1
00:00:04,613 --> 00:00:08,449
<i>We pulled
the stars from the skies...</i>

2
00:00:10,719 --> 00:00:13,721
<i>...and brought them
down to Earth.</i>

3
00:00:24,399 --> 00:00:27,168
<i>But at what cost?</i>

4
00:00:27,202 --> 00:00:30,337
<i>When we turned on
all these lights...</i>

5
00:00:30,372 --> 00:00:32,940
<i>we lost something precious.</i>

6
00:00:32,974 --> 00:00:35,376
The stars.

7
00:02:35,430 --> 00:02:39,200
A long time ago,
in a world lit only by fire,

8
00:02:39,234 --> 00:02:41,035
our relationship with the stars

9
00:02:41,069 --> 00:02:43,304
was far more...

10
00:02:43,338 --> 00:02:44,805
personal.

11
00:02:44,840 --> 00:02:46,507
For thousands of generations,

12
00:02:46,541 --> 00:02:47,675
<i>we watched the stars</i>

13
00:02:47,709 --> 00:02:49,744
<i>as if our lives depended on it.</i>

14
00:02:49,778 --> 00:02:52,179
<i>Because they did.</i>

15
00:02:53,682 --> 00:02:56,217
<i>We humans were not the biggest,</i>

16
00:02:56,251 --> 00:02:57,585
the strongest, nor the fastest

17
00:02:57,619 --> 00:02:59,587
of all the animals
we competed against.

18
00:02:59,621 --> 00:03:01,589
But we did have
one thing going for us...

19
00:03:01,623 --> 00:03:03,357
our intelligence.

20
00:03:03,392 --> 00:03:05,726
One aspect of that was a genius

21
00:03:05,761 --> 00:03:07,194
for pattern recognition.

22
00:03:07,229 --> 00:03:09,897
Night after night,
we watched the stars.

23
00:03:09,931 --> 00:03:12,867
And over time,
our ancestors noticed

24
00:03:12,901 --> 00:03:16,070
that the motions of the stars
across the nights of the year

25
00:03:16,104 --> 00:03:17,872
foretold changes on Earth

26
00:03:17,906 --> 00:03:20,741
that threatened or enhanced
our chances for survival.

27
00:03:20,776 --> 00:03:22,410
In a time when our imaginations

28
00:03:22,444 --> 00:03:25,613
were the only stage
where stories came to life,

29
00:03:25,647 --> 00:03:27,381
before there were movies or TVs

30
00:03:27,416 --> 00:03:29,884
or electronic devices
of any kind,

31
00:03:29,918 --> 00:03:33,054
every human culture
connected the dots

32
00:03:33,088 --> 00:03:34,956
to form their own pictures.

33
00:03:36,758 --> 00:03:39,627
<i>These images became the
illustrations of a storybook</i>

34
00:03:39,661 --> 00:03:43,464
<i>that, on a deeper level,
was also a survival manual.</i>

35
00:03:43,498 --> 00:03:46,567
<i>The names and personalities
of the gods, heroes,</i>

36
00:03:46,602 --> 00:03:48,736
<i>farm animals
or familiar objects</i>

37
00:03:48,770 --> 00:03:50,938
<i>varied from culture to culture.</i>

38
00:03:50,973 --> 00:03:55,376
<i>But there was one particularly
gorgeous group of stars</i>

39
00:03:55,410 --> 00:03:59,113
<i>known to the Ancient Greeks
and to us today</i>

40
00:03:59,147 --> 00:04:01,449
<i>as the Pleiades,</i>

41
00:04:01,483 --> 00:04:04,952
<i>a star cluster formed
about 100 million years ago.</i>

42
00:04:04,987 --> 00:04:08,289
<i>Each of them is some 40 times
brighter than our Sun.</i>

43
00:04:08,323 --> 00:04:11,292
<i>And Alcyone, the most luminous,</i>

44
00:04:11,326 --> 00:04:14,829
<i>outshines our Sun 1,000 times.</i>

45
00:04:14,863 --> 00:04:17,798
<i>For ages, the Pleiades
have been used as an eye test</i>

46
00:04:17,833 --> 00:04:21,135
<i>for people all over the world.</i>

47
00:04:21,169 --> 00:04:24,005
<i>If you could see
at least six of them,</i>

48
00:04:24,039 --> 00:04:25,840
<i>you were considered normal.</i>

49
00:04:25,874 --> 00:04:27,675
<i>If you saw more than seven,</i>

50
00:04:27,709 --> 00:04:30,811
<i>you were an ideal candidate
for a warrior or scout.</i>

51
00:04:30,846 --> 00:04:33,981
<i>Among the Ancient Celts and
Druids of the British Isles,</i>

52
00:04:34,016 --> 00:04:37,351
<i>the Pleiades were believed to
have a haunting significance.</i>

53
00:04:37,386 --> 00:04:39,253
<i>On the night of the year
that they reach</i>

54
00:04:39,288 --> 00:04:41,422
<i>the highest point
in the sky at midnight,</i>

55
00:04:41,456 --> 00:04:45,092
<i>the spirits of the dead were
thought to wander the Earth.</i>

56
00:04:45,127 --> 00:04:47,995
<i>This is believed to be
the origin of the holiday</i>

57
00:04:48,030 --> 00:04:50,097
<i>once known as Samhain,</i>

58
00:04:50,132 --> 00:04:51,632
<i>now called Halloween.</i>

59
00:04:51,667 --> 00:04:53,968
<i>All over the Earth,
our ancestors told</i>

60
00:04:54,002 --> 00:04:56,037
<i>wonderful stories to explain</i>

61
00:04:56,071 --> 00:04:59,440
<i>how the Pleiades came
to be in the sky.</i>

62
00:04:59,474 --> 00:05:01,809
For the Kiowa people
of North America,

63
00:05:01,843 --> 00:05:03,978
it happened something like this.

64
00:05:11,687 --> 00:05:14,455
<i>Long, long ago,
some young women</i>

65
00:05:14,489 --> 00:05:16,557
<i>snuck away from their campsite</i>

66
00:05:16,592 --> 00:05:19,026
<i>to dance freely
beneath the stars.</i>

67
00:05:52,728 --> 00:05:54,428
Rock, save us!

68
00:05:54,463 --> 00:05:58,032
Rock, take pity on us!

69
00:05:58,066 --> 00:06:02,103
<i>The rock heard
their cries and grew taller.</i>

70
00:06:07,943 --> 00:06:12,280
<i>Until it became what is today
known as the Devil's Tower.</i>

71
00:06:16,752 --> 00:06:21,022
<i>The maidens were transformed
into the stars of the Pleiades,</i>

72
00:06:21,056 --> 00:06:24,659
<i>which may be seen hanging
above the tower in midwinter.</i>

73
00:06:26,562 --> 00:06:28,863
<i>The Ancient Greeks
also saw those seven jewels</i>

74
00:06:28,897 --> 00:06:30,965
<i>as seven maidens,</i>

75
00:06:30,999 --> 00:06:34,569
<i>the seven daughters of Atlas,</i>

76
00:06:34,603 --> 00:06:37,305
<i>pursued not by bears, but by...</i>

77
00:06:37,339 --> 00:06:39,307
<i>Orion the hunter,</i>

78
00:06:39,341 --> 00:06:42,276
<i>who spied them when he was
out walking one day.</i>

79
00:06:51,320 --> 00:06:54,922
<i>Orion became mad with desire.</i>

80
00:07:01,930 --> 00:07:05,666
<i>For seven years,
he chased them relentlessly.</i>

81
00:07:07,269 --> 00:07:09,604
<i>- Exhausted...
- Zeus, help us.</i>

82
00:07:09,638 --> 00:07:12,106
<i>...they prayed to Zeus
for deliverance.</i>

83
00:07:14,276 --> 00:07:18,746
<i>Zeus, the king of the gods,
felt sorry for them,</i>

84
00:07:18,780 --> 00:07:20,982
<i>and transformed
those seven maidens</i>

85
00:07:21,016 --> 00:07:24,285
<i>into the Pleiades.</i>

86
00:07:31,827 --> 00:07:35,163
But the gods are,
if anything, capricious.

87
00:07:35,197 --> 00:07:38,766
When Orion was killed
by the sting of a scorpion,

88
00:07:38,801 --> 00:07:42,136
Zeus placed him in the sky where
he could resume his pursuit

89
00:07:42,171 --> 00:07:44,105
of the seven gorgeous sisters.

90
00:07:44,139 --> 00:07:46,274
Our ancestors, they wove

91
00:07:46,308 --> 00:07:47,842
brilliantly imaginative stories.

92
00:07:47,876 --> 00:07:50,311
But they can bring us
no closer to the stars

93
00:07:50,345 --> 00:07:51,679
than our dreams.

94
00:07:51,713 --> 00:07:54,482
It took yet another
few thousand years

95
00:07:54,516 --> 00:07:56,784
until three brilliant scientists
unlocked the secrets

96
00:07:56,819 --> 00:07:59,754
of the true lives of the stars.

97
00:08:09,932 --> 00:08:11,566
<i>In 1901,</i>

98
00:08:11,600 --> 00:08:14,536
<i>Harvard was a man's world.</i>

99
00:08:14,570 --> 00:08:17,305
<i>But an astronomer named
Edward Charles Pickering</i>

100
00:08:17,339 --> 00:08:19,007
<i>broke that rule.</i>

101
00:08:21,911 --> 00:08:24,846
Oh, Pickering's office
is just down the hallway.

102
00:08:24,880 --> 00:08:27,048
And that door over
there leads to the room

103
00:08:27,082 --> 00:08:30,552
where he keeps his computers.

104
00:08:41,297 --> 00:08:44,999
We're supposed to call those
women "computers," but, uh,

105
00:08:45,034 --> 00:08:47,602
I've heard more than one fellow
refer to those gals

106
00:08:47,636 --> 00:08:50,538
as "Pickering's Harem."

107
00:08:50,573 --> 00:08:52,907
<i>Pickering
assembled a team of women</i>

108
00:08:52,942 --> 00:08:55,910
<i>to map and classify
the types of stars.</i>

109
00:08:55,945 --> 00:08:59,380
<i>One of them provided the key
to our understanding</i>

110
00:08:59,415 --> 00:09:01,082
<i>of the substance of the stars.</i>

111
00:09:01,116 --> 00:09:03,918
<i>And another devised a way
for us to calculate</i>

112
00:09:03,953 --> 00:09:06,888
<i>the size of the universe.</i>

113
00:09:06,922 --> 00:09:10,558
For some reason, you probably
never heard of either of them.

114
00:09:10,593 --> 00:09:13,061
Wonder why.

115
00:09:14,730 --> 00:09:18,399
<i>That's Annie Jump Cannon,
the leader of the team.</i>

116
00:09:18,434 --> 00:09:20,301
<i>Before she was through,</i>

117
00:09:20,336 --> 00:09:22,737
<i>she catalogued a quarter
of a million stars.</i>

118
00:09:24,440 --> 00:09:27,909
Number 11 is a B7.

119
00:09:27,943 --> 00:09:30,879
That's Alcyone in the Pleiades.

120
00:09:30,913 --> 00:09:33,414
<i>Cannon lost her hearing
during a bout of scarlet fever</i>

121
00:09:33,449 --> 00:09:34,649
<i>when she was a young woman.</i>

122
00:09:34,683 --> 00:09:38,086
Number 12 is a B6.

123
00:09:38,120 --> 00:09:40,955
<i>That's Henrietta Swan Leavitt.
She's also deaf.</i>

124
00:09:40,990 --> 00:09:44,926
<i>And she's the other
great scientist in the room.</i>

125
00:09:44,960 --> 00:09:48,129
<i>Leavitt discovered the law
that astronomers still use</i>

126
00:09:48,164 --> 00:09:49,898
<i>more than a century later</i>

127
00:09:49,932 --> 00:09:51,766
<i>to measure the distances
to the stars</i>

128
00:09:51,801 --> 00:09:54,369
<i>and the size
of the cosmos itself.</i>

129
00:09:56,338 --> 00:09:59,240
<i>Annie Jump Cannon sent out
a Christmas card explaining</i>

130
00:09:59,275 --> 00:10:02,310
<i>what she and her sisters
were actually doing.</i>

131
00:10:02,344 --> 00:10:04,279
<i>The light from a star
is allowed</i>

132
00:10:04,313 --> 00:10:07,782
<i>to fall through a prism placed
in the telescope, she wrote.</i>

133
00:10:07,817 --> 00:10:11,486
<i>Thus magnified, the starlight
is split up into a band</i>

134
00:10:11,520 --> 00:10:13,922
<i>showing its component colors,</i>

135
00:10:13,956 --> 00:10:18,259
<i>the red rays going to one end
and the violet to the other.</i>

136
00:10:18,294 --> 00:10:20,628
<i>This is the spectrum
of the star.</i>

137
00:10:20,663 --> 00:10:23,531
<i>It shows the presence
of fine, dark lines.</i>

138
00:10:23,566 --> 00:10:25,700
<i>By comparing them
with lines given</i>

139
00:10:25,734 --> 00:10:28,002
<i>by glowing substances
in the laboratory,</i>

140
00:10:28,037 --> 00:10:31,639
<i>we can determine that the same
elements familiar to us</i>

141
00:10:31,674 --> 00:10:34,976
<i>on the Earth also exist
in the outermost star.</i>

142
00:10:45,988 --> 00:10:49,724
This is plate number 12358B.

143
00:10:55,030 --> 00:10:59,834
Number one at this plate
is a B-type star.

144
00:11:01,771 --> 00:11:05,540
Make that a B2.

145
00:11:07,543 --> 00:11:09,244
<i>It took Cannon decades</i>

146
00:11:09,278 --> 00:11:11,146
<i>to classify
the spectral character</i>

147
00:11:11,180 --> 00:11:13,581
<i>of hundreds of thousands
of stars</i>

148
00:11:13,616 --> 00:11:16,151
<i>according to the scheme
that she devised.</i>

149
00:11:16,185 --> 00:11:18,586
<i>Cannon discovered
that the stars fell</i>

150
00:11:18,621 --> 00:11:22,690
<i>into a continuous sequence
of seven broad categories</i>

151
00:11:22,725 --> 00:11:25,026
<i>according to their spectral
line patterns.</i>

152
00:11:25,061 --> 00:11:27,395
<i>Each was designated
by a letter.</i>

153
00:11:27,430 --> 00:11:31,332
<i>But the spectral lines of two
stars in the same letter class</i>

154
00:11:31,367 --> 00:11:33,501
<i>could differ in subtle ways,</i>

155
00:11:33,536 --> 00:11:35,703
<i>minute variations
that Cannon learned</i>

156
00:11:35,738 --> 00:11:37,405
<i>to recognize from memory.</i>

157
00:11:37,440 --> 00:11:40,075
<i>To distinguish these spectra
from one another,</i>

158
00:11:40,109 --> 00:11:44,746
<i>she assigned ten numerical
subcategories for each class.</i>

159
00:11:44,780 --> 00:11:47,582
Annie Jump Cannon
organized the stars,

160
00:11:47,616 --> 00:11:49,918
but it would fall to another
scientist to decipher

161
00:11:49,952 --> 00:11:52,220
the hidden meaning in her work.

162
00:11:54,256 --> 00:11:57,692
<i>In the England of 1923,
women were forbidden</i>

163
00:11:57,727 --> 00:12:00,061
<i>from pursuing
advanced degrees in science.</i>

164
00:12:00,096 --> 00:12:02,964
<i>But Cecelia Payne had attended
a lecture in London</i>

165
00:12:02,998 --> 00:12:05,233
<i>by the astronomer
Sir Arthur Eddington,</i>

166
00:12:05,267 --> 00:12:07,869
<i>the first scientist
to provide evidence</i>

167
00:12:07,903 --> 00:12:09,537
<i>that Einstein's revolutionary</i>

168
00:12:09,572 --> 00:12:11,740
<i>General Theory of Relativity
was correct.</i>

169
00:12:11,774 --> 00:12:13,274
<i>From that moment on,</i>

170
00:12:13,309 --> 00:12:14,976
<i>she knew that nothing
would deter her</i>

171
00:12:15,010 --> 00:12:17,479
<i>from pursing her big dreams.</i>

172
00:12:18,981 --> 00:12:21,316
<i>She resolved to emigrate
to America,</i>

173
00:12:21,350 --> 00:12:23,651
<i>where women had already
gained the freedom</i>

174
00:12:23,686 --> 00:12:25,787
<i>to study the stars.</i>

175
00:12:25,821 --> 00:12:28,823
<i>Her application was accepted
at Harvard.</i>

176
00:12:28,858 --> 00:12:31,259
<i>What she would discover there
would challenge</i>

177
00:12:31,293 --> 00:12:33,461
<i>one of the central beliefs
of astronomy.</i>

178
00:12:33,496 --> 00:12:36,097
<i>The resulting impact</i>

179
00:12:36,132 --> 00:12:39,467
<i>would be the dawn
of modern astrophysics.</i>

180
00:12:44,877 --> 00:12:46,678
<i>As the decades passed,</i>

181
00:12:46,713 --> 00:12:49,915
<i>Annie Jump Cannon and her team
kept sifting the stars,</i>

182
00:12:49,949 --> 00:12:51,750
<i>checking each one's
spectral signature</i>

183
00:12:51,784 --> 00:12:54,586
<i>with a fleeting glance
and then dropping them</i>

184
00:12:54,621 --> 00:12:56,421
<i>into one of seven categories.</i>

185
00:12:56,456 --> 00:12:59,257
<i>They became hundreds
of thousands of dots</i>

186
00:12:59,292 --> 00:13:02,594
<i>in a larger picture which
no one could yet understand.</i>

187
00:13:02,629 --> 00:13:07,499
<i>Into this community of women
came one more.</i>

188
00:13:08,901 --> 00:13:10,602
Well, hello there.

189
00:13:10,637 --> 00:13:13,772
You must be Miss Payne.

190
00:13:13,806 --> 00:13:15,073
We've been waiting for you.

191
00:13:15,108 --> 00:13:17,276
Come on in.

192
00:13:17,310 --> 00:13:19,978
<i>Cecilia Payne had
never experienced such kindness</i>

193
00:13:20,013 --> 00:13:22,547
<i>in a scientific setting before.</i>

194
00:13:22,582 --> 00:13:25,217
<i>This sisterhood
generously shared</i>

195
00:13:25,251 --> 00:13:27,319
<i>the fruits of their labors
with her,</i>

196
00:13:27,353 --> 00:13:29,154
<i>and she turned
their observations</i>

197
00:13:29,188 --> 00:13:32,724
<i>into a radical new
understanding of the stars.</i>

198
00:13:32,759 --> 00:13:35,861
The two women became
great friends.

199
00:13:35,895 --> 00:13:37,596
Cannon taught Payne everything
she had learned

200
00:13:37,630 --> 00:13:39,131
about stellar spectra.

201
00:13:39,165 --> 00:13:40,933
And Payne began to analyze
Cannon's data

202
00:13:40,967 --> 00:13:44,670
to see if she could determine
the actual chemical composition

203
00:13:44,704 --> 00:13:46,905
and physical state of the stars.

204
00:13:46,940 --> 00:13:49,241
She brought to this work
her expertise

205
00:13:49,275 --> 00:13:51,109
in theoretical
and atomic physics.

206
00:13:53,947 --> 00:13:56,782
<i>The most prominent features
in the spectra of stars</i>

207
00:13:56,816 --> 00:13:58,517
<i>showed the presence
of heavy elements</i>

208
00:13:58,551 --> 00:14:02,487
<i>such as calcium... and iron,</i>

209
00:14:02,522 --> 00:14:05,457
<i>which are among the most
abundant elements in the Earth.</i>

210
00:14:05,491 --> 00:14:07,459
So astronomers
naturally concluded

211
00:14:07,493 --> 00:14:09,328
that the stars were made

212
00:14:09,362 --> 00:14:11,296
of the same elements
as the Earth

213
00:14:11,331 --> 00:14:13,465
and in roughly
the same proportions.

214
00:14:13,499 --> 00:14:18,370
<i>In 1924, Henry Norris Russell
was the dean</i>

215
00:14:18,404 --> 00:14:21,673
<i>of American astronomers,
having made major contributions</i>

216
00:14:21,708 --> 00:14:24,042
<i>to our understanding
of the stars.</i>

217
00:14:24,077 --> 00:14:26,812
40 to 45 of
the chemical elements

218
00:14:26,846 --> 00:14:28,680
that we have here on Earth

219
00:14:28,715 --> 00:14:31,483
are also present
in the spectrum of the Sun.

220
00:14:31,517 --> 00:14:35,020
So we can assume
that the composition of the Sun

221
00:14:35,054 --> 00:14:37,890
resembles that of the Earth.

222
00:14:37,924 --> 00:14:41,393
If one were to heat the crust
of the Earth to incandescence,

223
00:14:41,427 --> 00:14:44,997
its spectrum would resemble
that of the Sun.

224
00:14:59,579 --> 00:15:03,515
Annie, I think I now
understand what it all means.

225
00:15:03,550 --> 00:15:05,417
All your years of work.

226
00:15:05,451 --> 00:15:06,685
Tell me.

227
00:15:06,719 --> 00:15:08,320
I've calculated
what the spectra

228
00:15:08,354 --> 00:15:10,389
should look like
across a wide range

229
00:15:10,423 --> 00:15:12,057
of temperatures, and they match

230
00:15:12,091 --> 00:15:14,893
your system
of classification perfectly.

231
00:15:14,928 --> 00:15:19,097
The spectrum of any star
tells you exactly how hot it is.

232
00:15:19,132 --> 00:15:25,103
Your "O-B-A-F-G-K-M" is really
a temperature scale of the stars

233
00:15:25,138 --> 00:15:27,639
from the hottest to the coldest.

234
00:15:29,809 --> 00:15:32,611
Here's the headline, Annie.
Thanks to your work,

235
00:15:32,645 --> 00:15:34,680
I've discovered that the stars
are made almost entirely

236
00:15:34,714 --> 00:15:36,348
of hydrogen and helium.

237
00:15:36,382 --> 00:15:39,451
There's a million times more
hydrogen and helium

238
00:15:39,485 --> 00:15:41,620
than the metals in the stars.

239
00:15:41,654 --> 00:15:44,289
I know, it sounds daft.

240
00:15:44,324 --> 00:15:46,358
Are you certain?

241
00:15:46,392 --> 00:15:51,096
Has anyone else checked
your calculations?

242
00:15:51,130 --> 00:15:53,699
Not yet,
but it's all in my thesis,

243
00:15:53,733 --> 00:15:56,168
which is already on its way
to Professor Russell.

244
00:16:07,780 --> 00:16:09,815
Poor woman.

245
00:16:09,849 --> 00:16:13,085
<i>Russell felt
sorry for Cecilia Payne.</i>

246
00:16:13,119 --> 00:16:16,622
<i>Her thesis appeared to him
to be fundamentally flawed.</i>

247
00:16:24,197 --> 00:16:27,633
<i>It is clearly impossible
that hydrogen should be</i>

248
00:16:27,667 --> 00:16:30,335
<i>a million times more abundant
than the metals.</i>

249
00:16:34,541 --> 00:16:38,310
<i>Her carefully
gathered evidence flew in the face</i>

250
00:16:38,344 --> 00:16:40,979
<i>of conventional
scientific wisdom.</i>

251
00:16:41,014 --> 00:16:42,948
<i>"How could I be right,"
she asked,</i>

252
00:16:42,982 --> 00:16:45,184
<i>"if that must mean</i>

253
00:16:45,218 --> 00:16:48,187
<i>that such a distinguished
scientist was wrong?"</i>

254
00:16:49,889 --> 00:16:52,925
<i>Despite her confidence
in the quality of her research,</i>

255
00:16:52,959 --> 00:16:56,028
<i>she caved and added a sentence
to her thesis</i>

256
00:16:56,062 --> 00:16:59,031
<i>that undermined
its greatest insight.</i>

257
00:17:04,571 --> 00:17:06,004
It would be four years

258
00:17:06,039 --> 00:17:08,774
before Russell realized
that Payne was right.

259
00:17:08,808 --> 00:17:11,944
To his credit,
as soon as he did,

260
00:17:11,978 --> 00:17:14,313
he acknowledged
that it was her discovery.

261
00:17:17,750 --> 00:17:21,553
<i>Payne's "Stellar Atmospheres"
is widely regarded</i>

262
00:17:21,588 --> 00:17:23,689
<i>as the most brilliant
PhD thesis</i>

263
00:17:23,723 --> 00:17:25,524
<i>ever written in astronomy.</i>

264
00:17:25,558 --> 00:17:29,895
<i>It became the standard text
in its field.</i>

265
00:17:29,929 --> 00:17:33,632
<i>I was to blame for not
having pressed my point.</i>

266
00:17:33,666 --> 00:17:38,504
<i>I had given in to authority
when I believed I was right.</i>

267
00:17:38,538 --> 00:17:40,572
<i>If you are sure of your facts,</i>

268
00:17:40,607 --> 00:17:43,041
<i>you should defend
your position.</i>

269
00:17:44,444 --> 00:17:46,512
The words of the powerful

270
00:17:46,546 --> 00:17:49,348
may prevail in other spheres
of human experience,

271
00:17:49,382 --> 00:17:53,352
but in science, the only thing
that counts is the evidence

272
00:17:53,386 --> 00:17:55,854
and the logic
of the argument itself.

273
00:17:55,889 --> 00:17:59,258
Cecilia Payne's interpretation
of Annie Jump Cannon's sequence

274
00:17:59,292 --> 00:18:02,027
of stellar spectra
made it possible for us

275
00:18:02,061 --> 00:18:04,263
to read the life stories
of the stars

276
00:18:04,297 --> 00:18:08,267
and to trace the story of life
itself back to its beginnings

277
00:18:08,301 --> 00:18:11,303
in their fiery deaths.

278
00:18:17,289 --> 00:18:20,057
<i>There are many kinds of stars.</i>

279
00:18:20,092 --> 00:18:22,626
<i>Some are bright like the Sun.</i>

280
00:18:22,661 --> 00:18:24,762
<i>Some are dim.</i>

281
00:18:24,796 --> 00:18:26,897
<i>The greatest stars
are ten million times larger</i>

282
00:18:26,932 --> 00:18:29,133
<i>than the smallest ones.</i>

283
00:18:29,167 --> 00:18:31,736
<i>Some stars are old
beyond imagining,</i>

284
00:18:31,770 --> 00:18:34,939
<i>more than ten billion years
of age.</i>

285
00:18:34,973 --> 00:18:37,308
<i>Others are being born
right now.</i>

286
00:18:41,046 --> 00:18:44,015
When atoms fuse
in the hearts of stars,

287
00:18:44,049 --> 00:18:45,316
they make starlight.

288
00:18:45,350 --> 00:18:47,251
Stars are born in litters,

289
00:18:47,285 --> 00:18:50,921
<i>formed from the gas and dust
of interstellar clouds.</i>

290
00:18:50,956 --> 00:18:53,858
<i>The mass of the individual
stars in a litter</i>

291
00:18:53,892 --> 00:18:56,193
<i>can range from the runts--
not much larger</i>

292
00:18:56,228 --> 00:18:58,262
<i>than the largest planets--</i>

293
00:18:58,296 --> 00:19:01,065
<i>to the supergiant stars
that dwarf the Sun.</i>

294
00:19:07,239 --> 00:19:11,142
The stars in the nebula below
Orion's Belt are newborns,

295
00:19:11,176 --> 00:19:12,877
around five million years old,

296
00:19:12,911 --> 00:19:16,113
<i>and still swaddled
in the gas and dust</i>

297
00:19:16,148 --> 00:19:18,315
<i>that gave birth to them.</i>

298
00:19:18,350 --> 00:19:21,485
<i>The stars in the Pleiades
are already toddlers,</i>

299
00:19:21,520 --> 00:19:23,387
<i>about 100 million years old.</i>

300
00:19:23,422 --> 00:19:25,523
<i>They've shed their blankets
of gas and dust,</i>

301
00:19:25,557 --> 00:19:27,458
<i>but they're still bound
together</i>

302
00:19:27,492 --> 00:19:29,393
<i>by their mutual gravity.</i>

303
00:19:29,428 --> 00:19:31,329
<i>Another few hundred
million years,</i>

304
00:19:31,363 --> 00:19:33,965
<i>and they'll drift apart
and go their separate ways,</i>

305
00:19:33,999 --> 00:19:36,500
<i>never to meet again.</i>

306
00:19:36,535 --> 00:19:40,137
<i>Most of the stars of the
Big Dipper are adolescents,</i>

307
00:19:40,172 --> 00:19:42,707
<i>roughly half a billion
years old.</i>

308
00:19:42,741 --> 00:19:45,309
<i>They've already drifted apart
from their birth cluster,</i>

309
00:19:45,344 --> 00:19:48,379
<i>although we can still trace
their common ancestry.</i>

310
00:19:48,413 --> 00:19:51,816
<i>Eventually, they'll spread out
around the Milky Way galaxy.</i>

311
00:19:51,850 --> 00:19:54,685
<i>But most of the familiar
constellations</i>

312
00:19:54,720 --> 00:19:58,055
<i>are a mix of entirely
unrelated stars,</i>

313
00:19:58,090 --> 00:19:59,857
<i>some faint and nearby,</i>

314
00:19:59,891 --> 00:20:03,027
<i>others bright and far away.</i>

315
00:20:05,564 --> 00:20:07,098
<i>Our own Sun?</i>

316
00:20:07,132 --> 00:20:09,100
<i>From the distance
of even a few light-years,</i>

317
00:20:09,134 --> 00:20:12,536
it's hard to find
amidst the other stars.

318
00:20:12,571 --> 00:20:14,572
It's that one.

319
00:20:16,208 --> 00:20:17,708
Our Sun is middle-aged

320
00:20:17,743 --> 00:20:19,677
and a long way
from where it was born.

321
00:20:19,711 --> 00:20:21,379
Its sister stars,

322
00:20:21,413 --> 00:20:23,180
hatched from the same
interstellar cloud,

323
00:20:23,215 --> 00:20:26,050
are dispersed
throughout the galaxy.

324
00:20:26,084 --> 00:20:28,719
Many of them have
their own planets.

325
00:20:28,754 --> 00:20:30,621
Perhaps some of them nurture

326
00:20:30,656 --> 00:20:33,724
the evolution of life
and intelligence.

327
00:20:33,759 --> 00:20:35,860
Most of the stars
in our night sky

328
00:20:35,894 --> 00:20:39,530
actually orbit around one
or more stellar companions.

329
00:20:39,564 --> 00:20:41,065
With the naked eye,

330
00:20:41,099 --> 00:20:42,633
we usually can't see
the fainter members

331
00:20:42,668 --> 00:20:44,902
in such double
and multiple star systems.

332
00:20:47,639 --> 00:20:49,540
<i>On a world with three suns,</i>

333
00:20:49,574 --> 00:20:51,475
<i>the nights would be rare</i>

334
00:20:51,510 --> 00:20:55,146
<i>and the days might alternate
between red and blue.</i>

335
00:21:01,653 --> 00:21:04,388
<i>It is the destiny
of stars to collapse.</i>

336
00:21:04,423 --> 00:21:06,390
<i>Of the thousands
of stars you see</i>

337
00:21:06,425 --> 00:21:08,559
<i>when you look up
at the night sky,</i>

338
00:21:08,594 --> 00:21:09,894
<i>every one of them is living</i>

339
00:21:09,928 --> 00:21:12,063
<i>in an interval
between two collapses...</i>

340
00:21:12,097 --> 00:21:14,932
<i>an initial collapse of a dark,
interstellar gas cloud</i>

341
00:21:14,967 --> 00:21:16,567
<i>to form the star,</i>

342
00:21:16,602 --> 00:21:19,136
<i>and a final collapse
of the luminous star</i>

343
00:21:19,171 --> 00:21:21,906
<i>on its way
to its ultimate fate.</i>

344
00:21:21,940 --> 00:21:23,608
Gravity makes stars contract,

345
00:21:23,642 --> 00:21:25,843
unless some other force
intervenes.

346
00:21:25,877 --> 00:21:29,180
The Sun is a great, big ball
of incandescent gas.

347
00:21:29,214 --> 00:21:32,149
The super hot gas in its core

348
00:21:32,184 --> 00:21:34,185
pushes the Sun
to expand outward.

349
00:21:34,219 --> 00:21:37,021
At the same time,
the Sun's own gravity

350
00:21:37,055 --> 00:21:39,090
pulls it inward to contract.

351
00:21:39,124 --> 00:21:41,826
And our Sun is poised
between these two forces

352
00:21:41,860 --> 00:21:43,694
in a stable equilibrium

353
00:21:43,729 --> 00:21:46,864
between gravity
and nuclear fire,

354
00:21:46,899 --> 00:21:48,366
a balance it will maintain

355
00:21:48,400 --> 00:21:50,701
for another four billion years.

356
00:21:50,736 --> 00:21:53,037
But as the Sun
consumes hydrogen,

357
00:21:53,071 --> 00:21:56,007
its core very slowly shrinks,

358
00:21:56,041 --> 00:21:59,510
and the Sun's surface
gradually expands in response.

359
00:21:59,544 --> 00:22:00,978
It happens very slowly,

360
00:22:01,013 --> 00:22:02,480
imperceptibly,

361
00:22:02,514 --> 00:22:04,215
over the course
of millions of years.

362
00:22:04,249 --> 00:22:06,317
But in about a billion years,

363
00:22:06,351 --> 00:22:08,286
the Sun will be
ten percent brighter

364
00:22:08,320 --> 00:22:10,488
than it is today.

365
00:22:13,158 --> 00:22:15,126
Ten percent may not
sound like much,

366
00:22:15,160 --> 00:22:19,163
but that extra heat
will have a big effect on Earth.

367
00:22:26,271 --> 00:22:28,906
When the Sun finally exhausts
its nuclear fuel

368
00:22:28,941 --> 00:22:31,576
four or five
billion years from now,

369
00:22:31,610 --> 00:22:35,213
its gas will cool
and the pressure will fall.

370
00:22:35,247 --> 00:22:36,647
The Sun's interior

371
00:22:36,682 --> 00:22:38,182
can no longer support the weight

372
00:22:38,217 --> 00:22:39,850
of the outer layers,

373
00:22:39,885 --> 00:22:43,221
and the initial collapse
will resume.

374
00:22:43,255 --> 00:22:45,089
Nothing lasts forever.

375
00:22:45,123 --> 00:22:47,592
Even the stars die.

376
00:22:47,626 --> 00:22:49,894
Helium, the ash

377
00:22:49,928 --> 00:22:51,862
of ten billion years
of hydrogen fusion,

378
00:22:51,897 --> 00:22:54,098
has built up in the core.

379
00:22:54,132 --> 00:22:56,667
With no nuclear fire
to sustain its weight,

380
00:22:56,702 --> 00:22:59,170
the core collapses
until it becomes hot enough

381
00:22:59,204 --> 00:23:02,540
to start fusing helium
into carbon and oxygen.

382
00:23:02,574 --> 00:23:04,175
The core of the Sun

383
00:23:04,209 --> 00:23:06,410
is now much hotter
than it was before.

384
00:23:06,445 --> 00:23:09,180
Its atmosphere rapidly expands.

385
00:23:09,214 --> 00:23:12,283
Over the next billion years,
it'll become bloated

386
00:23:12,317 --> 00:23:14,785
to more than 100 times
its original size--

387
00:23:14,820 --> 00:23:17,922
a red giant star.

388
00:23:20,926 --> 00:23:23,127
<i>It will envelop and devour</i>

389
00:23:23,161 --> 00:23:25,730
<i>the planets Mercury...</i>

390
00:23:28,267 --> 00:23:30,635
<i>...and Venus...</i>

391
00:23:35,007 --> 00:23:37,108
<i>...and possibly the Earth.</i>

392
00:23:39,111 --> 00:23:40,945
<i>I like to think that</i>

393
00:23:40,979 --> 00:23:43,481
<i>tens of millions of years
before that far distant future,</i>

394
00:23:43,515 --> 00:23:46,717
<i>if there still be life
born of Earth,</i>

395
00:23:46,752 --> 00:23:50,354
<i>it will have found new homes
among the stars.</i>

396
00:23:52,324 --> 00:23:54,392
<i>Once the Sun burns
through its helium,</i>

397
00:23:54,426 --> 00:23:56,594
<i>it will become highly unstable,</i>

398
00:23:56,628 --> 00:23:59,530
<i>casting off its outer layers
into space.</i>

399
00:24:01,934 --> 00:24:03,668
<i>The exposed, super hot core</i>

400
00:24:03,702 --> 00:24:05,403
<i>will flood its surroundings</i>

401
00:24:05,437 --> 00:24:07,805
<i>with high-energy
ultraviolet light.</i>

402
00:24:10,042 --> 00:24:13,878
<i>The atoms will perform
a wild, fluorescent dance.</i>

403
00:24:20,052 --> 00:24:22,954
<i>The Sun will collapse
like a soufflé,</i>

404
00:24:22,988 --> 00:24:26,123
shrinking a hundredfold
to the size of the Earth.

405
00:24:26,158 --> 00:24:28,793
And at that point,
the Sun will be so dense

406
00:24:28,827 --> 00:24:31,362
that its overcrowded electrons
will push back,

407
00:24:31,396 --> 00:24:33,664
stopping any further
contraction.

408
00:24:33,699 --> 00:24:35,433
The kernel of light
at the center

409
00:24:35,467 --> 00:24:38,870
will be the only part
of the Sun that endures,

410
00:24:38,904 --> 00:24:42,340
a white dwarf star
that will go on shining dimly

411
00:24:42,374 --> 00:24:45,042
for another 100 billion years.

412
00:24:45,077 --> 00:24:47,378
Will the beings
of a distant future,

413
00:24:47,412 --> 00:24:49,814
sailing past
this wreck of a star,

414
00:24:49,848 --> 00:24:54,719
have any idea of the life
and worlds that it once warmed?

415
00:25:14,643 --> 00:25:16,711
<i>The psychedelic death shrouds</i>

416
00:25:16,745 --> 00:25:19,748
<i>of ordinary stars are fleeting,</i>

417
00:25:19,782 --> 00:25:23,118
<i>lasting only
tens of thousands of years</i>

418
00:25:23,152 --> 00:25:26,554
<i>before dissipating in
the interstellar gas and dust</i>

419
00:25:26,589 --> 00:25:28,623
<i>from which the new stars
will be born.</i>

420
00:25:33,129 --> 00:25:35,530
<i>The stars in
a binary star system</i>

421
00:25:35,564 --> 00:25:37,632
<i>can have a different fate.</i>

422
00:25:37,666 --> 00:25:40,802
<i>Sirius, the brightest star
in the night sky,</i>

423
00:25:40,836 --> 00:25:43,905
<i>has a very faint
stellar companion--</i>

424
00:25:43,939 --> 00:25:45,306
<i>a white dwarf.</i>

425
00:25:45,341 --> 00:25:47,242
<i>It was once a Sun-like star.</i>

426
00:25:47,276 --> 00:25:50,044
<i>Someday, when Sirius
runs out of fuel</i>

427
00:25:50,079 --> 00:25:51,880
<i>and becomes a red giant,</i>

428
00:25:51,914 --> 00:25:54,716
<i>it will shed its substance
onto the white dwarf.</i>

429
00:25:54,750 --> 00:25:57,819
<i>The intense gravity
of the companion</i>

430
00:25:57,853 --> 00:25:59,454
<i>will attract that gas,</i>

431
00:25:59,488 --> 00:26:01,890
<i>pulling it into
a spiraling disk.</i>

432
00:26:01,924 --> 00:26:04,059
<i>When the gas
from the larger star</i>

433
00:26:04,093 --> 00:26:06,061
<i>falls onto the surface
of the white dwarf,</i>

434
00:26:06,095 --> 00:26:08,997
<i>it will trigger
nuclear explosions.</i>

435
00:26:12,802 --> 00:26:14,669
<i>The greatest burst will release</i>

436
00:26:14,703 --> 00:26:17,439
<i>100,000 times more energy
than the Sun.</i>

437
00:26:19,208 --> 00:26:22,277
<i>Each one of those star bursts
is called a "nova,"</i>

438
00:26:22,311 --> 00:26:25,513
<i>from the Latin for "new."</i>

439
00:26:25,548 --> 00:26:28,450
A star about 15 times
as massive as the Sun,

440
00:26:28,484 --> 00:26:31,419
one like Rigel,
the blue supergiant

441
00:26:31,454 --> 00:26:33,521
that forms the right foot
of Orion,

442
00:26:33,556 --> 00:26:35,356
has a different fate in store.

443
00:26:35,391 --> 00:26:38,993
Its collapse will not be stopped
by the pressure of electrons.

444
00:26:41,130 --> 00:26:44,332
The star will keep
falling in on itself,

445
00:26:44,367 --> 00:26:47,369
until its nuclei
become so overcrowded

446
00:26:47,403 --> 00:26:49,838
that they push back.

447
00:26:52,141 --> 00:26:55,176
Rigel will shrink down
about 100,000 times,

448
00:26:55,211 --> 00:26:58,513
until there's no space left
between the nuclei

449
00:26:58,547 --> 00:27:00,749
and it can shrink no more.

450
00:27:05,521 --> 00:27:06,955
At that point, it ignites

451
00:27:06,989 --> 00:27:10,992
a more powerful
nuclear reaction, a supernova.

452
00:27:16,365 --> 00:27:17,899
Most stellar evolution

453
00:27:17,933 --> 00:27:20,001
takes millions
or billions of years.

454
00:27:20,036 --> 00:27:21,736
But the interior collapse

455
00:27:21,771 --> 00:27:24,639
that triggers a supernova
explosion takes only seconds.

456
00:27:24,673 --> 00:27:28,143
What remains will be
an atomic nucleus

457
00:27:28,177 --> 00:27:30,845
the size of a small city--

458
00:27:30,880 --> 00:27:34,716
a rapidly rotating neutron star
called a pulsar.

459
00:27:47,396 --> 00:27:48,863
<i>But for a star more than</i>

460
00:27:48,898 --> 00:27:50,865
<i>30 times as massive
as the Sun--</i>

461
00:27:50,900 --> 00:27:53,868
<i>a star like Alnilam,
in Orion's Belt--</i>

462
00:27:53,903 --> 00:27:56,838
<i>there will be no stopping
its collapse.</i>

463
00:27:56,872 --> 00:27:58,573
<i>In a few million years,</i>

464
00:27:58,607 --> 00:28:00,375
<i>when Alnilam runs out of fuel,</i>

465
00:28:00,409 --> 00:28:02,410
<i>it, too, will go supernova.</i>

466
00:28:02,445 --> 00:28:05,780
<i>The imploding core of Alnilam</i>

467
00:28:05,815 --> 00:28:09,284
<i>will be so massive
that not even nuclear forces</i>

468
00:28:09,318 --> 00:28:12,287
<i>will be strong enough
to hold off its collapse.</i>

469
00:28:12,321 --> 00:28:15,190
<i>Nothing can withstand
such gravity.</i>

470
00:28:15,224 --> 00:28:17,492
<i>And such a star has
an astonishing destiny.</i>

471
00:28:22,298 --> 00:28:24,265
<i>It will continues to collapse,</i>

472
00:28:24,300 --> 00:28:26,868
<i>crossing a boundary
in space-time</i>

473
00:28:26,902 --> 00:28:29,070
<i>called the "event horizon,"</i>

474
00:28:29,105 --> 00:28:31,139
beyond which we cannot see.

475
00:28:31,173 --> 00:28:33,241
<i>When it traverses
that frontier,</i>

476
00:28:33,275 --> 00:28:36,511
<i>the star will vanish
completely from sight.</i>

477
00:28:38,414 --> 00:28:41,049
<i>It will be inside a black hole,</i>

478
00:28:41,083 --> 00:28:43,785
<i>a place where gravity
is so strong</i>

479
00:28:43,819 --> 00:28:47,255
<i>that nothing, not even light,
can escape.</i>

480
00:28:51,927 --> 00:28:53,128
<i>But there's an even</i>

481
00:28:53,162 --> 00:28:54,396
more dramatic fate

482
00:28:54,430 --> 00:28:56,464
that awaits a rare kind of star.

483
00:28:56,499 --> 00:28:58,633
There's one of them
in our galaxy.

484
00:28:58,668 --> 00:29:01,169
It's so unstable
that when it goes,

485
00:29:01,203 --> 00:29:04,639
it won't become a mere nova
or supernova.

486
00:29:04,674 --> 00:29:07,175
It'll become something
far more catastrophic...

487
00:29:07,209 --> 00:29:09,477
a hypernova.

488
00:29:09,512 --> 00:29:12,314
And it could happen
in our lifetime.

489
00:29:23,292 --> 00:29:26,127
<i>There are few places on Earth
to get a better view</i>

490
00:29:26,162 --> 00:29:29,197
<i>of the night sky
than the Australian Outback.</i>

491
00:29:31,000 --> 00:29:33,335
No buildings,

492
00:29:33,369 --> 00:29:36,271
no cars, streetlights,
nothing out here;

493
00:29:36,305 --> 00:29:38,139
just lots of starlight...

494
00:29:38,174 --> 00:29:40,508
and the occasional kangaroo.

495
00:29:40,543 --> 00:29:42,110
You can get
a particularly good view

496
00:29:42,144 --> 00:29:44,012
of the Milky Way from down here.

497
00:29:44,046 --> 00:29:45,714
The center of our galaxy

498
00:29:45,748 --> 00:29:47,349
rises high in the sky,

499
00:29:47,383 --> 00:29:49,384
and it arches across the heavens

500
00:29:49,418 --> 00:29:52,053
like the backbone of night.

501
00:29:52,088 --> 00:29:53,822
We live in a spiral galaxy.

502
00:29:53,856 --> 00:29:55,824
And when we look
at the Milky Way,

503
00:29:55,858 --> 00:29:59,794
we're seeing light from billions
of stars in its spiral disk.

504
00:29:59,829 --> 00:30:02,230
And under this beautiful
dark sky,

505
00:30:02,264 --> 00:30:05,867
you can see that the Milky Way
isn't a uniform band of light.

506
00:30:05,901 --> 00:30:09,004
There are dark patches,
breaks in the starlight.

507
00:30:09,038 --> 00:30:12,907
Those dark patches are caused
by interstellar dust.

508
00:30:12,942 --> 00:30:16,544
The dust blocks the starlight,
and there's lots of it.

509
00:30:18,280 --> 00:30:20,749
Most cultures looked up
at the stars

510
00:30:20,783 --> 00:30:22,083
and connected the dots

511
00:30:22,118 --> 00:30:24,252
to form familiar images
in the sky.

512
00:30:24,287 --> 00:30:26,388
Constellations.

513
00:30:31,560 --> 00:30:33,895
But the Aboriginal people
of Australia

514
00:30:33,930 --> 00:30:36,064
saw a pattern in the darkness

515
00:30:36,098 --> 00:30:38,166
running through the Milky Way.

516
00:30:38,200 --> 00:30:40,902
They saw an emu, a large bird

517
00:30:40,937 --> 00:30:43,204
native to this continent.

518
00:30:43,239 --> 00:30:47,142
Not in the stars,
but in the absence of stars.

519
00:30:50,313 --> 00:30:53,048
There are so many ways
to look at the night sky.

520
00:30:53,082 --> 00:30:56,084
For a million years or more,
we've watched the sky.

521
00:30:56,118 --> 00:30:57,786
And a lot's happened
in that time.

522
00:30:57,820 --> 00:31:01,690
Supernova explode in our galaxy
about once a century.

523
00:31:01,724 --> 00:31:04,759
If we could compress
all those nights of stargazing

524
00:31:04,794 --> 00:31:06,561
into a single minute,

525
00:31:06,596 --> 00:31:09,164
this is what we would see.

526
00:31:14,170 --> 00:31:16,304
Now, if our eyes
were telescopes,

527
00:31:16,339 --> 00:31:19,040
if they were light buckets
as big as wagon wheels

528
00:31:19,075 --> 00:31:22,711
and our vision was not limited
to just one kind of light,

529
00:31:22,745 --> 00:31:27,148
then this is the Milky Way
we would see.

530
00:31:27,183 --> 00:31:29,884
A galaxy in near-infrared light

531
00:31:29,919 --> 00:31:32,053
with streaming tendrils of dust

532
00:31:32,088 --> 00:31:34,756
hurled outward
by those exploding supernovas,

533
00:31:34,790 --> 00:31:36,758
silhouetted against a backdrop

534
00:31:36,792 --> 00:31:39,594
of countless stars.

535
00:31:39,629 --> 00:31:42,564
About 7,500 light-years away,

536
00:31:42,598 --> 00:31:44,799
in another part of our galaxy,

537
00:31:44,834 --> 00:31:46,968
there is a place of upheaval

538
00:31:47,003 --> 00:31:49,437
on an inconceivable scale.

539
00:31:56,238 --> 00:31:59,373
This is the Carina Nebula.

540
00:31:59,408 --> 00:32:01,809
A star-making machine.

541
00:32:05,614 --> 00:32:09,584
It takes a ray of light
50 years to cross it.

542
00:32:12,621 --> 00:32:15,957
The titanic stars born here

543
00:32:15,991 --> 00:32:18,226
sear the surrounding
gas and dust

544
00:32:18,260 --> 00:32:21,262
with their fierce
ultraviolet radiation.

545
00:32:21,296 --> 00:32:23,731
When a massive star dies,

546
00:32:23,765 --> 00:32:27,001
it blows itself to smithereens.

547
00:32:29,671 --> 00:32:32,373
Its substance is propelled
across the vastness

548
00:32:32,407 --> 00:32:34,408
to be stirred by starlight

549
00:32:34,443 --> 00:32:36,711
and gathered up by gravity.

550
00:32:36,745 --> 00:32:38,579
Stars to dust

551
00:32:38,614 --> 00:32:41,415
and dust to stars.

552
00:32:41,450 --> 00:32:44,318
In the cosmos,
nothing is wasted.

553
00:32:46,455 --> 00:32:50,358
But there's an upper limit
to how massive a star can be.

554
00:32:52,694 --> 00:32:55,096
Back in the 17th century,
when Edmond Halley

555
00:32:55,130 --> 00:32:57,798
crossed the equator to map
the southern constellations,

556
00:32:57,833 --> 00:33:01,068
Eta Carinae seemed
like just another faint star.

557
00:33:01,103 --> 00:33:03,905
But in 1843, Eta Carinae

558
00:33:03,939 --> 00:33:06,641
suddenly became the second
brightest star in the sky,

559
00:33:06,675 --> 00:33:09,343
outshined only by Sirius.

560
00:33:09,378 --> 00:33:11,979
And it's been
flipping out ever since.

561
00:33:14,449 --> 00:33:16,617
<i>That dumbbell-shaped cloud</i>

562
00:33:16,652 --> 00:33:19,854
<i>is the expanding remnant
of that event.</i>

563
00:33:24,393 --> 00:33:27,461
<i>At its center
is one crazy star.</i>

564
00:33:27,496 --> 00:33:29,363
<i>Talk about unstable--</i>

565
00:33:29,398 --> 00:33:31,332
<i>Eta Carinae
is at least 100 times</i>

566
00:33:31,366 --> 00:33:32,967
<i>more massive than the Sun,</i>

567
00:33:33,001 --> 00:33:36,270
<i>and pouring out
five million times more light.</i>

568
00:33:36,305 --> 00:33:41,776
<i>It's pushing the upper limit
of what a star can be.</i>

569
00:33:41,810 --> 00:33:44,612
<i>What's more, there's
evidence that Eta Carinae</i>

570
00:33:44,646 --> 00:33:48,382
<i>is being gravitationally
tormented by an evil twin--</i>

571
00:33:48,417 --> 00:33:51,452
<i>another massive star
in orbit around it</i>

572
00:33:51,486 --> 00:33:55,356
<i>as close as Saturn is
to the Sun.</i>

573
00:33:55,390 --> 00:33:59,327
<i>The core of a supermassive star
pours out so much light</i>

574
00:33:59,361 --> 00:34:02,864
<i>that the outward pressure can
overwhelm the star's gravity.</i>

575
00:34:02,898 --> 00:34:05,333
<i>If a star is too massive,</i>

576
00:34:05,367 --> 00:34:08,002
<i>its radiation pressure
overpowers its gravity</i>

577
00:34:08,036 --> 00:34:10,872
<i>and blows the star apart.</i>

578
00:34:12,674 --> 00:34:14,642
The fate of Eta Carinae
was sealed

579
00:34:14,676 --> 00:34:17,078
when it was born
millions of years ago.

580
00:34:17,112 --> 00:34:19,180
When it finally does blow up--

581
00:34:19,214 --> 00:34:21,515
and who knows,
maybe it already has;

582
00:34:21,550 --> 00:34:24,252
after all, we're looking at it
by light that left the star

583
00:34:24,286 --> 00:34:26,754
7,500 years ago--

584
00:34:26,788 --> 00:34:30,725
it will be a cataclysm unlike
anything we've seen before.

585
00:34:30,759 --> 00:34:32,693
A hypernova.

586
00:34:44,640 --> 00:34:47,608
<i>An explosion so powerful,
it'll make a supernova</i>

587
00:34:47,643 --> 00:34:50,511
<i>seem like a firecracker
by comparison.</i>

588
00:34:50,546 --> 00:34:52,713
<i>If there are
nearby solar systems</i>

589
00:34:52,748 --> 00:34:57,051
<i>with planets harboring life,
their days are numbered.</i>

590
00:34:57,085 --> 00:35:00,388
A hypernova spews
so much radiation into space--

591
00:35:00,422 --> 00:35:03,691
not just light,
but X-rays and gamma rays--

592
00:35:03,725 --> 00:35:05,726
that planets that are dozens

593
00:35:05,761 --> 00:35:08,095
or perhaps hundreds
of light-years away

594
00:35:08,130 --> 00:35:10,064
could be stripped
of their atmospheres

595
00:35:10,098 --> 00:35:12,733
and bathed in deadly radiation.

596
00:35:12,768 --> 00:35:14,235
It would wreak havoc

597
00:35:14,269 --> 00:35:16,971
in thousands
of nearby star systems.

598
00:35:17,005 --> 00:35:19,640
Right about now,
you're probably asking yourself,

599
00:35:19,675 --> 00:35:22,076
"Are we safe?"

600
00:35:22,110 --> 00:35:24,445
If Eta Carinae blows up,

601
00:35:24,479 --> 00:35:27,114
what happens to Earth?

602
00:35:27,149 --> 00:35:30,318
<i>Rest assured,
Earth will be just fine.</i>

603
00:35:30,352 --> 00:35:32,720
<i>Remember,
we're 7,500 light-years</i>

604
00:35:32,754 --> 00:35:34,422
<i>away from Eta Carinae.</i>

605
00:35:34,456 --> 00:35:36,557
<i>The intensity of radiation
from a star,</i>

606
00:35:36,592 --> 00:35:38,426
<i>even an exploding star,</i>

607
00:35:38,460 --> 00:35:40,661
<i>falls off rapidly
with distance.</i>

608
00:35:40,696 --> 00:35:44,098
<i>But still, Eta Carinae
in its death throes</i>

609
00:35:44,132 --> 00:35:46,100
<i>will put on quite a show.</i>

610
00:35:46,134 --> 00:35:48,603
<i>It will light up the night
of the southern hemisphere</i>

611
00:35:48,637 --> 00:35:50,972
<i>with the brightness
of a second moon.</i>

612
00:35:51,006 --> 00:35:55,276
<i>The most dramatic swan song
a star can sing.</i>

613
00:36:00,616 --> 00:36:03,284
<i>Our ancestors
worshipped the Sun.</i>

614
00:36:03,318 --> 00:36:06,354
<i>And they were far from foolish.</i>

615
00:36:06,388 --> 00:36:10,091
It makes good sense
to revere the Sun and stars,

616
00:36:10,125 --> 00:36:12,493
because we are their children.

617
00:36:12,528 --> 00:36:15,963
The silicon in the rocks,
the oxygen in the air,

618
00:36:15,998 --> 00:36:19,834
the carbon in our DNA,
the iron in our skyscrapers,

619
00:36:19,868 --> 00:36:22,136
the silver in our jewelry

620
00:36:22,171 --> 00:36:25,973
were all made in stars
billions of years ago.

621
00:36:26,008 --> 00:36:29,677
Our planet, our society
and we ourselves

622
00:36:29,711 --> 00:36:32,180
are stardust.

623
00:36:33,749 --> 00:36:36,884
Well, what is it
that makes the atoms dance?

624
00:36:36,919 --> 00:36:39,654
How is the energy
of a star transformed

625
00:36:39,688 --> 00:36:42,690
into everything
that happens in the world?

626
00:36:42,724 --> 00:36:44,959
What is energy?

627
00:36:44,993 --> 00:36:46,661
We're awash in it.

628
00:36:46,695 --> 00:36:49,463
When hydrogen atoms fuse
inside the Sun,

629
00:36:49,498 --> 00:36:51,165
they make helium atoms.

630
00:36:51,200 --> 00:36:53,668
And this fusion emits
a burst of energy

631
00:36:53,702 --> 00:36:56,971
that can wander inside the Sun
for ten million years

632
00:36:57,005 --> 00:36:59,473
before making its way
to the surface.

633
00:36:59,508 --> 00:37:02,009
And once there, it's free to fly

634
00:37:02,044 --> 00:37:04,212
straight from the Sun
to the Earth

635
00:37:04,246 --> 00:37:06,881
as visible light.

636
00:37:06,915 --> 00:37:10,051
If it should strike
the surface of a leaf,

637
00:37:10,085 --> 00:37:13,020
it will be stored in the plant
as chemical energy.

638
00:37:13,055 --> 00:37:15,056
Sunshine...

639
00:37:15,090 --> 00:37:16,958
into moonshine.

640
00:37:36,378 --> 00:37:40,081
I can feel my brain turning
the chemical energy of the wine

641
00:37:40,115 --> 00:37:42,250
into the electrical energy
of my thoughts

642
00:37:42,284 --> 00:37:44,018
and directing my vocal chords

643
00:37:44,052 --> 00:37:46,787
to produce the acoustic energy
of my voice.

644
00:37:46,822 --> 00:37:49,257
Such transformations of energy

645
00:37:49,291 --> 00:37:51,859
are happening everywhere
all the time.

646
00:37:51,894 --> 00:37:53,528
Energy from our star

647
00:37:53,562 --> 00:37:55,563
drives the wind and the waves

648
00:37:55,597 --> 00:37:57,398
and the life around us.

649
00:37:57,432 --> 00:38:00,868
How lucky we are to have this
vast source of clean energy

650
00:38:00,903 --> 00:38:04,805
falling like manna
from heaven on all of us.

651
00:38:04,840 --> 00:38:06,741
To Annie Jump Cannon,

652
00:38:06,775 --> 00:38:08,409
Henrietta Swan Leavitt

653
00:38:08,443 --> 00:38:10,077
and Cecilia Payne

654
00:38:10,112 --> 00:38:13,047
for blazing the trail
to modern astrophysics.

655
00:38:13,081 --> 00:38:16,984
And to all the sisters
of the Sun.

656
00:38:22,925 --> 00:38:26,894
<i>There's no refuge
from change in the cosmos.</i>

657
00:38:26,929 --> 00:38:29,764
Some ten or 20 million years
from now,

658
00:38:29,798 --> 00:38:32,066
it'll seem for a cosmic moment

659
00:38:32,100 --> 00:38:35,803
as if Orion is finally about
to catch the seven sisters.

660
00:38:35,838 --> 00:38:38,406
But before he has them
in his clutches,

661
00:38:38,440 --> 00:38:42,109
the biggest stars of Orion
will go supernova.

662
00:38:42,144 --> 00:38:45,246
Orion's pursuit of the Pleiades
will finally end,

663
00:38:45,280 --> 00:38:46,747
and the seven sisters

664
00:38:46,782 --> 00:38:49,617
will glide serenely
into the waiting arms

665
00:38:49,651 --> 00:38:52,019
of the Milky Way.

666
00:38:54,690 --> 00:38:57,458
<i>We on Earth marvel--
and rightly so--</i>

667
00:38:57,493 --> 00:39:00,294
<i>at the return
of our solitary Sun.</i>

668
00:39:00,329 --> 00:39:02,663
<i>But from a planet
orbiting a star</i>

669
00:39:02,698 --> 00:39:04,665
<i>in a distant globular cluster,</i>

670
00:39:04,700 --> 00:39:07,802
<i>a still
more glorious dawn awaits.</i>

671
00:39:09,071 --> 00:39:11,205
<i>Not a sunrise...</i>

672
00:39:11,240 --> 00:39:14,175
<i>but a galaxy rise.</i>

673
00:39:14,209 --> 00:39:18,279
<i>A morning filled
with 200 billion suns.</i>

674
00:39:18,313 --> 00:39:21,282
<i>The rising of the Milky Way.</i>

675
00:39:21,316 --> 00:39:25,019
<i>An enormous spiral form
with collapsing gas clouds,</i>

676
00:39:25,053 --> 00:39:28,689
<i>condensing planetary systems,
luminous supergiants,</i>

677
00:39:28,724 --> 00:39:32,627
<i>stable middle-aged suns,
red giants, white dwarfs,</i>

678
00:39:32,661 --> 00:39:35,062
<i>planetary nebulas, supernovas,</i>

679
00:39:35,097 --> 00:39:38,032
<i>neutron stars,
pulsars, black holes</i>

680
00:39:38,066 --> 00:39:40,568
<i>and, there is
every reason to think,</i>

681
00:39:40,602 --> 00:39:44,872
<i>other exotic objects
that we have yet to discover.</i>

682
00:39:44,907 --> 00:39:48,743
<i>From such a world,
high above the Milky Way,</i>

683
00:39:48,777 --> 00:39:51,412
<i>it would be clear,
as it is beginning</i>

684
00:39:51,446 --> 00:39:53,648
<i>to be clear on our world,</i>

685
00:39:53,682 --> 00:39:57,985
<i>that we are made by the atoms
and the stars,</i>

686
00:39:58,020 --> 00:40:00,054
<i>that our matter and our form</i>

687
00:40:00,088 --> 00:40:04,692
<i>are forged by the great
and ancient cosmos,</i>

688
00:40:04,726 --> 00:40:07,395
<i>of which we are a part.</i>