 739 00:41:14,573 --> 00:41:17,042 observed in the cosmos. 740 00:41:17,075 --> 00:41:19,611 Some of their strangest shapes are caused 741 00:41:19,645 --> 00:41:22,047 when two galaxies come close together 742 00:41:22,080 --> 00:41:26,718 and are twisted or distorted by gravity. 743 00:41:26,752 --> 00:41:29,921 In some cases, they end up looking very peculiar, 744 00:41:29,955 --> 00:41:31,823 like there's the Tadpole Galaxy 745 00:41:31,857 --> 00:41:34,192 that has a galaxy with a long tail, 746 00:41:34,225 --> 00:41:35,426 looks like a pollywog. 747 00:41:35,460 --> 00:41:40,098 There are the Mice, two galaxies with two tails sticking out. 748 00:41:40,131 --> 00:41:42,200 There's the Antennae Galaxy, 749 00:41:42,233 --> 00:41:45,871 again, two galaxies with two antennae sticking out. 750 00:41:45,904 --> 00:41:47,238 (narrator) We live in a universe 751 00:41:47,272 --> 00:41:50,275 full of strangely shaped galaxies, 752 00:41:50,308 --> 00:41:53,244 each populated by strangely shaped asteroids, 753 00:41:53,278 --> 00:41:55,681 comets, and nebulas, 754 00:41:55,714 --> 00:41:59,951 and full of planets covered with strangely shaped rocks. 755 00:41:59,985 --> 00:42:03,655 From our ancient ancestors seeing a face on the moon 756 00:42:03,689 --> 00:42:07,959 to modern scientists spotting a giant hexagon on Jupiter, 757 00:42:07,993 --> 00:42:11,630 the heavens have concealed mysteries across time 758 00:42:11,663 --> 00:42:13,899 and at every scale. 759 00:42:13,932 --> 00:42:17,002 Maybe the most grand structure in the universe 760 00:42:17,035 --> 00:42:20,271 is this filamentary web structure 761 00:42:20,305 --> 00:42:22,908 that connects all the galaxies together. 762 00:42:22,941 --> 00:42:25,243 It's like the scaffolding of the universe, 763 00:42:25,276 --> 00:42:28,213 maybe the skeleton of the universe. 764 00:42:28,246 --> 00:42:30,782 (narrator) The latest version of the cosmic skeleton 765 00:42:30,816 --> 00:42:33,852 is generated by the Illustris Project, 766 00:42:33,885 --> 00:42:37,355 a massive supercomputer simulation. 767 00:42:37,388 --> 00:42:40,692 Like the diagrams and models of the celestial sphere 768 00:42:40,726 --> 00:42:42,594 created by our ancestors, 769 00:42:42,628 --> 00:42:47,232 it essentially encompasses the entire visible universe. 770 00:42:49,167 --> 00:42:50,869 Breathtaking in scope, 771 00:42:50,902 --> 00:42:55,741 it displays the structure of the cosmos in minute detail. 772 00:42:55,774 --> 00:43:02,147 It is a big-picture view of literally everything we can see, 773 00:43:02,180 --> 00:43:06,051 and in a universe of strange shapes, 774 00:43:06,084 --> 00:43:10,221 it is surely the strangest shape of them all. 62945