LIFE BEYOND II: The Museum of Alien Life (4K)

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Sᴜᴘᴘᴏʀᴛᴇᴅ ʙʏ
0:03 - 0:04

Sᴜᴘᴘᴏʀᴛᴇᴅ ʙʏ
Protocol Labs
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Sᴜᴘᴘᴏʀᴛᴇᴅ ʙʏ
Protocol Labs
Follow your curiosity.
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Sᴜᴘᴘᴏʀᴛᴇᴅ ʙʏ
Protocol Labs
Follow your curiosity.
Lead humanity forward.
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Protocol Labs
Follow your curiosity.
Lead humanity forward.
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Follow your curiosity.
Lead humanity forward.
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In all the universe,
0:19 - 0:25

In all the universe,
there stands only one known tree of life.
0:31 - 0:34

Does it stand alone?
0:34 - 0:40

Does it stand alone?
Or is it part of a vast cosmic wilderness?
0:46 - 0:53

Imagine a museum
containing every type of life in the universe.
0:58 - 1:01

What strange things would such a museum hold?
1:16 - 1:19

What is possible under the laws of nature?
1:40 - 1:41

LIFE
1:41 - 1:46

LIFE BEYOND
1:49 - 1:50

CHAPTER II
1:50 - 1:55

CHAPTER II
The Museum Of Alien Life
2:03 - 2:04

To have any hope-
2:04 - 2:06

of finding alien life,
2:06 - 2:07

we have to know what to look for.
2:12 - 2:14

But where do we begin?
2:15 - 2:16

How do we narrow down...
2:17 - 2:18

a seemingly infinite set-
2:18 - 2:20

of possibilities?
2:27 - 2:30

There's one thing we know for sure...
2:31 - 2:32

nature will have to play-
2:32 - 2:33

by her own rules.
2:37 - 2:38

No matter how strange-
2:38 - 2:40

alien life might be...
2:40 - 2:41

is going to be limited-
2:41 - 2:43

by the same physical,
2:43 - 2:45

and chemical laws that we are...
2:47 - 2:47

6_
2:47 - 2:47

6 C_
2:47 - 2:47

6 CO_
2:47 - 2:47

6 CO₂
2:47 - 2:47

6 CO₂ +
2:47 - 2:47

6 CO₂ + 6
2:47 - 2:47

6 CO₂ + 6 H_
2:47 - 2:47

6 CO₂ + 6 H₂_
2:47 - 2:48

6 CO₂ + 6 H₂O_
2:48 - 2:48

6 CO₂ + 6 H₂O +
2:48 - 2:48

6 CO₂ + 6 H₂O + L
2:48 - 2:48

6 CO₂ + 6 H₂O + Li
2:48 - 2:48

6 CO₂ + 6 H₂O + Lig_
2:48 - 2:48

6 CO₂ + 6 H₂O + Ligh_
2:48 - 2:48

6 CO₂ + 6 H₂O + Light_
2:48 - 2:48

6 CO₂ + 6 H₂O + Light →
2:48 - 2:48

6 CO₂ + 6 H₂O + Light → C
2:48 - 2:48

6 CO₂ + 6 H₂O + Light → C₆
2:48 - 2:48

6 CO₂ + 6 H₂O + Light → C₆H_
2:48 - 2:48

6 CO₂ + 6 H₂O + Light → C₆H₁_
2:48 - 2:48

6 CO₂ + 6 H₂O + Light → C₆H₁₂_
2:48 - 2:48

6 CO₂ + 6 H₂O + Light → C₆H₁₂O
2:48 - 2:48

6 CO₂ + 6 H₂O + Light → C₆H₁₂O₆
2:48 - 2:48

6 CO₂ + 6 H₂O + Light → C₆H₁₂O₆ +
2:48 - 2:49

6 CO₂ + 6 H₂O + Light → C₆H₁₂O₆ + 6_
2:49 - 2:49

6 CO₂ + 6 H₂O + Light → C₆H₁₂O₆ + 6 O_
2:49 - 2:52

6 CO₂ + 6 H₂O + Light → C₆H₁₂O₆ + 6 O₂
2:52 - 2:52

On top of this,
6 CO₂ + 6 H₂O + Light → C₆H₁₂O₆ + 6 O₂
2:52 - 2:53

On top of this,
2:53 - 2:54

each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆_
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H_
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁_
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O_
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆_
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ →_
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂
each alien environment-
2:54 - 2:54

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H_
each alien environment-
2:54 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅_
each alien environment-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅O_
each alien environment-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH
each alien environment-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +
each alien environment-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2C_
will further limit-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO_
will further limit-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ +_
will further limit-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + E
will further limit-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + En
will further limit-
2:55 - 2:55

⁴⁵⁸ ʜʏᴅʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Ene
will further limit-
2:55 - 2:55

⁴⁵⁸ ᴏxʏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Ener_
will further limit-
2:55 - 2:55

⁴⁵⁸ ᴏxʏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Energ_
will further limit-
2:55 - 2:55

⁴⁵⁸ ᴏxʏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Energy_
will further limit-
2:55 - 2:56

⁴⁵⁸ ᴏxʏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Energy
will further limit-
2:56 - 2:57

⁴⁵⁸ ᴏxʏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Energy
what kinds of life forms-
2:57 - 2:57

⁴⁵⁸ ᴏxʏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Energy
can evolve there.
2:57 - 2:57

⁴⁵⁸ ɴɪʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Energy
can evolve there.
2:57 - 2:59

⁴⁰⁵⁰ ɴɪʀᴏɢᴇɴ | C₆H₁₂O₆ → 2C₂H₅OH +2CO₂ + Energy
can evolve there.
3:07 - 3:09

Despite these natural boundaries,
3:09 - 3:12

the possibilities are staggering to imagine.
3:14 - 3:16

Trillions of planets...
3:16 - 3:18

each a unique cauldron of chemicals,
3:18 - 3:23

undergoing their own complex evolution.
3:28 - 3:29

To guide our thinking,
3:30 - 3:31

this museum of alien life-
3:31 - 3:34

will be divided into two exhibits...
3:36 - 3:36

Life as we know it,
3:36 - 3:37

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
Life as we know it,
3:37 - 3:38

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
home to beings-
3:38 - 3:41

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
with bio-chemistries like ours.
3:42 - 3:42

EXHIBIT II
Life As We Know Don't It
ᴱˣᵒᵗᶦᶜ ᴮᶦᵒᶜʰᵉᵐᶦˢᵗʳᶦᵉˢ
3:42 - 3:44

EXHIBIT II
Life As We Know Don't It
ᴱˣᵒᵗᶦᶜ ᴮᶦᵒᶜʰᵉᵐᶦˢᵗʳᶦᵉˢ
And life as we don't know it,
3:44 - 3:44

EXHIBIT II
Life As We Know Don't It
ᴱˣᵒᵗᶦᶜ ᴮᶦᵒᶜʰᵉᵐᶦˢᵗʳᶦᵉˢ
3:44 - 3:45

EXHIBIT II
Life As We Know Don't It
ᴱˣᵒᵗᶦᶜ ᴮᶦᵒᶜʰᵉᵐᶦˢᵗʳᶦᵉˢ
home to beings-
3:45 - 3:48

EXHIBIT II
Life As We Know Don't It
ᴱˣᵒᵗᶦᶜ ᴮᶦᵒᶜʰᵉᵐᶦˢᵗʳᶦᵉˢ
that challenge our concept of life itself.
3:54 - 3:55

Before we venture-
3:55 - 3:57

too far into the unknown,
3:57 - 3:59

we have to ask ourselves...
4:00 - 4:01

What if alien life-
4:01 - 4:02

is more like us...
4:02 - 4:04

than we think?
4:11 - 4:13

EXHIBIT I
4:13 - 4:15

EXHIBIT I
Life As We Know It
4:15 - 4:15

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
4:15 - 4:16

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
If there's one feature-
4:16 - 4:17

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
that unites us...
4:17 - 4:20

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
with these other specimes in this museum,
4:20 - 4:20

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
4:20 - 4:21

EXHIBIT I
Life As We Know It
ᶜᵃʳᵇᵒⁿ ᵃⁿᵈ ʷᵃᵗᵉʳ ᵇᵃˢᵉᵈ
it's carbon...
4:22 - 4:22

Carbon
4:22 - 4:22

Carbon ⁴
4:22 - 4:22

S_
Carbon ⁴ᵗʰ
4:22 - 4:22

ᴀ_ Sᴜ_
Carbon ⁴ᵗʰ ᵐ
4:22 - 4:22

C_
ᴀᴛ_ Sᴜʙ_
Carbon ⁴ᵗʰ ᵐᵒ
4:22 - 4:22

R_ C_
ᴀᴛᴏ_ Sᴜʙʟ
Carbon ⁴ᵗʰ ᵐᵒˢ
4:22 - 4:22

R +_ C_
ᴀᴛᴏᴍ Sᴜʙʟɪ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ
4:22 - 4:22

R + 7:_ C
ᴀᴛᴏᴍɪ Sᴜʙʟɪᴍ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃ
4:22 - 4:23

R + 7: 9 C
ᴀᴛᴏᴍɪᴄ Sᴜʙʟɪᴍᴀ_
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇ
4:23 - 4:23

R + 7: 9: C 0
ᴀᴛᴏᴍɪᴄ ᴡ_ Sᴜʙʟɪᴍᴀᴛ_
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘ
4:23 - 4:23

R + 7: 9: 5 C 0_
ᴀᴛᴏᴍɪᴄ ᴡᴇ_ Sᴜʙʟɪᴍᴀᴛɪ_
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿ
4:23 - 4:23

R + 7: 9: 56_ C 0_
ᴀᴛᴏᴍɪᴄ ᴡᴇɪ_ Sᴜʙʟɪᴍᴀᴛɪᴏ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈ
4:23 - 4:23

R + 7: 9: 56._ C 0_
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜ Sᴜʙʟɪᴍᴀᴛɪᴏɴ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃ
4:23 - 4:23

R + 7: 9: 56.2_ C 0
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿ
4:23 - 4:23

R + 7: 9: 56.25: C 00
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏ_
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ
4:23 - 4:23

R + 7: 9: 56.25: C 00
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪ_
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉ
4:23 - 4:23

R + 7: 9: 56.25: C 00_
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴ_
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡ
4:23 - 4:23

R + 7: 9: 56.25: C 00_
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂. Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉ
4:23 - 4:23

R + 7: 9: 56.25: C 00_
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ:
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐ
4:23 - 4:23

R + 7: 9: 56.25: C 006
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉ
4:23 - 4:23

R + 7: 9: 56.25: C 006
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿ
4:23 - 4:23

R + 7: 9: 56.25: C 006
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:23 - 4:23

R + 7: 9: 56.25: C 006
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:23 - 4:24

R + 7: 9: 56.25: C 006
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:24 - 4:25

R + 7: 9: 56.25: Period 2
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:25 - 4:26

R + 7: 9: 56.25: Period 2
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
Carbon is ubiquitous,
4:26 - 4:26

R + 7: 9: 56.25: Period 2
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:26 - 4:27

R + 7: 9: 56.25: Period 2
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
it's one o' tho most-
4:27 - 4:28

R + 7: 9: 56.25: P-block
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
it's one o' tho most-
4:28 - 4:29

R + 7: 9: 56.25: P-block
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
common elements in the universe,
4:29 - 4:29

R + 7: 9: 56.25: Group 14
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
common elements in the universe,
4:29 - 4:30

R + 7: 9: 56.25: Group 14
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:30 - 4:30

R + 7: 9: 56.25: Group 14
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
and is very good at forming-
4:30 - 4:31

R + 7: 9: 56.25: [He] 2s² 2p²
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
and is very good at forming-
4:31 - 4:32

R + 7: 9: 56.25: [He] 2s² 2p²
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
large stable molecules.
4:32 - 4:33

R + 7: 9: 56.25
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
large stable molecules.
4:33 - 4:34

R + 7: 9: 56.25: C 006
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
large stable molecules.
4:34 - 4:35

R + 7: 9: 56.25: C 006
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:35 - 4:37

R + 7: 9: 56.25: Period 2
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:37 - 4:37

R + 7: 9: 56.25: P-block
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:37 - 4:39

R + 7: 9: 56.25: P-block
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
Carbon has the rare ability-
4:39 - 4:39

R + 7: 9: 56.25: P-block
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
to form four way bounds-
4:39 - 4:40

R + 7: 9: 56.25: Group 14
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
to form four way bounds-
4:40 - 4:41

R + 7: 9: 56.25: Group 14
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
with other elements...
4:41 - 4:42

R + 7: 9: 56.25: [He] 2s² 2p²
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
with other elements...
4:42 - 4:42

R + 7: 9: 56.25: [He] 2s² 2p²
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
4:42 - 4:42

R + 7: 9: 56.25: [He] 2s² 2p²
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
and to bind to itself-
4:42 - 4:43

R + 7: 9: 56.25
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
and to bind to itself-
4:43 - 4:43

R + 7: 9: 56.25
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
in long stable chains...
4:43 - 4:45

R + 7: 9: 56.25: C 006
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: ₁₂.₀₁₁ Sᴜʙʟɪᴍᴀᴛɪᴏɴ ᴘᴏɪɴᴛ: ³⁹¹⁵ ᴷ
Carbon ⁴ᵗʰ ᵐᵒˢᵗ ᵃᵇᵘⁿᵈᵃⁿᵗ ᵉˡᵉᵐᵉⁿᵗ
in long stable chains...
4:46 - 4:47

enabling the formation-
4:48 - 4:51

of huge complex molecules.
4:56 - 4:58

This versatility makes-
4:58 - 4:59

carbon the center piece...
4:59 - 5:01

in the moleculary machinery of life.
5:03 - 5:05

And the same carbon compounds,
5:05 - 5:06

that we use have been-
5:06 - 5:09

found far from Earth,
5:09 - 5:10

clinging to meteorites...
5:11 - 5:11

G
5:11 - 5:11

Gl
5:11 - 5:11

Gly_
5:11 - 5:11

Glyc_
5:11 - 5:11

Glyci_
5:11 - 5:11

Glycin
5:11 - 5:12

Glycine
5:12 - 5:15

Glycine
to floating in far off clouds...
5:15 - 5:15

Glycine
5:15 - 5:16

Glycine
of cosmic dust.
5:16 - 5:18

Glycine
5:18 - 5:20

Glycine
The building blocks of life...
5:21 - 5:22

Drifting like snow...
5:22 - 5:24

through the universe.
5:30 - 5:32

And if alien life has selected other-
5:33 - 5:35

carbon compounds for the biochemistry,
5:36 - 5:38

they will have plenty to choose from.
5:40 - 5:41

Z DNA | B DNA
5:42 - 5:44

Scientists recently identified-
5:44 - 5:46

over a million possible-
5:46 - 5:48

alternatives to DNA...
5:48 - 5:51

all carbon based.
5:58 - 5:59

If we ever discover-
5:59 - 6:01

other carbon based life forms,
6:02 - 6:06

we will be fundamentally related.
6:08 - 6:11

They will be our cosmic brother.
6:13 - 6:15

But would they look anything like us?
6:20 - 6:22

If they hail from Earth like planets,
6:23 - 6:24

we could share even more in common,
6:25 - 6:28

than just our biochemistry.
6:30 - 6:31

What would life be like-
6:31 - 6:32

on another planets,
6:32 - 6:33

if it is evolved?
6:33 - 6:34

Would it be like,
6:35 - 6:37

the world today here on Earth?
6:37 - 6:40

Or would be completely different?
6:40 - 6:41

There are those,
6:41 - 6:42

who argue that...
6:42 - 6:44

from the argument of convergent evolution,
6:45 - 6:46

if conditions on other planets-
6:46 - 6:47

are similar to here,
6:48 - 6:48

then we will see-
6:48 - 6:50

very similar life forms...
6:54 - 6:57

Animal and plant-like organisms,
6:57 - 7:00

that look very familiar.
7:12 - 7:13

On Earth,
7:13 - 7:15

certain features like eyesight,
7:15 - 7:17

echo-location and flight...
7:17 - 7:19

have evolved multiple times,
7:19 - 7:20

independently...
7:20 - 7:22

in different species.
7:24 - 7:26

This process of convergent evolution...
7:26 - 7:29

could extend to alien planets like Earth,
7:29 - 7:31

where creatures face similar-
7:31 - 7:35

environmental pressures.
7:35 - 7:37

It's no guarantee,
7:37 - 7:39

but there could be certain-
7:39 - 7:42

universalities of life...
7:44 - 7:46

the greatest hits of evolution...
7:46 - 7:49

on repeat across the universe.
7:58 - 7:59

Each feature would be a tune-
7:59 - 8:02

to its local environment.
8:03 - 8:04

Dimly lit planets...
8:04 - 8:06

would produce huge eyes-
8:06 - 8:08

to suck in extra light,
8:08 - 8:11

like nocturnal mammals.
8:14 - 8:15

Some people have gone-
8:15 - 8:16

so far as to say...
8:17 - 8:18

that human type organism,
8:19 - 8:19

humanoids,
8:19 - 8:22

will occur on other planets.
8:26 - 8:27

The existence of other-
8:27 - 8:29

human-like organisms...
8:29 - 8:30

seems unlikely,
8:30 - 8:31

given the long...
8:31 - 8:33

convoluted chain of events-
8:33 - 8:34

that produced us.
8:35 - 8:37

But we can't rule it out.
8:41 - 8:42

If just one in every-
8:42 - 8:45

100 trillion Earth-like planets produced-
8:45 - 8:46

a human-like form...
8:46 - 8:47

There could still be-
8:47 - 8:48

thousands of creatures-
8:48 - 8:51

like us out there...
9:02 - 9:07

But in reality, we are more likely to find
something lower on the food chain.
9:10 - 9:11

Convergent evolution-
9:11 - 9:14

is also rampant in plant life...
9:14 - 9:16

and C₄ photosynthesis-
9:16 - 9:17

has arisen independently,
9:17 - 9:19

over 40 times...
9:21 - 9:23

Would alien plants-
9:23 - 9:24

look like ours...
9:24 - 9:26

or something else entirely?
9:37 - 9:37

On Earth,
9:38 - 9:39

plants appear green...
9:39 - 9:40

because they absorb-
9:40 - 9:41

the other wavelengths,
9:41 - 9:44

in the Sun's light spectrum.
9:45 - 9:49

But stars come in many colors...
9:52 - 9:54

and alien plants would evolve-
9:54 - 9:55

different pigments...
9:55 - 9:59

to adapt to their sun's unique spectrum.
10:04 - 10:06

Plants feeding off hotter stars-
10:06 - 10:08

could appear redder,
10:08 - 10:09

by absorbing their-
10:09 - 10:11

energy rich bluer light
10:20 - 10:22

Around dim Red Dwarfs stars,
10:22 - 10:25

vegetation could appear black,
10:25 - 10:27

adapted to absorb all-
10:27 - 10:29

visible wavelengths of light.
10:45 - 10:46

Earth itself-
10:46 - 10:48

may have once appeared purple,
10:48 - 10:49

due a pigment called retinal,
10:49 - 10:50

ʀᴇᴛɪɴᴀʟ
due a pigment called retinal,
10:50 - 10:50

ʀᴇᴛɪɴᴀʟ
10:50 - 10:50

ʀᴇᴛɪɴᴀʟ
that was an early-
10:50 - 10:51

ʀᴇᴛɪɴᴀʟ
precursor to chlorophyll.
10:51 - 10:51

ʀᴇᴛɪɴᴀʟ | ᴄʜʟᴏʀᴏᴘʜʏʟʟ ᴅ
precursor to chlorophyll.
10:51 - 10:52

ʀᴇᴛɪɴᴀʟ | ᴄʜʟᴏʀᴏᴘʜʏʟʟ ᴅ
precursor to chlorophyll.
10:52 - 10:53

ʀᴇᴛɪɴᴀʟ | ᴄʜʟᴏʀᴏᴘʜʏʟʟ ᴅ ʀᴇᴛɪɴᴀʟ ᵖʰᵒᵗᵒˢʸⁿᵗʰᵉᵗⁱᶜ ᵖⁱᵍᵐᵉⁿᵗ
precursor to chlorophyll.
10:53 - 10:55

ʀᴇᴛɪɴᴀʟ | ᴄʜʟᴏʀᴏᴘʜʏʟʟ ᴅ ʀᴇᴛɪɴᴀʟ ᵖʰᵒᵗᵒˢʸⁿᵗʰᵉᵗⁱᶜ ᵖⁱᵍᵐᵉⁿᵗ
10:55 - 10:56

ʀᴇᴛɪɴᴀʟ | ᴄʜʟᴏʀᴏᴘʜʏʟʟ ᴅ ʀᴇᴛɪɴᴀʟ ᵖʰᵒᵗᵒˢʸⁿᵗʰᵉᵗⁱᶜ ᵖⁱᵍᵐᵉⁿᵗ
Some think that retinal's-
10:56 - 10:57

ʀᴇᴛɪɴᴀʟ | ᴄʜʟᴏʀᴏᴘʜʏʟʟ ᴅ ʀᴇᴛɪɴᴀʟ ᵖʰᵒᵗᵒˢʸⁿᵗʰᵉᵗⁱᶜ ᵖⁱᵍᵐᵉⁿᵗ
molecular simplicity...
10:57 - 10:58

molecular simplicity...
10:58 - 10:59

could make it a more-
10:59 - 11:01

universal pigment.
11:04 - 11:05

If so,
11:05 - 11:06

we may find-
11:06 - 11:07

that purple...
11:08 - 11:08

is life's-
11:08 - 11:09

favorite color...
11:20 - 11:22

But the color of alien vegetation...
11:22 - 11:24

is more than just a curiosity,
11:26 - 11:27

it's chemical information-
11:27 - 11:28

that could be seen...
11:28 - 11:30

from light years away.
11:34 - 11:36

Earth plants leave a signature bump,
11:37 - 11:39

in the light reflected off our planet.
11:40 - 11:42

Finding a similar signal...
11:42 - 11:43

from another world could point the way...
11:44 - 11:47

to alien vegetation.
11:50 - 11:51

Perhaps-
11:51 - 11:52

this will be our...
11:52 - 11:54

first glimpse at alien life,
11:55 - 11:56

a vibrant hue...
11:57 - 11:59

cast by a distant world.
12:12 - 12:19

But the biggest influence on life won't be its host star;
it will be its home planet.
12:21 - 12:21

What happens,
12:21 - 12:22

when you change the day-length...
12:23 - 12:23

of a planet?
12:23 - 12:24

What happens,
12:24 - 12:24

when you change-
12:24 - 12:25

the tilt of a planet?
12:26 - 12:26

What happens,
12:26 - 12:27

when you change-
12:27 - 12:28

the shape of the orbit?
12:28 - 12:28

What happens,
12:28 - 12:29

when you change-
12:29 - 12:31

the gravity of a planet?
12:34 - 12:36

Planets with long,
12:36 - 12:37

elliptical orbits...
12:37 - 12:40

would see drastic seasons.
12:41 - 12:42

There could be worlds...
12:42 - 12:43

did that appear dead-
12:43 - 12:45

for the thousands of years,
12:45 - 12:47

then suddenly...
12:47 - 12:48

spring to life.
13:02 - 13:04

Most of the rocky planets...
13:04 - 13:05

discovered so far-
13:05 - 13:06

have been massive-
13:06 - 13:08

"Super Earths".
13:09 - 13:09

G
13:09 - 13:09

GJ
13:09 - 13:09

GJ 3
13:09 - 13:09

GJ 35
13:09 - 13:10

GJ 357
13:10 - 13:10

GJ 357 D
13:10 - 13:10

GJ 357 D
ˢ
13:10 - 13:10

GJ 357 D
ˢᵘ
13:10 - 13:10

GJ 357 D
ˢᵘᵖ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ:
13:10 - 13:10

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜
13:10 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡ
13:11 - 13:11

ⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡ
13:11 - 13:11

ⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡ
13:11 - 13:11

ⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³
13:11 - 13:11

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°
13:11 - 13:13

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
13:13 - 13:14

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
How would life evolve...
13:14 - 13:16

GJ 357 D
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ 357
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜ ⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ 357
ˢᵘᵖᵉʳ ᵉᵃʳᵗ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ 357
ˢᵘᵖᵉʳ ᵉᵃʳ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ 35
ˢᵘᵖᵉʳ ᵉᵃ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃʳ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ 35
ˢᵘᵖᵉʳ ᵉ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉᵃ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
on these worlds
13:16 - 13:16

GJ 35
ˢᵘᵖᵉʳ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸᵉ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ: ˜⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ 3
ˢᵘᵖᵉ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ ʸ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳᵗ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ 3
ˢᵘᵖ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰᵗ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱᵃʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ 3
ˢᵘ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍʰ
ᵐᵃˢˢ᠄ ˜⁷× ᴱᵃ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°ᶜ
on these worlds?
13:16 - 13:16

GJ
ˢ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱᵍ
ᵐᵃˢˢ᠄ ˜⁷ˣ ᴱ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³°
on these worlds?
13:16 - 13:16

GJ
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡⁱ
ᵐᵃˢˢ᠄ ˜⁷ˣ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵³
on these worlds?
13:16 - 13:16

G
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹ ˡ
ᵐᵃˢˢ᠄ ˜⁷
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻⁵
on these worlds?
13:16 - 13:16

G
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³¹
ᵐᵃˢˢ᠄ ˜
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜⁻
on these worlds?
13:16 - 13:16

G
ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜³
ᵐᵃˢˢ᠄
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ˜
on these worlds?
13:16 - 13:16

ᵈⁱˢᵗᵃⁿᶜᵉ᠄ ˜
ᵐᵃˢˢ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄
on these worlds?
13:16 - 13:16

ᵈⁱˢᵗᵃⁿᶜᵉ᠄
ᵐᵃˢ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ
on these worlds?
13:16 - 13:16

ᵈⁱˢᵗᵃⁿᶜᵉ
ᵐᵃ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳ
on these worlds?
13:16 - 13:16

ᵈⁱˢᵗᵃⁿᶜ
ᵐ
ᵗᵉᵐᵖᵉʳᵃᵗᵘ
on these worlds?
13:16 - 13:16

ᵈⁱˢᵗᵃⁿ
ᵗᵉᵐᵖᵉʳᵃᵗ
13:16 - 13:16

ᵈⁱˢᵗᵃ
ᵗᵉᵐᵖᵉʳᵃ
13:16 - 13:16

ᵈⁱˢᵗ
ᵗᵉᵐᵖᵉʳ
13:16 - 13:16

ᵈⁱˢ
ᵗᵉᵐᵖᵉ
13:16 - 13:16

ᵈⁱ
ᵗᵉᵐᵖ
13:16 - 13:16

ᵈ
ᵗᵉᵐ
13:16 - 13:16

ᵗᵉ
13:16 - 13:16

ᵗ
13:19 - 13:19

In the seas,
13:20 - 13:21

gravity may not matter-
13:21 - 13:22

much at all.
13:30 - 13:31

A high-gravity planet...
13:31 - 13:32

isn't high-gravity all over,
13:34 - 13:34

If you're in the sea,
13:34 - 13:36

and that's where all life starts...
13:36 - 13:38

there's very nearly no gravity,
13:38 - 13:39

'cuz you're much the density-
13:39 - 13:43

as the stuff around you.
13:43 - 13:44

It's when the animals-
13:44 - 13:45

come out on land,
13:46 - 13:48

that they feel the gravity.
13:52 - 13:53

High g-force...
13:53 - 13:54

would necessitate-
13:54 - 13:56

large bones and muscle mass,
13:56 - 13:59

in complex life on land...
14:00 - 14:01

They would also demand-
14:01 - 14:04

a more robust circulatory system.
14:05 - 14:06

And plant life could be stunted...
14:06 - 14:09

by the energy cost of carrying nutrients-
14:09 - 14:13

under stronger gravity.
14:17 - 14:19

Low-gravity planets...
14:19 - 14:19

would more easily-
14:19 - 14:22

lose their atmospheres to space,
14:22 - 14:23

and lack a magnetic field-
14:23 - 14:25

to protect from cosmic rays.
14:36 - 14:37

But smaller worlds-
14:37 - 14:39

could be home to secret oases...
14:46 - 14:47

Huge cave systems...
14:48 - 14:51

that provide hide-outs for life.
15:02 - 15:11

With steadier temperatures and protection from cosmic rays,
life could thrive underground on planets with deadly surfaces.
15:27 - 15:28

The smallest possible-
15:28 - 15:29

habitable planets...
15:29 - 15:32

are estimated at 2.5%-
15:32 - 15:35

Earth's mass.
15:35 - 15:38

If surface life does evolve on these worlds,
15:39 - 15:41

it could be a sight to behold.
15:45 - 15:47

Plant life could grow to towering heights,
15:47 - 15:49

able to carry nutrients higher,
15:49 - 15:51

at lesser gravity.
15:59 - 16:00

And without the need...
16:00 - 16:01

for bulky skeletons-
16:01 - 16:02

and muscle mass,
16:03 - 16:04

animals could have body types,
16:04 - 16:07

that boggle the mind.
16:22 - 16:28

Despite our eager imaginations, large complex lifeforms
are probably a cosmic rarity.
16:31 - 16:32

Here on Earth,
16:32 - 16:34

it took three billion years-
16:34 - 16:35

for evolution...
16:35 - 16:37

to produce complex plant and animal life.
16:40 - 16:42

Simple organisms are hardier,
16:42 - 16:43

more adaptable...
16:43 - 16:46

and more widespread.
16:48 - 16:50

The largest collection-
16:50 - 16:50

in the museum-
16:50 - 16:51

of alien life...
16:51 - 16:52

would likely be...
16:52 - 16:55

the "Hall of Microbes".
17:10 - 17:11

Yet finding even-
17:11 - 17:13

the tiniest alien microbe...
17:13 - 17:16

would be a profound discovery.
17:30 - 17:32

And bite-sized life...
17:32 - 17:35

could leave a big footprint.
17:36 - 17:37

Like stromatolites on Earth,
17:37 - 17:39

layers of microbes...
17:39 - 17:39

could build up into-
17:39 - 17:41

huge rock mounds over time.
17:42 - 17:44

Leaving behind eery structures.
17:49 - 17:50

And in big enough numbers,
17:50 - 17:52

some alien bacteria...
17:52 - 17:54

could leave a distinct biosignature,
17:56 - 17:57

by exhaling gases-
17:57 - 17:59

that wouldn't coexist naturally...
17:59 - 18:00

Like oxygen...
18:00 - 18:03

and methane.
18:07 - 18:08

There's ways-
18:08 - 18:09

to make oxygen without life.
18:09 - 18:09

There's ways-
18:09 - 18:10

to make-
18:10 - 18:11

methane without life.
18:11 - 18:11

But to have them-
18:11 - 18:13

in the atmosphere together?
18:13 - 18:14

Is almost impossible...
18:14 - 18:15

unless you've got biology-
18:15 - 18:16

making those gases-
18:16 - 18:16

at the surface.
18:17 - 18:18

And it would have,
18:18 - 18:20

a imprint on the planet's-
18:20 - 18:21

spectrum of colors.
18:23 - 18:25

Next generation space telescopes-
18:25 - 18:28

could find a signal like this,
18:28 - 18:32

on a world not far from home.
18:32 - 18:34

The closest Sun-like star-
18:34 - 18:36

with an Earth-like exoplanet,
18:36 - 18:38

in the habitable zone...
18:38 - 18:39

is probably only-
18:39 - 18:40

20 light years away...
18:40 - 18:41

and can be seen...
18:41 - 18:42

with a naked eye.
18:46 - 18:52

But there may be an even easier target to aim for
than tiny Earth-like planets.
18:55 - 19:02

The brown dwarfs: too small to be stars, to big to be planets.
19:06 - 19:07

Most Brown Dwarfs...
19:07 - 19:09

are too hot to support life-
19:09 - 19:10

as we know it.
19:11 - 19:13

But some are just cold enough.
19:14 - 19:14

W
19:14 - 19:14

WI
19:14 - 19:14

WIS
19:14 - 19:14

WISE
19:14 - 19:14

WISE 0
19:14 - 19:14

WISE 08
19:14 - 19:14

WISE 085
19:14 - 19:14

WISE 0855
19:14 - 19:14

WISE 0855-
19:14 - 19:14

WISE 0855-0
19:14 - 19:14

WISE 0855-07
19:14 - 19:14

WISE 0855-071
19:14 - 19:14

WISE 0855-0714
19:14 - 19:14

WISE 0855-0714
ˢ
19:14 - 19:15

WISE 0855-0714
ˢᵘ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³-
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻+¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³
19:15 - 19:15

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`ᶜ
19:15 - 19:22

WISE 0855-0714
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`ᶜ
19:22 - 19:22

WISE 0855-071
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`ᶜ
19:22 - 19:22

WISE 0855-07
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`ᶜ
19:22 - 19:22

WISE 0855-0
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`ᶜ
19:22 - 19:22

WISE 0855-
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`ᶜ
19:22 - 19:22

WISE 0855
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`ᶜ
19:22 - 19:22

WISE 085
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`ᶜ
19:22 - 19:22

WISE 085
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³`
19:22 - 19:22

WISE 085
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹³
19:22 - 19:22

WISE 085
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻¹
19:22 - 19:22

WISE 085
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻ ⁻
19:22 - 19:22

WISE 085
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉʳ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻
19:22 - 19:22

WISE 085
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗᵉ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰ ⁻
19:22 - 19:22

WISE 085
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦᵗ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵⁰
19:22 - 19:22

WISE 08
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖᶦ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻⁵
19:22 - 19:22

WISE 08
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃʳ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘᵖ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻
19:22 - 19:22

WISE 08
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉᵃ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲᵘ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄
19:22 - 19:22

WISE 08
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸᵉ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ ʲ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ
19:22 - 19:22

WISE 08
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ ʸ
ᵐᵃˢˢ᠄ ³⁻¹⁰ˣ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳ
19:22 - 19:22

WISE 0
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰᵗ
ᵐᵃˢˢ᠄ ³⁻¹⁰
ᵗᵉᵐᵖᵉʳᵃᵗᵘ
19:22 - 19:22

WISE 0
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳᶠ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍʰ
ᵐᵃˢˢ᠄ ³⁻¹
ᵗᵉᵐᵖᵉʳᵃᵗ
19:22 - 19:22

WISE 0
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦᵍ
ᵐᵃˢˢ᠄ ³⁻
ᵗᵉᵐᵖᵉʳᵃ
19:22 - 19:22

WISE 0
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷᵃ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡᶦ
ᵐᵃˢˢ᠄ ³
ᵗᵉᵐᵖᵉʳ
19:22 - 19:22

WISE 0
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈʷ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷ ˡ
ᵐᵃˢˢ᠄
ᵗᵉᵐᵖᵉ
19:22 - 19:22

WISE 0
ˢᵘᵇ⁻ᵇʳᵒʷⁿ ᵈ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ⁷
ᵐᵃˢˢ
ᵗᵉᵐᵖ
19:22 - 19:22

WISE
ˢᵘᵇ⁻ᵇʳᵒʷⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄
ᵐᵃˢ
ᵗᵉᵐ
19:22 - 19:22

WISE
ˢᵘᵇ⁻ᵇʳᵒʷ
ᵈᶦˢᵗᵃⁿᶜᵉ
ᵐᵃ
ᵗᵉ
19:22 - 19:23

WIS
ˢᵘᵇ⁻ᵇʳᵒ
ᵈᶦˢᵗᵃⁿᶜ
ᵐ
ᵗ
19:23 - 19:23

WIS
ˢᵘᵇ⁻ᵇʳ
ᵈᶦˢᵗᵃⁿ
ᵐ
19:23 - 19:23

WIS
ˢᵘᵇ⁻ᵇ
ᵈᶦˢᵗᵃ
19:23 - 19:23

WIS
ˢᵘᵇ⁻
ᵈᶦˢᵗ
19:23 - 19:23

WIS
ˢᵘᵇ
ᵈᶦˢ
19:23 - 19:23

WI
ˢᵘ
ᵈᶦ
19:23 - 19:23

WI
ˢ
ᵈ
19:23 - 19:23

WI
ˢ
19:23 - 19:23

WI
19:23 - 19:23

W
19:24 - 19:26

All the prime elements for life...
19:26 - 19:27

have been detected-
19:27 - 19:29

inside their atmospheres.
19:31 - 19:33

And within these clouds,
19:33 - 19:34

some layers-
19:34 - 19:36

would provide ideal temperatures-
19:36 - 19:40

and pressures for habitability.
19:46 - 19:47

There could be photosynthetic-
19:47 - 19:49

plankton in these skies,
19:50 - 19:54

kept aloft by churning upwinds.
19:57 - 19:59

And within enough force,
19:59 - 20:01

these upwinds could even support larger...
20:01 - 20:04

more complex life.
20:06 - 20:08

Predators...
20:16 - 20:24

There are over 25 billion brown dwarfs in our galaxy alone,
and their sizes will make them easier targets for study.
20:27 - 20:35

The first specimen we discover from the museum of life
may not be from a planet at all.
20:44 - 20:47

This raises a crucial question...
20:48 - 20:48

what if we've-
20:48 - 20:49

been looking in...
20:49 - 20:51

all the wrong places?
20:52 - 20:53

What if nature...
20:53 - 20:57

has other ideas?
20:59 - 21:01

EXHIBIT II
21:01 - 21:03

EXHIBIT II
Life As We Know Don't It
21:03 - 21:08

EXHIBIT II
Life As We Know Don't It
ᴱˣᵒᵗᶦᶜ ᴮᶦᵒᶜʰᵉᵐᶦˢᵗʳᶦᵉˢ
21:21 - 21:22

Most of the Universe...
21:22 - 21:24

is too cold or too hot-
21:24 - 21:25

for liquid water,
21:25 - 21:26

and the biochemistry-
21:26 - 21:27

that supports life...
21:27 - 21:29

as we know it.
21:31 - 21:34

But in case our biases are misleading,
21:35 - 21:38

we have to cast a wide net.
21:39 - 21:40

To search for life-
21:40 - 21:42

outside the habitable zone,
21:42 - 21:43

in places that seem-
21:43 - 21:47

wildly hostile to us.
21:49 - 21:51

Exotic environments...
21:51 - 21:53

will demand exotic biochemistries.
21:53 - 21:55

And while no element-
21:55 - 21:57

can match carbon's versatility,
21:57 - 21:59

one contender is a front runner.
22:00 - 22:00

Silicon
22:00 - 22:01

Silicon
22:01 - 22:01

M
Silicon ᴰ
22:01 - 22:01

M
Silicon ᴰ
22:01 - 22:01

Mᴇ
Silicon ᴰ
22:01 - 22:01

Mᴇʟ_
Silicon ᴰ
22:01 - 22:01

Mᴇʟᴛ_
Silicon ᴰᵉ
22:01 - 22:01

Mᴇʟᴛɪ_
Silicon ᴰᵉ
22:01 - 22:01

Mᴇʟᴛɪɴ_
Silicon ᴰᵉⁿ
22:01 - 22:01

Mᴇʟᴛɪɴ_
Silicon ᴰᵉⁿ
22:01 - 22:01

Mᴇʟᴛɪɴ
Silicon ᴰᵉⁿ
22:01 - 22:01

R_
ᴀ_ Mᴇʟᴛɪɴɢ_
Silicon ᴰᵉⁿˢ
22:01 - 22:01

R_
ᴀ_ Mᴇʟᴛɪɴɢ_
Silicon ᴰᵉⁿˢ
22:01 - 22:01

R_
ᴀᴛ_ Mᴇʟᴛɪɴɢ ᴘ_
Silicon ᴰᵉⁿˢ
22:01 - 22:01

R_
ᴀᴛ_ Mᴇʟᴛɪɴɢ ᴘᴏ_
Silicon ᴰᵉⁿˢᶦ
22:01 - 22:01

R
ᴀᴛ Mᴇʟᴛɪɴɢᴘᴏ
Silicon ᴰᵉⁿˢᶦ
22:01 - 22:01

R
ᴀᴛᴏ Mᴇʟᴛɪɴɢ ᴘᴏɪ
Silicon ᴰᵉⁿˢᶦᵗ
22:01 - 22:01

R_
ᴀᴛᴏ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴ_
Silicon ᴰᵉⁿˢᶦᵗ
22:01 - 22:01

R_
ᴀᴛᴏ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ_
Silicon ᴰᵉⁿˢᶦᵗ
22:01 - 22:01

R +_
ᴀᴛᴏᴍ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ:_
Silicon ᴰᵉⁿˢᶦᵗʸ
22:01 - 22:01

R +
ᴀᴛᴏᴍ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ:
Silicon ᴰᵉⁿˢᶦᵗʸ
22:01 - 22:01

R +
ᴀᴛᴏᴍɪ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ:
Silicon ᴰᵉⁿˢᶦᵗʸ
22:01 - 22:01

R +
ᴀᴛᴏᴍɪ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ:
Silicon ᴰᵉⁿˢᶦᵗʸ
22:01 - 22:01

R +_
ᴀᴛᴏᴍɪ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹
Silicon ᴰᵉⁿˢᶦᵗʸ
22:01 - 22:01

R +_
ᴀᴛᴏᴍɪ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹
Silicon ᴰᵉⁿˢᶦᵗʸ᠄
22:01 - 22:01

R +_
ᴀᴛᴏᴍɪ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶
Silicon ᴰᵉⁿˢᶦᵗʸ᠄
22:01 - 22:01

R +
ᴀᴛᴏᴍɪᴄ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸
Silicon ᴰᵉⁿˢᶦᵗʸ᠄
22:01 - 22:01

R +
ᴀᴛᴏᴍɪᴄ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸
Silicon ᴰᵉⁿˢᶦᵗʸ᠄
22:01 - 22:01

R +
ᴀᴛᴏᴍɪᴄ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²
22:01 - 22:01

R + 7_
ᴀᴛᴏᴍɪᴄ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²
22:01 - 22:01

R + 7_
ᴀᴛᴏᴍɪᴄ ᴡ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²
22:01 - 22:01

R + 7_
ᴀᴛᴏᴍɪᴄ ᴡ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²
22:01 - 22:01

R + 7:
ᴀᴛᴏᴍɪᴄ ᴡ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙
22:01 - 22:01

R + 7:
ᴀᴛᴏᴍɪᴄ ᴡᴇ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙
22:01 - 22:01

R + 7:
ᴀᴛᴏᴍɪᴄ ᴡᴇ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙
22:01 - 22:01

R + 7:_
ᴀᴛᴏᴍɪᴄ ᴡᴇ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ B_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³
22:01 - 22:01

R + 7:_
ᴀᴛᴏᴍɪᴄ ᴡᴇ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ B_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³
22:01 - 22:01

R + 7:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏ_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²
22:01 - 22:01

R + 7: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹
22:01 - 22:01

R + 7: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹
22:01 - 22:01

R + 7: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹
22:01 - 22:01

R + 7:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟ_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹
22:01 - 22:02

R + 7:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪ_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰
22:02 - 22:02

R + 7:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴ_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰
22:02 - 22:02

R + 7: 9 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰
22:02 - 22:02

R + 7: 9 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰
22:02 - 22:02

R + 7: 9 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰
22:02 - 22:02

R + 7: 9:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏ_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ
22:02 - 22:02

R + 7: 9:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏ_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ
22:02 - 22:02

R + 7: 9:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ:_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪ_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ
22:02 - 22:02

R + 7: 9: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕
22:02 - 22:02

R + 7: 9: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕
22:02 - 22:02

R + 7: 9: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ:
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜ
22:02 - 22:02

R + 7: 9:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ:_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ:_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜ
22:02 - 22:02

R + 7: 9:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 2_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ:_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜ
22:02 - 22:02

R + 7: 9:_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 2_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ:_
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜ
22:02 - 22:02

R + 7: 9: 5 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 2 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ
22:02 - 22:02

R + 7: 9: 56 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:02

R + 7: 9: 56 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:02

R + 7: 9: 56_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28._ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:02

R + 7: 9: 56._ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28._ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:02

R + 7: 9: 56._ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.0_ Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:02

R + 7: 9: 56.2 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.0 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:02

R + 7: 9: 56.2 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.08 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:02

R + 7: 9: 56.25 Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.08 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:02

R + 7: 9: 56.25_ Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ ∕ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:02 - 22:03

R + 7: 9: 56.25: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:03 - 22:05

R + 7: 9: 56.25: Period 3
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:05 - 22:07

R + 7: 9: 56.25: P-block
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:07 - 22:07

R + 7: 9: 56.25: Metalloid
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:07 - 22:08

R + 7: 9: 56.25: Metalloid
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
At first glance...
22:08 - 22:09

R + 7: 9: 56.25: Metalloid
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
silicon seem similar to carbon.
22:09 - 22:11

R + 7: 9: 56.25: 3.9936
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
silicon seem similar to carbon.
22:11 - 22:11

R + 7: 9: 56.25: 3.9936
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:11 - 22:11

R + 7: 9: 56.25:
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:11 - 22:13

R + 7: 9: 56.25: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:13 - 22:13

R + 7: 9: 56.25: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
It forms the same four-way bonds
22:13 - 22:15

R + 7: 9: 56.25: Period 3
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
It forms the same four-way bonds
22:15 - 22:15

R + 7: 9: 56.25: Period 3
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
and is also abundant in the Universe.
22:15 - 22:17

R + 7: 9: 56.25: P-block
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
and is also abundant in the Universe.
22:17 - 22:17

R + 7: 9: 56.25: P-block
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:17 - 22:19

R + 7: 9: 56.25: Metalloid
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:19 - 22:19

R + 7: 9: 56.25: 3.9936
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
22:19 - 22:20

R + 7: 9: 56.25: 3.9936
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
But a closer look...
22:20 - 22:21

R + 7: 9: 56.25: 3.9936
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
reveals that these-
22:21 - 22:21

R + 7: 9: 56.25:
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
reveals that these-
22:21 - 22:22

R + 7: 9: 56.25:
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
two elements are false twins...
22:22 - 22:23

R + 7: 9: 56.25: Si 014
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
two elements are false twins...
22:23 - 22:24

R + 7: 9: 56.25: Period 3
ᴀᴛᴏᴍɪᴄ ᴡᴇɪɢʜᴛ: 28.086 Mᴇʟᴛɪɴɢ ᴘᴏɪɴᴛ: ¹⁶⁸⁷ ᴷ Bᴏɪʟɪɴɢ ᴘᴏɪɴᴛ: ³⁵³⁸ ᴷ
Silicon ᴰᵉⁿˢᶦᵗʸ᠄ ²˙³²⁹⁰ ᵍ∕ᶜᵐ³
two elements are false twins...
22:27 - 22:29

Silicon bonds are weaker,
22:29 - 22:30

and less prone to forming-
22:30 - 22:34

large complex molecules.
22:36 - 22:37

Despite this,
22:38 - 22:39

they can withstand a wider range-
22:39 - 22:40

of temperatures,
22:41 - 22:44

opening up intriguing possibilities.
22:47 - 22:49

Life based on the silicon atom-
22:49 - 22:50

instead of carbon,
22:51 - 22:52

would be more resistant-
22:52 - 22:54

to the extreme cold.
22:55 - 22:56

Providing a whole...
22:56 - 23:00

new range of weird forms.
23:01 - 23:03

But silicon has a problem...
23:04 - 23:06

in the presence of oxygen,
23:06 - 23:08

it binds into solid rock.
23:10 - 23:12

To avoid turning to stone,
23:12 - 23:13

silicon beings might be-
23:13 - 23:13

T
silicon beings might be-
23:13 - 23:13

TI
silicon beings might be-
23:13 - 23:13

TIT
silicon beings might be-
23:13 - 23:13

TITA
silicon beings might be-
23:13 - 23:14

TITAN
silicon beings might be-
23:14 - 23:14

TITAN
ˢ
23:14 - 23:14

TITAN
ˢᵃ
23:14 - 23:14

TITAN
ˢᵃᵗ
23:14 - 23:14

TITAN
ˢᵃᵗᵘ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙²
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹
confined to oxygen free environments.
23:14 - 23:14

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹º
confined to oxygen free environments.
23:14 - 23:16

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
confined to oxygen free environments.
23:16 - 23:16

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
23:16 - 23:18

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
Like Saturn's frigid moon,
23:18 - 23:18

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
23:18 - 23:20

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
Titan.
23:20 - 23:23

TITAN
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
23:23 - 23:23

TITA
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹ºᶜ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹º
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²⁹
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹²
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻¹
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ⁻
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗᵉ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
ᵗ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗʰ
Its vast lakes of liquid...
23:23 - 23:23

TIT
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳᵗ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃʳ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉᵃ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ ᵉ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³ˣ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²³
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰²
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄ ⁰
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ᠄
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢˢ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃˢ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐᵃ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
ᵐ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏᵐ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ ᵏ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒⁿ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦᵒ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡᶦ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡ
Its vast lakes of liquid...
23:23 - 23:23

TI
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡˡ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦˡ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐᶦ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙² ᵐ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙²
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹˙
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜᵉ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿᶜ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃⁿ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗᵃ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢᵗ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦˢ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈᶦ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
ᵈ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒⁿ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒᵒ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐᵒ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ ᵐ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃⁿ
Its vast lakes of liquid...
23:23 - 23:23

T
ˢᵃᵗᵘʳⁿᶦᵃ
Its vast lakes of liquid...
23:23 - 23:24

T
ˢᵃᵗᵘʳⁿᶦ
Its vast lakes of liquid...
23:24 - 23:24

ˢᵃᵗᵘʳⁿ
Its vast lakes of liquid...
23:24 - 23:24

ˢᵃᵗᵘʳ
Its vast lakes of liquid...
23:24 - 23:24

ˢᵃᵗᵘ
Its vast lakes of liquid...
23:24 - 23:24

ˢᵃᵗ
Its vast lakes of liquid...
23:24 - 23:24

ˢᵃ
Its vast lakes of liquid...
23:24 - 23:24

ˢ
Its vast lakes of liquid...
23:24 - 23:24

Its vast lakes of liquid...
23:24 - 23:26

methane and ethane-
23:26 - 23:27

could be an ideal medium-
23:27 - 23:29

for silicon-based life,
23:29 - 23:36

or other radical biochemistries.
23:37 - 23:39

Without ample sunlight,
23:39 - 23:41

beings on worlds like Titan...
23:41 - 23:43

would likely be chemosynthetic.
23:43 - 23:44

Deriving their energy-
23:44 - 23:48

by breaking down rocks.
24:01 - 24:02

Such life forms-
24:02 - 24:05

could have ultra slow metabolisms...
24:05 - 24:06

and life cycles measured-
24:06 - 24:12

in millions of years.
24:16 - 24:21

And frozen worlds aren't the only possible harbor for exotic life.
24:22 - 24:23

C
24:23 - 24:23

Co
24:23 - 24:23

CoR
24:23 - 24:23

CoRo
24:23 - 24:23

CoRoT
24:23 - 24:23

CoRoT-
24:23 - 24:23

CoRoT-7
24:23 - 24:23

CoRoT-7B
24:23 - 24:23

CoRoT-7B
ˢ
24:23 - 24:23

CoRoT-7B
ˢᵘ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ
24:23 - 24:23

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸ
24:23 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶
24:24 - 24:24

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶°
24:24 - 24:26

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
24:26 - 24:27

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
In high temperatures,
24:27 - 24:29

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
typically rigid silicon-
24:29 - 24:29

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
24:29 - 24:30

CoRoT-7B
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
oxygen bonds become more...
24:30 - 24:30

CoRoT-7
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
flexible and reactive.
24:30 - 24:30

CoRoT-
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
flexible and reactive.
24:30 - 24:31

CoRoT
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶ºᶜ
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶º
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²⁶
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵²
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹⁵
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻¹
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶⁻
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²⁶
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰²
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹⁰
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄ ¹
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ᠄
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳᵉ
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘʳ
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗᵘ
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃᵗ
flexible and reactive.
24:31 - 24:31

CoRo
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳᵃ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉʳ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖᵉ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐᵖ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉᵐ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗᵉ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
ᵗ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗʰ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳᵗ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃʳ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉᵃ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ ᵉ
flexible and reactive.
24:31 - 24:31

CoR
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸ˣ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜⁸
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄ ˜
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ᠄
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢˢ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃˢ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐᵃ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ᵐ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉᵃ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸᵉ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ ʸ
flexible and reactive.
24:31 - 24:31

Co
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰᵗ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍʰ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦᵍ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡᶦ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰ ˡ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²⁰
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵²
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜⁵
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ˜
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜᵉ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿᶜ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃⁿ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗᵃ
flexible and reactive.
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢᵗ
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦˢ
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈᶦ
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
ᵈ
24:31 - 24:31

C
ˢᵘᵖᵉʳ ᵉᵃʳᵗʰ
24:31 - 24:31

ˢᵘᵖᵉʳ ᵉᵃʳᵗ
24:31 - 24:31

ˢᵘᵖᵉʳ ᵉᵃʳ
24:31 - 24:31

ˢᵘᵖᵉʳ ᵉᵃ
24:31 - 24:31

ˢᵘᵖᵉʳ ᵉ
24:31 - 24:31

ˢᵘᵖᵉʳ
24:31 - 24:31

ˢᵘᵖᵉ
24:31 - 24:31

ˢᵘᵖ
24:31 - 24:31

ˢᵘ
24:31 - 24:31

ˢ
24:33 - 24:36

Triggering more dynamic chemistry.
24:40 - 24:41

This has led to a-
24:41 - 24:43

truly bizarre proposal...
24:43 - 24:45

silicon-based life forms,
24:45 - 24:46

that live inside-
24:46 - 24:48

molten silicate rock.
25:01 - 25:02

In theory,
25:02 - 25:03

these forms could even-
25:03 - 25:04

exist deep beneath...
25:04 - 25:06

the Earth inside magma chambers...
25:06 - 25:11

as part of a shadow biosphere.
25:12 - 25:13

If so...
25:13 - 25:15

then the aliens are right-
25:15 - 25:18

under our noses.
25:21 - 25:22

Other shadow biospheres-
25:22 - 25:23

have been proposed...
25:23 - 25:25

forms of life...
25:25 - 25:25

living alongside us-
25:25 - 25:26

that we don't even-
25:26 - 25:27

know are here.
25:27 - 25:30

Including tiny RNA-based life,
25:30 - 25:32

small enough to go undetected-
25:32 - 25:34

by existing instruments.
25:44 - 25:45

[Many billion years ago]
25:47 - 25:49

Clouds of dust and empty space,
25:49 - 25:50

might seem like the last place-
25:50 - 25:53

you did expect to find anything living.
25:54 - 25:54

Astronomical Plasma
25:54 - 25:55

Astronomical Plasma
But when cosmic dust-
25:55 - 25:57

Astronomical Plasma
makes contact with plasma,
25:57 - 25:57

Astronomical Plasma ᶦⁿᵗᵉʳˢᵗᵉˡˡᵃʳ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
makes contact with plasma,
25:57 - 25:58

Astronomical Plasma ᶦⁿᵗᵉʳˢᵗᵉˡˡᵃʳ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
25:58 - 25:59

Astronomical Plasma ᶦⁿᵗᵉʳˢᵗᵉˡˡᵃʳ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
a type of ionized gas...
25:59 - 26:02

Astronomical Plasma ᶦⁿᵗᵉʳˢᵗᵉˡˡᵃʳ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
something strange happens.
26:02 - 26:02

Astronomical Plasma ᶦⁿᵗᵉʳˢᵗᵉˡˡᵃʳ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
26:06 - 26:08

In simulated conditions dust particles,
26:08 - 26:10

have been seen spontaneously...
26:10 - 26:11

self-organizing into-
26:11 - 26:12

helical structures-
26:12 - 26:14

that resemble DNA.
26:19 - 26:20

These plasma crystals-
26:20 - 26:21

even begin to exhibit
26:21 - 26:23

life-like behavior...
26:24 - 26:25

replicating,
26:25 - 26:26

evolving into more...
26:26 - 26:27

stable forms-
26:27 - 26:29

and passing on information.
26:36 - 26:39

Could these crystals be considered alive?
26:42 - 26:48

To some researchers, they meet all the criteria
to qualify as inorganic life forms.
26:52 - 26:57

So far, we have only ever seen them in computer simulations.
26:59 - 27:04

But some speculate we could find them
among the ice particles in the rings of Uranus.
27:12 - 27:12

Space Plasma
27:12 - 27:13

Space Plasma
Plasma is the most-
27:13 - 27:15

Space Plasma
common state of matter...
27:15 - 27:15

Space Plasma ᶦⁿᵗᵉʳ⁻ ˢᵒˡᵃʳ ˢʸˢᵗᵉᵐ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
27:15 - 27:16

Space Plasma ᶦⁿᵗᵉʳ⁻ ˢᵒˡᵃʳ ˢʸˢᵗᵉᵐ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
in the Universe.
27:16 - 27:17

Space Plasma ᶦⁿᵗᵉʳ⁻ ˢᵒˡᵃʳ ˢʸˢᵗᵉᵐ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
27:17 - 27:19

Space Plasma ᶦⁿᵗᵉʳ⁻ ˢᵒˡᵃʳ ˢʸˢᵗᵉᵐ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
If complex evolving-
27:19 - 27:21

Space Plasma ᶦⁿᵗᵉʳ⁻ ˢᵒˡᵃʳ ˢʸˢᵗᵉᵐ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
plasma crystals really exist?
27:21 - 27:23

Space Plasma ᶦⁿᵗᵉʳ⁻ ˢᵒˡᵃʳ ˢʸˢᵗᵉᵐ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
and if they can be considered life,
27:23 - 27:23

Space Plasma ᶦⁿᵗᵉʳ⁻ ˢᵒˡᵃʳ ˢʸˢᵗᵉᵐ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
27:23 - 27:27

Space Plasma ᶦⁿᵗᵉʳ⁻ ˢᵒˡᵃʳ ˢʸˢᵗᵉᵐ ᶦᵒⁿᶦᶻᵉᵈ ᵍᵃˢ
they could be its most common form.
27:39 - 27:47

Or perhaps life is lurking in the polar opposite environment:
inside the hearts of dead stars.
27:51 - 27:53

When massive suns explode,
27:53 - 27:54

some collapase into-
27:54 - 27:55

ultra dense cores...
27:55 - 27:55

P
ultra dense cores...
27:55 - 27:55

PS
ultra dense cores...
27:55 - 27:55

PSR
27:55 - 27:56

PSR B
called neutron stars.
27:56 - 27:56

PSR B1
called neutron stars.
27:56 - 27:56

PSR B15
called neutron stars.
27:56 - 27:56

PSR B150
called neutron stars.
27:56 - 27:56

PSR B1509
called neutron stars.
27:56 - 27:56

PSR B1509-
called neutron stars.
27:56 - 27:56

PSR B1509-5
called neutron stars.
27:56 - 27:56

PSR B1509-58
called neutron stars.
27:56 - 27:56

PSR B1509-58
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ
called neutron stars.
27:56 - 27:56

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄
called neutron stars.
27:56 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜
called neutron stars.
27:57 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷
called neutron stars.
27:57 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕
called neutron stars.
27:57 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢ
called neutron stars.
27:57 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉ
called neutron stars.
27:57 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜ
called neutron stars.
27:57 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒ
called neutron stars.
27:57 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿ
called neutron stars.
27:57 - 27:57

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
called neutron stars.
27:57 - 27:58

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
27:58 - 28:00

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
Hulking masses of atomic nuclei,
28:00 - 28:00

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
28:00 - 28:03

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
crammed together like sardines.
28:03 - 28:05

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
28:05 - 28:07

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
Conditions on the surface-
28:07 - 28:08

PSR B1509-58
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
are mind-boggling...
28:08 - 28:08

PSR B1509-5
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
are mind-boggling...
28:08 - 28:08

PSR B1509-
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
are mind-boggling...
28:08 - 28:08

PSR B1509
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
are mind-boggling...
28:08 - 28:08

PSR B150
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
28:08 - 28:08

PSR B15
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
28:08 - 28:08

PSR B1
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
28:08 - 28:08

PSR B
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿᵈ
28:08 - 28:08

PSR B
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒⁿ
28:08 - 28:08

PSR B
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜᵒ
28:08 - 28:08

PSR B
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉᶜ
28:08 - 28:08

PSR B
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢᵉ
28:08 - 28:08

PSR B
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕ˢ
28:08 - 28:08

PSR B
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷∕
28:08 - 28:08

PSR B
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜⁷
28:08 - 28:08

PSR
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄ ˜
28:08 - 28:08

PSR
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ᠄
28:08 - 28:08

PSR
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗᵉ
28:08 - 28:08

PSR
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃᵗ
28:08 - 28:08

PSR
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳᵃ
28:08 - 28:08

PSR
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ ʳ
28:08 - 28:08

PSR
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦⁿ
28:08 - 28:08

PSR
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖᶦ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢᵖ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
ˢ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳˢ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃʳ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉᵃ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸᵉ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ ʸ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰᵗ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍʰ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦᵍ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡᶦ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰ ˡ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰⁰
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰⁰
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷⁰
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹⁷
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄ ¹
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ᠄
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜᵉ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿᶜ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃⁿ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗᵃ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢᵗ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦˢ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈᶦ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
ᵈ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃʳ
28:08 - 28:08

PS
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢᵃ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡˢ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘˡ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖᵘ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕ ᵖ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ∕
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃʳ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢᵗᵃ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢᵗ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ ˢ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒⁿ
28:08 - 28:08

P
ⁿᵉᵘᵗʳᵒ
28:08 - 28:08

P
ⁿᵉᵘᵗʳ
28:08 - 28:08

P
ⁿᵉᵘᵗ
28:08 - 28:08

P
ⁿᵉᵘ
28:08 - 28:08

P
ⁿᵉ
28:08 - 28:08

P
ⁿ
28:08 - 28:08

P
28:09 - 28:11

gravity is a hundred billion times...
28:11 - 28:12

stronger than Earth's.
28:16 - 28:18

But beneath their iron nuclei crust lies,
28:18 - 28:20

something strange...
28:21 - 28:23

a hot dense sea...
28:23 - 28:26

of neutrons and subatomic particles.
28:34 - 28:36

Stripped of their electron shells-
28:36 - 28:38

these nuclei would obey entirely...
28:38 - 28:40

different laws of chemistry,
28:40 - 28:43

based not on the electromagnetic force,
28:43 - 28:45

but the strong nuclear force...
28:45 - 28:48

which binds nuclei together.
28:49 - 28:51

In theory...
28:51 - 28:52

these particles could link-up to form-
28:52 - 28:54

larger macronuclei...
28:54 - 28:55

which could then-
28:55 - 28:57

combine into even bigger-
28:57 - 28:58

super nuclei.
29:07 - 29:08

If so...
29:08 - 29:10

then this bewildering environment,
29:10 - 29:11

would mimic the basic-
29:11 - 29:12

conditions for life.
29:12 - 29:14

Heavy nucleon molecules,
29:14 - 29:16

floating in a complex-
29:16 - 29:17

particle ocean.
29:23 - 29:24

Some scientists have-
29:24 - 29:25

proposed the unimaginable...
29:26 - 29:28

exotic life forms...
29:28 - 29:29

drifting through the-
29:29 - 29:31

strange particle sea,
29:31 - 29:32

living evolving...
29:32 - 29:35

and dying on incomprehensibly-
29:35 - 29:37

fast time scales...
29:56 - 30:01

There's probably no chance of ever detecting
such a strange breed of life.
30:03 - 30:08

But there may be hope for finding an even more exotic form.
30:19 - 30:20

Life is not something-
30:20 - 30:24

that has to evolve naturally.
30:26 - 30:29

It can be designed.
30:41 - 30:43

And once intelligence is-
30:43 - 30:44

introduced into the-
30:44 - 30:46

evolutionary process,
30:46 - 30:48

a Pandora's box is opened.
31:06 - 31:09

Free from typical biological limitations,
31:09 - 31:11

synthetic and machine-based life-
31:11 - 31:15

could be the most successful of all.
31:16 - 31:17

It could thrive...
31:17 - 31:18

almost anywhere,
31:18 - 31:21

including the vaccum of space,
31:21 - 31:23

opening up vast frontiers...
31:23 - 31:26

unavailable to biological organisms.
31:32 - 31:33

And compared to the-
31:33 - 31:35

glacial pace of natural selection,
31:35 - 31:37

technical evolution-
31:37 - 31:38

allows exponentially...
31:38 - 31:39

faster growth,
31:39 - 31:43

adaptability and resilience.
31:56 - 31:57

By some estimates,
31:57 - 31:59

autonomous self-replicating machines...
31:59 - 32:00

could colonize...
32:00 - 32:02

an entire galaxy-
32:02 - 32:05

in as little as a million years.
32:19 - 32:20

We can't predict...
32:20 - 32:21

how hyper-intelligent life-
32:21 - 32:23

would organize itself,
32:26 - 32:27

but in theory,
32:27 - 32:28

there could be-
32:28 - 32:31

convergent evolution at play.
32:32 - 32:34

The electrical properties of Silicon-
32:34 - 32:36

might make it a universal basis...
32:36 - 32:39

for machine intelligence,
32:39 - 32:40

a redemption...
32:40 - 32:45

for its biological shortcomings.
33:03 - 33:05

With all its potential advantages,
33:05 - 33:08

With all its potential advantages, machine life may even be a universal endpoint:
33:08 - 33:15

With all its potential advantages, machine life may even be a universal endpoint:
the apex of evolutionary process.
33:53 - 33:55

As the universe ages,
33:55 - 33:57

perhaps machine intelligence...
33:57 - 33:58

would come to dominate,
33:59 - 34:00

and naturally occurring-
34:00 - 34:02

biological life will be viewed...
34:02 - 34:04

as a quaint starting point.
34:09 - 34:10

Perhaps...
34:10 - 34:11

we ourselves...
34:11 - 34:13

will lead this transition,
34:13 - 34:14

and the great human experiment...
34:15 - 34:16

would be merely a first link-
34:16 - 34:17

in a sprawling,
34:17 - 34:24

intergalactic chain of life.
34:51 - 35:02

In the end, we are still the only beings we know of
in the museum of alien life.
35:07 - 35:11

To truly know ourselves, we will have to know:
35:11 - 35:13

To truly know ourselves, we will have to know:
are we the only ones?
35:27 - 35:29

Loren Eiseley has said...
35:29 - 35:32

that one does not meet oneself...
35:32 - 35:33

until one catches...
35:33 - 35:35

the reflection from an eye-
35:35 - 35:36

other than human.
35:39 - 35:40

One day that eye-
35:40 - 35:41

maybe that...
35:41 - 35:42

of an intelligent alien.
35:46 - 35:47

And the sooner-
35:47 - 35:48

we eschew our...
35:48 - 35:52

narrow view of evolution,
35:52 - 35:53

the sooner-
35:53 - 35:54

we can...
35:54 - 35:56

truly explore,
35:56 - 35:58

our ultimate origins...
35:58 - 36:02

and destinations.
36:04 - 36:07

We have seen what could be out there.
36:10 - 36:13

And we know how we might find it.
36:16 - 36:19

There is only one thing left to do.
36:22 - 36:26

Go looking.
36:28 - 36:29

Credit In 3-
36:29 - 36:30

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Title:: LIFE BEYOND II: The Museum of Alien Life (4K)
Description:: Soundtrack: https://bit.ly/3lo7cnH Support this project on Patreon: http://patreon.com/melodysheep

What if there was a museum that contained every type of life form in the universe? This experience takes you on a tour through the possible forms alien life might take, from the eerily familiar to the utterly exotic, ranging from the inside of the Earth to the most hostile corners of the universe.

New research is upending our idea of life and where it could be hiding: not just on Earth-like planets, where beings could mimic what our planet has produced, but in far flung places like the hearts of dead stars and the rings of gas giant planets. Nowhere in the universe is off limits.

Only when we know what else is out there will we truly know ourselves. This thought experiment will give us a glimpse into what could be out there, how we might find it, and just how far nature’s imagination might stretch.

Big thanks to Protocol Labs for their continued support of this series: https://protocol.ai.

Concept, visuals, and score by melodysheep, aka John D. Boswell. Narrated by Will Crowley. Additional visuals by Lynn Huberty, Tim Stupak, NASA, and Evolve. Featuring soundbites from Nick Lane, Jonathan Losos, Caleb Scharf, Jack Cohen, and Jill Tarter.

Featuring clips from Lynn Huberty’s amazing film “SHYAMA”: https://bit.ly/3d6xtUF

Thanks especially to:
Lynn Huberty
Juan Benet
Rowdy Jansen
Eddy Adams: http://www.eddyadams.com
Kimi Ushida: http://Eff.org
Gregory Cohen: www.DesignFirebrand.com
Eric Capuano: http://reconinfosec.com
John Maier
Logan
Ali Aljumayd
Caleb Levesque
Eric Malette
Brandon Sanders
Tim Stupak

And to all my supporters on Patreon: Ada Cerna, Adam Orand, Ajish Balakrishnan, Aksel Tjønn, Ali Akın Kurnaz, Andrew Edwards, Andrew Valenti, Antoine C, Antoni Simelio, Augustas Babelis, Bhisham Mahtani, Bradley Gallant, Brant Stokes, Daniel Saltzman, Caleb Levesque, Case K., Cheshire 2e du nom, Chinmay Kumar, Chris Wilken, Christian Oehne, Christina Winikoff, Christopher Heald, Chung Tran, Colin Glover, Corentin Kerisit, Cozza38, Crystal, Dan Alvesved, Danaos Christopoulos, Dave LeCompte, Davee Hallinan, David Lyneham, david p boswell, David Southpaw, denise frey, Derick Yan, Dexter, dixon1829, Don Loristo, Dylan Webb, Eico Neumann, Eyubed Balcha, Ezri Dax, Gaétan Marras, Gary Wei, geekiskhan, Genesplicer, Giulia C., Håkon A. Hjortland, Hans Husurianto, Henry R. Seymour, Heribert Breidsamer, ilkercan Kaya, Iota Katari, is8ac, Jackie Pham, James O'Connor, Jayson Hale, Jean Neyrial, Jessica Turner, Jimpy, JM_Borg, Jordan Swickard, Jose Contreras, Joshua Oram, JousterL, Julian Büttner, Julio Hernández Camero, kaynen brown, Kristin & Alan Cameron, Laine Boswell, Lars Støttrup Nielsen, Laura, Laura Liddington, Layne Burnett, LemonHead, Lennart Klootwijk, Leo Botinelly, Leonard van Vliet, lloll887, Manu Galán García, Maraiu, Marco Cardamone, Mark Christopher, Mark T., Markus Oinonen, Marlin Balzer, Martin Majernik, Matthew Jacoby, Matthew Ullrich, Maxime Marois, Mehdi Bennani, Michael Li, Michelle Wilcox, Mike Norkus, Mind Wave, Mitchel Humpherys, Mohammed Aldaabil, Nathan, Nicholas Martin, Nikita Temryazansky, Nina Atesh, Nina Barton, Ninel, Patrick Keim, Patrick Schouten, Peycho Ivanov, PonWer, Preston Maness, Radu Turcan, Ramsey Elbasheer, Randall Bollig, Raz, RedOptics, Reg Reyes, Richard Sundvall, Richard Williams, Rob Phillips, Robin Kuenkel, Runi Winther Johnsen, Samih Fadli, Sandra, Sandro Heinimann, Scarlet Fortuna, Silas Rech, SilverFolfy, Smoka_Lad, SpartanLegends, Stefan, SunaScorpion, SymeSynth, The Cleaner, The Fellowship of Doge, TheHumungus, Timothé Wegiersky, Timothy E Plum, Trevor Robertson, Verissimus, Vinh Vo, Virgile Coulot, Whitney Champion, William Ronholm, Wise Doane, Wolfgang Bernecker, Yannic, ZAB, Алексей Козловский

Sources coming soon.

Peace and love,

melodysheeep
http://melodysheep.com
twitter: @musicalscience
instagram: @melodysheep_

more » « less
Video Language:: English
Duration:: 38:00

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	bluereflega edited English subtitles for LIFE BEYOND II: The Museum of Alien Life (4K)
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LIFE BEYOND II: The Museum of Alien Life (4K)

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