What is Gobekli Tepe?

Gobekli Tepe is an archaeological site located in Southeastern Turkey, considered one of the oldest religious structures built by humans.

Why is Gobekli Tepe significant?

It offers insights into early human civilization, particularly during the transition from nomadic to settled lifestyles.

What is Fermi's Paradox?

Fermi's Paradox questions why, given the immense size and age of the universe, we have not yet detected evidence of extraterrestrial civilizations.

What defines life according to the video?

Life is defined by its ability to store information, catalyze reactions, and self-replicate.

How did scientists attempt to replicate the conditions for life?

Through experiments like Miller-Urey, which simulated early Earth conditions to synthesize amino acids.

What role do stars play in the emergence of life?

Stars are essential for creating the chemical elements necessary for life through nuclear fusion.

Can life exist in environments very different from Earth?

Yes, alternative forms of life may arise in diverse chemical, thermal, and environmental conditions beyond Earth.

What potential futures might await intelligent civilizations?

Civilizations may rise and fall, potentially leaving remnants like probes or structures behind, similar to Gobekli Tepe.

What did the Hayabusa 2 mission discover?

It collected samples from the asteroid Ryugu, which contained amino acids, hinting at the building blocks of life.

What are the implications of discovering extraterrestrial life or its remnants?

Such discoveries could illuminate the origins of life in the universe and our place within it.

How Early Could Life Have Appeared In The Universe?

00:56:12

https://www.youtube.com/watch?v=FpftRRm0jfA

Ringkasan

TLDRThe video discusses Gobekli Tepe, one of the oldest known human-made structures, located in Turkey. It emphasizes the importance of the site for understanding the transition to settled human societies and its implications for our knowledge of civilization's origins. The narrative extends to the search for extraterrestrial life, exploring definitions of life, the necessary conditions for its emergence, and Fermi's Paradox, which questions why we have not found evidence of intelligent life. The video concludes by speculating on potential ancient alien civilizations and their legacies that may remain undiscovered across the universe.

Takeaways

🏞️ Gobekli Tepe is over 10,000 years old and crucial to understanding early human societies.
🔍 The transition from nomadic to settled life is reflected in the site.
🌌 The search for extraterrestrial life raises questions about our understanding of life itself.
⚗️ Life is defined by the ability to store information, catalyze reactions, and self-replicate.
🌠 Fermi's Paradox highlights the silence of the universe regarding extraterrestrial intelligences.
🧬 Experiments like Miller-Urey simulate conditions for life and produced amino acids.
⭐ Stars create the necessary elements for life through nuclear fusion.
💧 Liquid water is essential for the emergence of life as we know it.
🚀 The Hayabusa 2 mission found amino acids in samples from asteroids, linking them to life's building blocks.
🪐 Speculations exist about the remnants of ancient alien civilizations in the universe.

Garis waktu

00:00:00 - 00:05:00
Portobelli Hill, known for its breathtaking views in Southeastern Turkey, was considered sacred by local Kurds. Initially thought to be a mere vantage point, it became significant when archaeologists unearthed remnants of an ancient village, leading to a realization of its historical importance.
00:05:00 - 00:10:00
In 1994, Klaus Schmidt, a German archaeologist, excavated Gobekli Tepe, initially mistaking the large stones for grave markers. His discoveries revealed imposing stone structures, including enormous pillars, dating back over 10,000 years, marking it as one of humanity's oldest constructed sites.
00:10:00 - 00:15:00
Gobekli Tepe was built at the end of the last Ice Age, reflecting a transition to settled lifestyles, though its true purpose remains undetermined, potentially serving as a village or a sacred gathering site before being abandoned, obscured by time.
00:15:00 - 00:20:00
This site has reshaped our understanding of early human civilization, illustrating that significant social structures predate previously accepted timelines of agriculture and settlement, further deepening the mystery of our origins.
00:20:00 - 00:25:00
While human evolution is outlined through fossil records, scientists note that we have less than 1% of all historical species documented, indicating the complexity of tracing our past. Exploration of the cosmos raises further questions about life beyond Earth.
00:25:00 - 00:30:00
As time unfolds, scientific exploration reveals unknowns about our universe. The search extends to monumental artifacts that could exist within interstellar spaces, provoking contemplation about our place in the cosmos and the continuity of life across time.
00:30:00 - 00:35:00
BetterHelp sponsors discussions on mental well-being, offering easy access to licensed therapists, particularly highlighting the importance of mental health amidst existential queries and human conditions.
00:35:00 - 00:40:00
A discovery made in Antarctica involved a Martian meteorite, ALH 84001, suggesting ancient life. Although initial findings indicated life structures, subsequent analyses raised doubts, emphasizing difficulties in identifying extraterrestrial life forms and their definitions.
00:40:00 - 00:45:00
Defining life in scientific terms involves properties such as information storage, catalyzing reactions, and self-replication. Such definitions guide our understanding of what constitutes life and its evolutionary processes.
00:45:00 - 00:50:00
Current research exemplifies the complexity of classifying life, including considering viruses and exploring early life forms on Earth, presenting a blurred line between living and non-living entities based on various chemical interactions.
00:50:00 - 00:56:12
The video juxtaposes traditional definitions of life with the burgeoning possibilities of other life forms in unique environments, examining how Earth's early life correlates to emerging theories about potential extraterrestrial existence.

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Video Tanya Jawab

What is Gobekli Tepe?
Gobekli Tepe is an archaeological site located in Southeastern Turkey, considered one of the oldest religious structures built by humans.
Why is Gobekli Tepe significant?
It offers insights into early human civilization, particularly during the transition from nomadic to settled lifestyles.
What is Fermi's Paradox?
Fermi's Paradox questions why, given the immense size and age of the universe, we have not yet detected evidence of extraterrestrial civilizations.
What defines life according to the video?
Life is defined by its ability to store information, catalyze reactions, and self-replicate.
How did scientists attempt to replicate the conditions for life?
Through experiments like Miller-Urey, which simulated early Earth conditions to synthesize amino acids.
What role do stars play in the emergence of life?
Stars are essential for creating the chemical elements necessary for life through nuclear fusion.
Can life exist in environments very different from Earth?
Yes, alternative forms of life may arise in diverse chemical, thermal, and environmental conditions beyond Earth.
What potential futures might await intelligent civilizations?
Civilizations may rise and fall, potentially leaving remnants like probes or structures behind, similar to Gobekli Tepe.
What did the Hayabusa 2 mission discover?
It collected samples from the asteroid Ryugu, which contained amino acids, hinting at the building blocks of life.
What are the implications of discovering extraterrestrial life or its remnants?
Such discoveries could illuminate the origins of life in the universe and our place within it.

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Teks

Gulir Otomatis:

00:00:00
this
00:00:04
is portobelli Hill
00:00:06
situated in the Arid Hills of
00:00:08
Southeastern turkey the mound had long
00:00:10
been considered Sacred by the local
00:00:12
Kurdish people on a clear day the view
00:00:15
from the hill was breathtaking providing
00:00:17
just enough height to see all the way to
00:00:19
the distant Horizon irrigated Farms
00:00:22
filling the surrounding Flatlands
00:00:25
but by the mid-20th century
00:00:27
archaeologists had started to realize
00:00:29
that Potbelly Hill was more than just a
00:00:32
good vantage point it was clearly the
00:00:35
remains of an ancient Village abandoned
00:00:38
long ago and covered in Millennia of
00:00:40
dirt
00:00:41
however seeing nothing of exceptional
00:00:43
importance except what was thought to be
00:00:44
grave markers they had moved on
00:00:48
it wasn't until 1994 that another
00:00:50
archaeologist the German Klaus Schmidt
00:00:53
heard of it from the locals
00:00:55
Guided by Farmers to the location of the
00:00:58
Hill he took it upon himself to set
00:01:00
about his own excavation
00:01:03
soon realized that these large
00:01:05
underground Stones were not grave
00:01:08
markers but the tops of huge megaliths
00:01:14
further work revealed a tremendous
00:01:17
complex including towering t-shaped
00:01:19
pillars long arching paths and
00:01:22
concentric circles of imposing stone
00:01:24
walls
00:01:26
but that was not the biggest surprise
00:01:29
for once archaeologists were able to
00:01:32
date the structure its age astounded
00:01:35
them
00:01:36
the complex was over ten thousand years
00:01:40
old
00:01:41
[Music]
00:01:45
Potbelly Hill which in Turkish
00:01:48
translates as quebecally Tepe was
00:01:50
discovered to be one of the oldest
00:01:51
structures ever built by humans
00:01:55
constructed right at the end of the last
00:01:57
ice age and the transition from hunting
00:01:58
and Gathering to a more settled
00:02:00
lifestyle archaeologists still don't
00:02:03
know the true purpose of the site it may
00:02:06
have been a fully functioning Village or
00:02:08
merely a sacred annual Gathering Place
00:02:10
either way Gobekli Tepe was vitally
00:02:14
important to the people who built and
00:02:16
used it
00:02:17
but after they abandoned it again for
00:02:20
his mysterious a reason as to why they
00:02:22
constructed it in the first place it was
00:02:24
lost
00:02:25
thousands of years of human history
00:02:27
hundreds of cultures and dozens of major
00:02:30
civilizations waxed and waned through
00:02:32
the area never considering it more than
00:02:35
an old Hill with some rubbish buried
00:02:37
beneath the surface
00:02:39
Gobekli Tepe serves as a major
00:02:42
Cornerstone for our modern understanding
00:02:44
of the development of human civilization
00:02:46
without it our own past would be that
00:02:49
much more mysterious
00:02:50
it was built only ten thousand years ago
00:02:54
as we push deeper into the past the
00:02:57
story of our Origins becomes even
00:02:58
murkier with fossil fragments scattered
00:03:01
across the globe we can piece together
00:03:03
the general story of human evolution and
00:03:05
development beyond that we understand no
00:03:08
more than the outlines indeed scientists
00:03:11
estimate that we have fossil evidence
00:03:13
for less than one percent of all the
00:03:15
species that have ever lived
00:03:17
that is just life on Earth
00:03:21
we have only just begun to explore the
00:03:24
wider Cosmos without probes and our
00:03:26
telescopes the vast majority of the
00:03:28
universe remains completely unknown and
00:03:31
unmapped what Mysteries await us there
00:03:35
how far back can we push the origins of
00:03:37
not just ourselves and life on Earth
00:03:40
but life in the universe
00:03:43
like Gobekli Tepe what ancient monuments
00:03:46
to life await Us in the depths of
00:03:50
interstellar space
00:03:52
are we among the first generation
00:03:55
or the latest
00:03:56
in a long line
00:04:10
due to the sun's larger space-time
00:04:11
curvature you would get about 67 seconds
00:04:14
less per year on its surface than on
00:04:17
Earth which is disappointing and
00:04:19
sometimes it feels like we don't have
00:04:21
enough time even here this video has
00:04:23
been sponsored by betterhelp and they
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are the world's largest therapy service
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have a clue on how to access the right
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on the Sun but with better help you can
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instantly tap into a network of over 30
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get 10 off your first month at
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I've also linked them Below in the
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description thanks to betterhelp for
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supporting educational content on
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YouTube
00:05:27
the lone dark rocks stood out a blemish
00:05:31
on the otherwise perfectly smooth
00:05:34
perfectly white ice sheets
00:05:38
it sat there for thousands tens of
00:05:41
thousands of years undisturbed safe for
00:05:44
the rare snowfall
00:05:46
and Roberta score
00:05:48
could not
00:05:49
ignore it
00:05:52
a lab manager from NASA's Johnson Space
00:05:54
Center Roberta had been there in
00:05:56
Antarctica spending the nightless hours
00:05:58
scouring the vast ice fields of that
00:06:01
Frozen continent hunting for rocks
00:06:04
exactly like it
00:06:06
Antarctica is a surprisingly fertile
00:06:09
ground for such fines the Rocks stand
00:06:12
out clearly in contrast to the blinding
00:06:14
White Ice though at first Roberta's rock
00:06:17
found in the Allen Hills Far Western ice
00:06:19
field and so named alh 84001 seemed
00:06:23
unremarkable but in reality it was
00:06:26
anything but for it turned out to not
00:06:28
only be a meteorite having fallen from
00:06:31
space Millennia before but Upon
00:06:34
returning it to Johnson's Space Center
00:06:36
the team discovered that it was no
00:06:38
ordinary meteorite
00:06:40
it was a piece
00:06:43
of Mars
00:06:50
matching the chemical composition of the
00:06:52
Martian surface The Rock must have been
00:06:54
blasted off the red planet millions of
00:06:56
years before during a Titanic Collision
00:06:59
then spending eons wandering The
00:07:01
interplanetary Depths before falling to
00:07:03
Earth where it had rested undisturbed
00:07:06
ever since the team sampled and studied
00:07:09
this Martian Exile then made it
00:07:11
available to The Wider scientific
00:07:13
community and so it was nearly a decade
00:07:16
later when another team led by physicist
00:07:19
David S McKay made a startling
00:07:21
announcement
00:07:22
the unassuming meteorite contained
00:07:25
microscopic features that could not be
00:07:27
the work of mere chemical processes
00:07:29
electron microscopy revealed chain-like
00:07:32
structures that resembled living
00:07:34
organisms found on Earth
00:07:37
this Little Rock contained the
00:07:40
fossilized evidence of life
00:07:43
on Mars
00:07:45
NASA announced the discovery to enormous
00:07:47
Fanfare with even the then president of
00:07:49
the United States Bill Clinton giving an
00:07:52
official statement but after the
00:07:54
celebrations died down and other
00:07:56
scientists got a chance to perform their
00:07:58
own examinations these further studies
00:08:00
immediately cast the original
00:08:02
announcement in doubt Martian chemistry
00:08:05
they said did not have to exactly follow
00:08:07
Earth chemistry and they could concoct a
00:08:10
dozen different scenarios to generate
00:08:12
chain-like features from nothing more
00:08:14
than interesting combinations and
00:08:16
reactions of chemicals fascinating
00:08:18
certainly
00:08:20
but not alive
00:08:22
alh 84001 Remains the only physical
00:08:25
specimen to ever even offer a hope of
00:08:28
identifying life outside the Earth
00:08:31
and the debates surrounding the nature
00:08:33
of its microscopic structures serve as a
00:08:36
potent lesson
00:08:37
could we even identify alien life if it
00:08:41
was staring right at us
00:08:43
[Music]
00:08:47
to identify life we must first Define it
00:08:50
and the scientific literature currently
00:08:52
contains over 200 different definitions
00:08:54
that said a very general classification
00:08:57
scheme is able to Encompass almost all
00:08:59
definitions
00:09:00
and that scheme relies on life having
00:09:03
three distinct properties
00:09:06
One Life must be able to store
00:09:08
information whatever the means life must
00:09:11
encode information about its current
00:09:13
state it must also store information
00:09:15
about its own traits and characteristics
00:09:17
and the information required to generate
00:09:19
various processes
00:09:22
Second Life must be able to catalyze
00:09:24
reactions it must be able to interact
00:09:27
with the environment that surrounds it
00:09:28
responding to it and generating
00:09:30
reactions of its own these reactions
00:09:33
allow life to acquire store and expend
00:09:35
energy they allow life to move they
00:09:38
allow life to react to signals or
00:09:40
threats and lastly these reactions allow
00:09:43
life to grow new structures
00:09:46
and third what separates life from
00:09:49
non-life is the ability to
00:09:51
self-replicate
00:09:53
life must be able to make copies of
00:09:56
itself and these copies must be as
00:09:58
faithful as possible to the original
00:10:01
putting these three things together
00:10:03
allows life
00:10:05
to live
00:10:09
famed physicist Owen Schrodinger was the
00:10:11
first to identify the fundamental
00:10:13
principles of life from a physical point
00:10:15
of view
00:10:16
correctly hypothesizing that the storing
00:10:18
utilization and passing of information
00:10:20
was of Paramount importance the
00:10:23
information stored in life gives it the
00:10:26
instructions it needs to catalyze
00:10:27
reactions and some of those reactions
00:10:30
include the ability for life to
00:10:31
replicate itself life can then go on and
00:10:34
do all the things we normally associate
00:10:36
with living it can move eat protect
00:10:38
itself send and receive sensory signals
00:10:41
and most importantly reproduce
00:10:44
this complete cycle also allows life to
00:10:47
be subject to Natural Selection
00:10:49
pressures from the environment work on
00:10:51
the information passed from one
00:10:53
generation to another selecting some
00:10:55
traits is beneficial for survival and
00:10:57
disregarding others and that in itself
00:11:00
offers another definition of life life
00:11:02
is that which is subject to darwinian
00:11:05
evolution
00:11:07
on present-day Earth we can see a clear
00:11:09
example of this definition
00:11:12
us
00:11:13
we are quite literally living it
00:11:16
we have DNA to store information we have
00:11:19
our proteins that catalyze reactions and
00:11:22
we have RNA that acts as a translation
00:11:24
tool from the information stored in our
00:11:26
DNA to the production of proteins
00:11:29
and to complete the loop our DNA can
00:11:32
issue instructions via RNA to create
00:11:35
proteins that go on to make copies of
00:11:37
our DNA passing on our genetic Legacy
00:11:40
from one generation to another
00:11:42
it's safe to assume that all life in the
00:11:45
universe fulfills this basic definition
00:11:47
if it didn't we would have a very hard
00:11:49
time identifying it as living to put it
00:11:53
simply to search for life we must have a
00:11:55
working definition even if that
00:11:57
definition isn't as broad as it
00:11:59
potentially could be
00:12:01
[Music]
00:12:03
but even on our own planet and with that
00:12:06
definition in hand we run into
00:12:08
interesting edge cases
00:12:11
a virus is alive they store information
00:12:14
and engage in reproduction but they
00:12:16
can't do it alone without a suitable
00:12:18
host
00:12:19
and what about abiogenesis the
00:12:22
appearance of life on the early Earth
00:12:25
at some point a collection of chemical
00:12:27
processes went from non-living to living
00:12:29
and that boundary was probably blurry
00:12:32
the modern Triad of DNA RNA proteins
00:12:36
couldn't have possibly existed in the
00:12:38
first life because if you take one of
00:12:40
those out the cycle of Life cannot
00:12:42
complete
00:12:43
so early life had to be simpler one
00:12:47
hypothesis states that early life was
00:12:49
solely composed of strands of RNA these
00:12:52
earliest forms of life would have been
00:12:53
completely alien to what we have now in
00:12:56
the modern world
00:12:57
some aspects of early life we still find
00:12:59
in common with our own for example early
00:13:02
life still used the liquid water as a
00:13:04
solvent and solvents are critically
00:13:06
important for our understanding of life
00:13:08
this is because the life on Earth uses a
00:13:11
soup of complex molecules to go about
00:13:13
living storing information catalyzing
00:13:16
reactions and so on these molecules need
00:13:19
a place to hang out where they won't get
00:13:20
instantly destroyed and water is stable
00:13:23
enough for exactly those purposes plus
00:13:26
water can bind with many other molecules
00:13:28
it can dissolve the ones you don't want
00:13:30
acting as a form of waste management and
00:13:32
it can be easily blocked allowing you to
00:13:34
build a membrane so that you always have
00:13:36
just the right amount near you
00:13:41
in addition to liquid water early life
00:13:44
also experienced roughly the same
00:13:46
temperatures that we do today
00:13:48
even though the first life may have been
00:13:50
extremophiles like bacteria that can
00:13:52
survive in deep sea hydrothermal vents
00:13:55
that is still within the broad range of
00:13:57
Earth normal early life didn't arise in
00:14:00
the depths of interstellar space or on
00:14:02
the surface of the Sun
00:14:04
early life also used all the same
00:14:06
elements that we're familiar with today
00:14:08
carbon is exceptionally handy as it
00:14:11
combined easily with itself and many
00:14:13
other elements allowing it to form large
00:14:15
strong structures oxygen is great for
00:14:18
participating in chemical reactions
00:14:20
which means it can serve as a useful
00:14:21
tool for storing and later using energy
00:14:24
phosphorus nitrogen and hydrogen also
00:14:27
play important roles especially in the
00:14:29
construction of DNA and RNA
00:14:32
so perhaps early Earth life would not be
00:14:35
so alien after all the same solvent the
00:14:39
same temperatures the same Elemental
00:14:41
building blocks
00:14:42
those microscopic Critters however they
00:14:45
initially emerged would have the same
00:14:47
basic requirements we do water food and
00:14:51
energy
00:14:53
but anything off the Earth is a
00:14:56
completely different story
00:14:58
[Music]
00:15:04
perhaps what happened on our planet is
00:15:06
generic and almost all forms of life in
00:15:09
the universe need the same basic
00:15:11
ingredients water carbon sunlight Etc
00:15:15
or perhaps not after all we only have
00:15:18
one data point to go on
00:15:20
and this was one of the major reasons
00:15:22
why the Martian meteorite was so
00:15:24
fascinating early Mars had liquid water
00:15:27
on its surface and a temperate climate
00:15:29
but Mars also features chemical and
00:15:31
geological processes that are unique to
00:15:34
that planet especially in the billions
00:15:36
of years after its oceans evaporated
00:15:39
and so we must be exceptionally careful
00:15:41
when studying other worlds
00:15:45
thankfully other places in the solar
00:15:47
system give us the opportunity to test
00:15:49
how broad our definitions of life can be
00:15:51
while still being recognizable many of
00:15:55
the outer moons in the solar system like
00:15:57
Enceladus and Europa contain vast oceans
00:16:00
of liquid water but that liquid water is
00:16:03
locked under miles and miles of ice
00:16:05
preventing any sunlight at all from
00:16:07
reaching it not all life on Earth
00:16:09
requires sunlight so could life have
00:16:12
gotten started there in the darkness of
00:16:14
the oceans could a complex food web
00:16:16
evolve driven by organic material
00:16:18
drifting through the icy crusts fed upon
00:16:21
by microscopic organisms to be swept up
00:16:24
by whale-like eyeless Giants
00:16:28
and then there's Titan one of Saturn's
00:16:32
145 moons the second largest moon in the
00:16:35
solar system it was discovered by the
00:16:37
great astronomer Christian highgens in
00:16:39
1655.
00:16:41
that world is cloaked by a dense
00:16:43
atmosphere rich with nitrogen and it is
00:16:46
the only known World other than Earth to
00:16:49
support lakes and rivers on its surface
00:16:52
but at a temperature of minus 180
00:16:54
degrees Celsius these aren't lakes and
00:16:56
rivers of water but of liquid
00:16:59
hydrocarbons like methane
00:17:02
could methane serve as a solvent for an
00:17:04
exotic low temperature form of life
00:17:07
perhaps even multicellular creatures
00:17:09
relying on achingly slow metabolisms
00:17:12
could swim in those Seas
00:17:15
research continues but the only way to
00:17:18
find out for sure would be to go there
00:17:21
the immense atmospheres of the outer
00:17:23
planets may also seem uninhabitable to
00:17:25
us but no one can be sure what strange
00:17:28
physics and exotic chemistry play out in
00:17:31
those depths heat motion complex
00:17:34
compounds all the ingredients are there
00:17:36
buried layer after layer in those
00:17:38
atmospheres
00:17:40
could creatures that never know the feel
00:17:42
of the ground or the taste of water
00:17:44
float majestically in those worlds
00:17:48
and lastly there are all the forms of
00:17:51
life that we can Encompass in our
00:17:53
imaginations
00:17:55
perhaps somewhere in the universe life
00:17:57
uses silicon rather than carbon as a
00:17:59
building block perhaps life doesn't even
00:18:01
need chemicals to store information or
00:18:04
make copies of itself strange Quantum
00:18:07
systems could do the trick or forms of
00:18:09
matter not known to us yet
00:18:12
everything
00:18:14
but to begin our exploration of the
00:18:16
earliest life that could possibly arise
00:18:18
in the universe we will start with the
00:18:21
strictest definition of life that we can
00:18:24
imagine
00:18:25
life that looks like the kind on Earth
00:18:29
that uses water as a solvent in a range
00:18:32
of habitable temperatures using a set of
00:18:34
key Elemental building blocks
00:18:45
[Music]
00:18:47
in 1952 a graduate student at the
00:18:50
University of Chicago named Stanley
00:18:52
Miller developed an experiment to test
00:18:55
the controversial hypothesis developed
00:18:56
by his advisor Nobel prize-winning
00:18:58
chemist Harold Yuri
00:19:01
the experiment was simple Miller took a
00:19:03
flask of water and added a mixture of
00:19:05
methane ammonia and hydrogen he then run
00:19:08
a spark of electricity through the flask
00:19:12
first nothing happened but after a day
00:19:14
the mixture turned faintly pink and
00:19:16
after a week the flask was filled with a
00:19:19
deep red liquid
00:19:21
after adding additional chemicals to
00:19:23
prevent microbial contamination and to
00:19:25
stop the reaction Miller used a
00:19:26
chromatograph to identify what new
00:19:28
molecules had appeared inside the flask
00:19:31
the results astounded him
00:19:35
glycine Alpha alanine Beta alanine
00:19:38
aspartic acid Alpha and aminobutyric
00:19:41
acid
00:19:42
these were amino acids the building
00:19:45
blocks of RNA and DNA the basic
00:19:48
chemistry of life itself
00:19:51
[Music]
00:19:55
Miller's experiment shook the world
00:19:57
prior to his work philosophers
00:19:59
theologians and scientists had only
00:20:02
vague guesses of how life could have
00:20:04
Arisen on the early Earth now the
00:20:06
problem of aviogenesis was planted
00:20:08
firmly in the scientific domain Miller's
00:20:11
experiment had shown how a mixture of
00:20:13
simple common molecules could produce
00:20:15
the basis for the rich organic chemistry
00:20:18
of life
00:20:20
the inputs into the experiment water
00:20:23
methane ammonia and hydrogen are all
00:20:25
amongst the most common molecules in the
00:20:27
universe and are made of carbon oxygen
00:20:30
hydrogen and nitrogen the outputs were
00:20:33
amino acids which are much more varied
00:20:36
and complex Arrangements of those same
00:20:38
basic elements amino acids play a
00:20:41
central foundational role in
00:20:43
Biochemistry our DNA encodes information
00:20:45
for 20 of them and combinations of amino
00:20:48
acids give rise to our protein
00:20:50
structures and all of life on Earth
00:20:53
the experiment had simulated the
00:20:56
hypothesized conditions of the early
00:20:57
Earth a warm mixture of what are known
00:21:00
as Prebiotic molecules the spark had
00:21:04
simulated a lightning strike in a
00:21:05
primordial pool triggering a chemical
00:21:07
transformation that would one day lead
00:21:10
to Life as We Know It
00:21:14
while we still don't understand the path
00:21:16
that led from the Prebiotic early Earth
00:21:18
to a world rich with living beings the
00:21:21
Miller Yuri experiment conclusively
00:21:23
showed that such transitions are
00:21:25
entirely possible
00:21:27
further measurements on sealed vials
00:21:29
from the original experiment revealed
00:21:31
that Miller had created even more amino
00:21:34
acids but without having the capability
00:21:36
to detect them those new amino acids
00:21:39
included variations not used by life on
00:21:41
Earth for whatever reason our planet
00:21:43
having settled on this group of 20 when
00:21:46
many more options are available
00:21:49
the Miller Yuri experiment demonstrates
00:21:51
one Link in the chain of how to create
00:21:53
Life as we know it you need to have a
00:21:56
Prebiotic mixture of elements under the
00:21:58
right conditions
00:22:00
and so to find the earliest life could
00:22:02
arise you have to be able to find the
00:22:05
right mixture of elements and the right
00:22:07
conditions
00:22:10
but where could that be in the universe
00:22:20
of course one place we can be sure of is
00:22:23
right here the surface of the Earth a
00:22:25
planet with an abundance of water and a
00:22:27
thick but not too thick atmosphere for
00:22:30
our Earth sits in What's called the
00:22:32
habitable zone of the sun this is a
00:22:35
region around a star where the
00:22:36
temperature is just right closer to a
00:22:39
star and the intense heat and radiation
00:22:41
will boil away any water turning it into
00:22:44
a vapor too far away and that water
00:22:46
freezes into solid ice every Star has
00:22:50
its own habitable zone with the location
00:22:52
and size of that zone depending on the
00:22:54
nature of the star small dwarf stars
00:22:57
have habitable zones brushing right up
00:22:59
against their surfaces giant stars have
00:23:02
habitable zones reaching hundreds of
00:23:04
millions of miles away
00:23:06
the habitable zone of the sun begins
00:23:09
just within the orbit of Venus and
00:23:11
extends outwards just past the orbit of
00:23:13
Mars but of the three worlds within that
00:23:16
zone only the Earth maintains liquid
00:23:18
water in the present day and so we can
00:23:21
conclude from this small example that
00:23:24
the conditions for Life as We Know It
00:23:25
are very strict with Venus scientists
00:23:29
strongly suspect that it once had a
00:23:31
thinner atmosphere and supported oceans
00:23:33
on its surface but as the sun aged it
00:23:36
steadily grew brighter and hotter within
00:23:39
a few hundred million years the intense
00:23:41
heat from the Sun triggered a runaway
00:23:43
greenhouse effect on Venus evaporating
00:23:46
its oceans and building up a thick
00:23:48
atmosphere dominated by carbon dioxide
00:23:52
the conditions on the surface are now so
00:23:54
hellish that it's hot enough to melt
00:23:57
lead
00:23:59
Mars on the other hand was also once
00:24:01
much warmer had a much thicker
00:24:03
atmosphere and also had oceans rivers
00:24:05
lakes and streams
00:24:07
we see evidence for past water activity
00:24:09
everywhere we look on the surface today
00:24:12
but as verdant as Mars once was it was
00:24:15
also born with a fatal defect
00:24:19
it was too small
00:24:22
in less than a billion years it cooled
00:24:25
off its molten core turning solid
00:24:27
without a molten core its magnetic field
00:24:30
shut off without a magnetic field the
00:24:33
solar wind stripped the atmosphere away
00:24:35
the planet dried
00:24:37
and died
00:24:40
however Universe wide that is relatively
00:24:43
small scale even entire Galaxies have
00:24:47
their own habitable zones too close to
00:24:49
the core of a galaxy too many stars will
00:24:52
live and die flooding their neighbors
00:24:54
with deadly radiation and the outskirts
00:24:57
of a galaxy are too thin with heavier
00:24:59
elements preventing planets from forming
00:25:01
in the first place
00:25:02
[Music]
00:25:04
but to even have the chance for life to
00:25:06
appear in the habitable zone of a star
00:25:08
or Galaxy with liquid water rich with
00:25:10
Prebiotic organic compounds appearing on
00:25:13
the surface of a planet near a pleasant
00:25:15
star you first need organic compounds
00:25:18
and liquid water
00:25:25
indeed the origins of Earth's abundant
00:25:28
oceans remains a mystery certainly the
00:25:30
Earth formed with a lot of water in the
00:25:32
first place as it's the most common
00:25:33
element in the entire universe but most
00:25:36
of the water did not end up on the
00:25:38
surface it either got locked up as
00:25:40
chemical compounds in the mantle indeed
00:25:43
there's more water in the mantle than
00:25:44
anywhere else on Earth or evaporated
00:25:46
while our planet was still Molten
00:25:51
astronomers believe that comets and
00:25:53
asteroids are likely played an important
00:25:55
role in replenishing the water supply of
00:25:57
the earth
00:25:58
these small leftover bits of debris from
00:26:01
the formation of the planets generally
00:26:03
formed in the outer regions of the solar
00:26:05
system where water could survive as ice
00:26:09
then impact after impact on the young
00:26:12
Planet brought with it a fresh round of
00:26:14
water which eventually built up to
00:26:16
generate our oceans but again this
00:26:18
process had to be just right if the
00:26:21
Earth suffered too many impacts or too
00:26:23
large then it would have reheated our
00:26:25
surface turning it molten again and
00:26:27
sending us back to the start
00:26:30
and it's also possible that these early
00:26:32
impacts brought with them
00:26:34
something else
00:26:37
in 2014 the Japanese space agency
00:26:40
launched the Hayabusa 2 mission a probe
00:26:44
headed to the asteroid ryugo
00:26:46
that mission collected a sample from the
00:26:48
surface of ryugu and returned it to
00:26:50
Earth for closest study
00:26:53
back in the laboratory scientists were
00:26:55
amazed to discover the presence of
00:26:57
several amino acids in the dust grains
00:26:59
of the asteroid
00:27:00
including some that formed the basis of
00:27:03
Earthly life
00:27:05
and so it seems that the Miller Yuri
00:27:07
experiment is just one of many options
00:27:10
available for the universe to make
00:27:11
organic compounds and more complex amino
00:27:14
acids scientists aren't sure how these
00:27:17
molecules were created on ryugo but it
00:27:20
likely involved some complex interaction
00:27:22
with the sun's ultraviolet radiation
00:27:24
which could have provided the energy
00:27:26
needed to turn simple compounds into
00:27:28
amino acids
00:27:30
considering that ryugu is a Remnant from
00:27:33
the formation of the solar system and
00:27:35
has remained untouched for over 4
00:27:36
billion years the timeline would fit for
00:27:39
the early arrival of life's building
00:27:41
blocks to the Earth's surface
00:27:44
but the presence of amino acids goes
00:27:46
back even further than rocks in our
00:27:49
solar system
00:27:50
[Music]
00:27:54
in 2003 a team of astronomers found
00:27:57
evidence for glycine the simplest of the
00:27:59
amino acids in several giant molecular
00:28:02
clouds these clouds are the places in
00:28:05
galaxies where stars and solar systems
00:28:07
form so it's also possible that amino
00:28:10
acids could have been carried along with
00:28:11
the formation of the Earth from the very
00:28:14
beginning
00:28:15
astronomers have also spotted a variety
00:28:17
of organic compounds in giant molecular
00:28:20
clouds throughout the Galaxy in other
00:28:22
galaxies and even distant quasars
00:28:27
these quasars only appear in the young
00:28:30
universe suggesting that the basic
00:28:32
chemistry for life has been present for
00:28:35
a very long time
00:28:38
but even that is not the true beginning
00:28:42
all that chemistry has to come
00:28:45
from somewhere
00:28:47
[Music]
00:28:52
molecules assemble themselves from
00:28:54
elements in a variety of processes
00:28:56
throughout the Universe and almost all
00:28:58
the elements on the periodic table come
00:29:00
from a process known as stellar
00:29:02
nucleosynthesis
00:29:04
this process was discovered in 1957 in a
00:29:08
landmark paper authored by the husband
00:29:09
and wife team of Jeffrey and Margaret
00:29:11
Burbidge along with William Fowler and
00:29:14
Fred Hoyle in their work they provided a
00:29:17
detailed and complete description of how
00:29:19
Stars fashion elements
00:29:23
the key is nuclear fusion our sun is
00:29:27
currently fusing hydrogen into helium to
00:29:29
generate heat near the end of its life
00:29:31
it will turn to fusing helium producing
00:29:34
carbon and oxygen in the process when it
00:29:37
dies it will spread these elements out
00:29:39
where they will join the general mix of
00:29:41
the interstellar medium stars much
00:29:43
heavier than the sun are capable of
00:29:44
fusing carbon and oxygen into potassium
00:29:47
magnesium and more all the elements up
00:29:50
to and including iron
00:29:53
to generate even heavier elements the
00:29:55
universe has to turn to more energetic
00:29:57
processes
00:29:58
supernovae carry enough energy to fuse
00:30:01
many heavy elements but it turns out
00:30:03
that merging neutron stars carry just
00:30:05
the right combination of energy duration
00:30:08
and sheer number of neutrons to produce
00:30:11
many more including gold and silver
00:30:15
and so to generate Life as we know it we
00:30:18
not only need the right conditions the
00:30:21
right chemicals water and a temperate
00:30:23
Planet but most fundamentally
00:30:26
we need Stars
00:30:29
multiple generations of stars to be
00:30:31
exact all fusing elements dying in
00:30:34
Supernova bursts and merging together to
00:30:36
fill out the periodic table
00:30:41
only after a galaxy has generated
00:30:43
sufficient quantities of the basics like
00:30:46
carbon and oxygen can water and solid
00:30:49
rock form providing enough material to
00:30:52
build planets with the required organic
00:30:54
chemistry
00:30:55
but stars have not always been present
00:30:58
in the universe the Big Bang only
00:31:01
produced hydrogen helium and the
00:31:03
scattering of lithium and beryllium and
00:31:06
there were hundreds of millions of years
00:31:07
before the first Stars ignited
00:31:10
so on our journey to find the earliest
00:31:12
possible moment that life could have
00:31:14
Arisen we will need to reach back into
00:31:18
the darkest ages of the universe
00:31:34
imagine years in the future we finally
00:31:37
uncover what dark matter really is
00:31:42
after Decades of effort and struggle it
00:31:45
turns out to be quite simple the vast
00:31:47
majority of the mass of our universe is
00:31:49
revealed to be made of some new particle
00:31:51
that had previously been unknown to
00:31:53
physics
00:31:54
some slight adjustments to the standard
00:31:56
model and a series of confirmed direct
00:31:58
detections later the mystery is
00:32:01
conclusively solved a single particle
00:32:04
that participates in the gravitational
00:32:05
interaction and very rarely through the
00:32:08
weak nuclear force
00:32:10
and that is it
00:32:12
Laboratories are shut down proposals for
00:32:15
New Missions scrapped without a grand
00:32:18
mystery to ignite passion and curiosity
00:32:20
funding dries up and astronomers and
00:32:22
physicists go on to study other Cosmic
00:32:25
questions
00:32:27
but a small team of scientists persist
00:32:30
in their experiments and observations
00:32:32
unconvinced by the accepted explanation
00:32:34
while the new standard model explains
00:32:37
the vast majority of Dark Matter
00:32:39
phenomena there are still some holes for
00:32:43
example these new dark matter particles
00:32:45
can very rarely interact with each other
00:32:47
annihilating in a burst of light a flash
00:32:50
of gamma-ray radiation for decades we
00:32:54
had observed an excessive amount of
00:32:55
gamma rays coming from the center of the
00:32:58
Milky Way but long assumed it was due to
00:33:00
some particle physics interactions not
00:33:03
dark matter
00:33:04
but this final team working on Dark
00:33:07
Matter thinks there is more scraping
00:33:11
together funding they develop a
00:33:12
high-resolution gamma-ray telescope
00:33:15
aiming squarely at the center of the
00:33:17
Milky Way the gamma-ray signal is there
00:33:21
just as expected a product of the Dark
00:33:23
Matter particles annihilating
00:33:26
but the more the researchers study the
00:33:28
signal the more questions they have
00:33:31
for the signal isn't perfectly steady
00:33:33
but is constantly changing ever so
00:33:36
slightly
00:33:37
the scientists dream up and discard a
00:33:40
dozen theories to explain the variation
00:33:43
nothing works after years of study the
00:33:47
funding runs out the team disbands
00:33:49
frustrated at their lack of progress
00:33:53
[Music]
00:33:56
but years later on a sleepless night one
00:33:59
of the former graduate students in the
00:34:01
group pulls up the old data
00:34:04
acting on a hunch she processes the
00:34:06
signal variations in a slightly
00:34:08
different way
00:34:10
and then she sees it
00:34:14
every few seconds the gamma-ray signal
00:34:16
changes in intensity by a precise amount
00:34:19
sometimes the signal increases in
00:34:22
intensity and sometimes it drops the
00:34:25
time between shifts however never
00:34:28
changes and the up down pattern never
00:34:30
repeats except after over a month has
00:34:33
passed
00:34:34
then the same Rhythm appears again and
00:34:37
again
00:34:38
and again
00:34:39
marking an increase in intensity is a
00:34:42
one and a decrease in intensity as a
00:34:44
zero the former student begins
00:34:47
scribbling on a nearby piece of scrap
00:34:49
paper
00:34:50
[Music]
00:34:52
one one zero zero zero one one one
00:35:00
zero zero zero zero one one zero zero
00:35:13
our quest to find the earliest possible
00:35:15
appearance of life in the universe has
00:35:17
taken us to the breaking of the cosmic
00:35:19
Dawn
00:35:20
and the birth of the first Stars
00:35:25
those first Stars fused only hydrogen
00:35:28
and could have been as large as hundreds
00:35:30
or thousands of suns they were born they
00:35:33
lived Furious but brief lives and they
00:35:36
died beginning the cosmic recycling of
00:35:38
the elements each generation of stars to
00:35:40
come after adding to the enrichment of
00:35:42
the interstellar medium eventually after
00:35:45
an unknown number of generations a solar
00:35:48
system could form a star orbited by
00:35:50
enough Rocky and icy material to Fashion
00:35:53
planets out of the chaos
00:35:55
[Music]
00:36:02
we know that the first Stars didn't
00:36:04
appear until at least 100 million years
00:36:06
after the big bang we also know based on
00:36:09
observations with the James Webb Space
00:36:11
Telescope and more that galaxies
00:36:13
appeared to be fully constructed within
00:36:15
500 million years there was a time
00:36:17
before that when our universe was 10 to
00:36:20
15 million years old that the cosmic
00:36:22
microwave background flooded the
00:36:24
universe with room temperature radiation
00:36:26
but that was well before the development
00:36:28
of rocky planets or even water and so
00:36:31
while we don't yet have a precise answer
00:36:33
we do have limits
00:36:35
the first possibility for Life as We
00:36:37
Know It swimming in liquid water oceans
00:36:39
on a rocky planet orbiting a Placid star
00:36:42
would have occurred somewhere between
00:36:44
100 and 500 million years after the big
00:36:47
bang our own solar system formed some 9
00:36:50
billion years later and so it is safe to
00:36:53
assume the Earth was not the first
00:36:55
opportunity for our universe to create
00:36:58
life
00:36:59
but of course that's only accounting for
00:37:02
the kind of life that we conclusively
00:37:04
know of
00:37:05
not the kinds of life that we can
00:37:08
imagine
00:37:11
[Music]
00:37:13
let's return to our simple definition of
00:37:16
life that which is subject to darwinian
00:37:18
evolution
00:37:19
this requires information storage
00:37:22
self-replication and the ability to
00:37:24
interact with the environment life on
00:37:26
Earth accomplished this with a soup of
00:37:28
chemicals immersed in water with deep
00:37:30
sea vents or sunlight providing an ample
00:37:33
source of energy to drive chemical
00:37:34
reactions
00:37:36
and so the earliest life that looks
00:37:38
similar to this could not exist for at
00:37:39
least a few hundred million years well
00:37:42
after a few generations of stars had
00:37:44
already come and gone but scientists
00:37:46
have speculated about many Alternative
00:37:49
forms of biochemistry besides Methane
00:37:52
biochemists have also proposed ammonia
00:37:55
hydrogen fluoride hydrogen sulfide and
00:37:57
silicon dioxide as alternatives to water
00:38:00
others have proposed that arsenic which
00:38:02
is deadly to almost all life on Earth
00:38:04
might be a useful substitute for
00:38:06
phosphorus on some exotic world or that
00:38:09
silicon while not as robust and sturdy
00:38:11
as carbon might provide a suitable
00:38:13
foundation for complex molecular chains
00:38:16
that could lead to intricate living
00:38:18
systems indeed in 2007 physicist Vadim
00:38:22
and sidovich ran computer simulations of
00:38:24
molecular interactions and found that
00:38:27
Dusty grains in interstellar gas clouds
00:38:29
when suspended in an energetic plasma
00:38:32
could begin to self-organize and form
00:38:35
complex shape
00:38:37
certainly not life itself but the
00:38:39
Intriguing hint that something like life
00:38:42
could arise
00:38:44
though whether it's the surface of a
00:38:46
planet deep under a crust or miles of
00:38:48
atmosphere or tucked away in some
00:38:50
Interstellar gas cloud all these
00:38:52
Alternatives ultimately require the same
00:38:55
thing chemistry
00:38:58
the elements of the periodic table have
00:39:00
to exist in the first place before they
00:39:02
can begin mixing together in interesting
00:39:04
ways that can potentially lead to life
00:39:06
and so these Alternatives cannot push
00:39:09
the emergence of the first life in the
00:39:11
universe back much before the kinds we
00:39:13
would recognize on Earth
00:39:15
[Music]
00:39:16
to go further back we have to get more
00:39:19
exotic
00:39:23
[Music]
00:39:27
in 1973 eminent physicist Frank Drake
00:39:30
proposed that microscopic structures
00:39:32
inside neutron stars could meet all the
00:39:35
conditions for darwinian evolution these
00:39:38
structures would be bound by the strong
00:39:40
nuclear force and could form complex
00:39:42
interacting shapes surrounded by the
00:39:45
Abundant energy of the neutron star's
00:39:47
own heat these structures could
00:39:49
potentially begin the path to
00:39:51
self-replication but of course to create
00:39:53
neutron stars the universe first has to
00:39:56
create Stars
00:39:58
and so this possibility pushes back the
00:40:01
potential for life to just after the
00:40:03
very first generation of stars some 100
00:40:05
million years after the big bang
00:40:08
another hypothesis proposed by Louis a
00:40:10
andradoki and Eugene M chodnovsky of the
00:40:13
City University of New York states that
00:40:16
life composed of magnetic monopoles
00:40:18
connected by cosmic strings could take
00:40:21
on complex forms however physicists
00:40:24
continue to debate the very existence of
00:40:26
magnetic monopoles and cosmic strings
00:40:28
and this idea requires that these exotic
00:40:30
compounds exist in a heat bath namely
00:40:32
that they are embedded inside Stars so
00:40:36
that still doesn't push the clock back
00:40:37
any further
00:40:39
but there is another possibility hidden
00:40:43
in the Dark Sector of the universe
00:40:47
all of our understanding of physics from
00:40:50
the table of elements to the fundamental
00:40:51
particles comprises less than five
00:40:54
percent of all the energy and mass in
00:40:57
the entire universe most of the cosmos
00:40:59
is of a form unknown to Modern physics
00:41:03
this unknown is divided into two sectors
00:41:06
dark matter which makes up the mass of
00:41:09
most galaxies and dark energy which is
00:41:11
responsible for the accelerated
00:41:13
expansion of the universe
00:41:15
despite this categorization scheme we
00:41:18
still don't understand the natures of
00:41:20
dark matter and dark energy
00:41:22
they could very well be simple a
00:41:25
particle that interacts with nothing
00:41:26
except through gravity and a Quantum
00:41:28
force that pervades space-time
00:41:31
or they can be more complex
00:41:33
new forces of nature could allow Dark
00:41:36
Matter to interact with itself and with
00:41:39
dark energy there could be multiple
00:41:41
species of Dark Matter particles
00:41:43
entirely new interactions could take
00:41:45
place among these particles allowing
00:41:47
them to form their own Periodic Table of
00:41:50
dark elements
00:41:52
dark atoms dark molecules dark chemistry
00:41:56
dark life
00:41:58
a completely alien form of life using
00:42:02
sources of energy beyond our
00:42:03
understanding existing in the Hidden
00:42:05
Shadows of the universe that life could
00:42:09
be at play right now even in the present
00:42:11
day Cosmos completely unobservable to us
00:42:15
and if that kind of dark shadow life is
00:42:18
possible it could have emerged well
00:42:20
before the first stars as it had access
00:42:23
to sources of energy Beyond Simple
00:42:25
nuclear fusion perhaps Stark life
00:42:28
appeared while the universe was still in
00:42:30
its plasma state
00:42:33
and that is not the end of it
00:42:36
[Music]
00:42:40
simply put we do not understand the
00:42:43
conditions of the extremely early
00:42:46
universe
00:42:47
the energies at play when our Cosmos was
00:42:49
less than a second old are far beyond
00:42:51
our current level of understanding
00:42:54
who knows what exotic forces danced in
00:42:57
the fires of the Big Bang
00:43:00
who knows what structures and patterns
00:43:02
emerged something like life could very
00:43:05
well have Arisen in that Maelstrom
00:43:07
creating living and maybe even thinking
00:43:10
Untold Generations passing from one to
00:43:14
the next unknown and unknowable to us in
00:43:17
their cold and distant future a legacy
00:43:20
erased by the inevitable expansion and
00:43:23
cooling of the cosmos
00:43:25
emerged and extinct in less than the
00:43:29
blink of an eye
00:43:33
but even considering all of these
00:43:35
remarkable possibilities if ancient life
00:43:37
did arise
00:43:39
how could we ever know
00:43:47
during a pleasant afternoon in the
00:43:49
summer of 1950 famed particle physics
00:43:52
Pioneer in Rico Fermi was walking to
00:43:54
lunch with his colleagues
00:43:57
as is usually the case when physicists
00:43:59
take a break from work they started
00:44:01
speculating in this case around the
00:44:04
topic of aliens
00:44:06
after debating back and forth for a
00:44:08
while on the possibility of
00:44:09
extraterrestrial life and the likelihood
00:44:11
of encountering it the conversation
00:44:13
eventually moved on
00:44:15
but the question must have dogged in
00:44:17
Rico because later that lunch apropos of
00:44:20
nothing he suddenly blurted out
00:44:23
where is everybody
00:44:27
the train of logic is simple the Earth
00:44:30
is not particularly special yes there's
00:44:32
liquid water on the surface a clement
00:44:34
environment a rich soup of organic
00:44:36
materials an abundant and steady supply
00:44:38
of energy we have no evidence of these
00:44:40
conditions let alone life arising
00:44:42
anywhere else in the solar system let
00:44:44
alone the Galaxy
00:44:46
and yet the universe is vast
00:44:50
there are at least a hundred billion
00:44:52
stars currently alive in the Milky Way
00:44:55
galaxy there are potentially almost 2
00:44:58
trillion galaxies within the observable
00:45:00
volume of the universe and in physics
00:45:02
nothing happens just once either nature
00:45:05
forbids it and it never happens or it
00:45:08
allows it and the universe is large
00:45:10
enough to accommodate multiple instances
00:45:12
of even the rarest phenomenon for
00:45:15
example modern estimates suggest that
00:45:17
the Milky Way alone hosts around 5
00:45:20
billion Earth-like planets in the
00:45:21
habitable zones of sun-like stars
00:45:24
and that's just one Galaxy
00:45:27
[Music]
00:45:32
and so Earth is special and life is rare
00:45:35
but Earth isn't that special and we have
00:45:37
no reason to believe life is that rare
00:45:41
we are just one rocky planet orbiting
00:45:45
one unremarkable star
00:45:47
if life happened here then logic
00:45:50
dictates it must be a somewhat generic
00:45:52
feature of the universe and so it must
00:45:54
have happened elsewhere
00:46:00
and to add to this the universe isn't
00:46:03
just gigantic
00:46:05
it is ancient
00:46:08
Earth-like life could have Arisen as
00:46:10
early as 100 million years after the big
00:46:12
bang the cosmos is now almost 400 times
00:46:15
as old life appeared on the earth as
00:46:17
soon as the crust cooled and oceans
00:46:19
formed almost 4 billion years ago and so
00:46:22
by now almost 14 billion years after the
00:46:25
big bang and 9 billion years after the
00:46:28
formation of the Milky Way countless
00:46:30
alien life forms should have Arisen
00:46:32
crawled out of their oceans survived
00:46:34
terrible catastrophes evolved to
00:46:37
intelligence developed a sophisticated
00:46:39
civilization and invented the Necessary
00:46:42
Technology to travel Among the Stars
00:46:45
even we humans have managed to send a
00:46:48
spacecraft beyond the bounds of the
00:46:49
solar system and out into Interstellar
00:46:51
space and we have been trying for less
00:46:54
than a century
00:46:57
Enrico argued that the Galaxy should be
00:46:59
littered with the debris of alien
00:47:01
civilizations come and gone there should
00:47:04
be active probes in the solar system
00:47:06
remnants of Technology everywhere we
00:47:09
look logically we should have evolved in
00:47:12
the plains of Africa with full awareness
00:47:14
of the aliens watching us even guiding
00:47:16
us
00:47:17
and yet
00:47:19
nothing
00:47:20
no sign of intelligence let alone life
00:47:23
anywhere else in the galaxy
00:47:26
this is fermi's famous paradox
00:47:30
life should be everywhere but instead we
00:47:33
are forced to ask
00:47:35
where is everybody
00:47:38
[Music]
00:47:46
answering this Paradox forces us to
00:47:48
tackle the same challenging question
00:47:50
again how would we recognize
00:47:52
extraterrestrial life
00:47:54
the most exotic forms of life imaginable
00:47:57
like creatures living in the first
00:47:58
instant of the Big Bang or within the
00:48:00
Dark Sector of the universe would likely
00:48:03
remain elusive to us forever with any
00:48:05
evidence of their existence hidden from
00:48:07
even our most clever experiments
00:48:10
but Earth-like life or even life based
00:48:13
on exotic chemical combinations that is
00:48:16
a different story
00:48:18
one answer is to focus solely on
00:48:20
intelligent life as the thinking goes
00:48:22
that while intelligent civilizations May
00:48:24
tend to be rarer than generic simple
00:48:26
life they are at least loud as soon as
00:48:30
humans developed radio technology for
00:48:32
example we started blasting signals
00:48:34
around the world and out into space
00:48:39
this is the backbone of seti the surge
00:48:42
for extraterrestrial intelligence the
00:48:45
general seti program searches for radio
00:48:47
signals produced by artificial means
00:48:49
radio is especially handy because it's
00:48:52
easy to generate in large quantities
00:48:54
with relatively little power and it can
00:48:56
sail through thousands of light years of
00:48:58
Interstellar dust clouds without getting
00:49:00
itself scattered or absorbed
00:49:03
unfortunately after Decades of scanning
00:49:05
the radio skies for any signs of
00:49:07
intelligence we've found nothing
00:49:10
one possibility of course is that we
00:49:12
have only barely scratched the possible
00:49:14
search space after all astronomical
00:49:17
observations are difficult and expensive
00:49:19
especially when they are across a broad
00:49:21
range of frequencies across the entire
00:49:23
sky and as often as possible
00:49:26
so we may have simply missed the few
00:49:29
stray artificial radio signals that have
00:49:31
washed over the Earth in the past half
00:49:33
century
00:49:34
but other seti attempts have also failed
00:49:37
alternative directions are focused on
00:49:40
searching for physical artifacts of
00:49:41
intelligent civilizations like
00:49:43
alterations of Stellar chemistry as a
00:49:46
signal to the wider universe or the
00:49:48
construction of Mega engineering
00:49:50
projects like Dyson spheres but no known
00:49:53
Stars show signs of artificial pollution
00:49:56
and no Dyson spheres appear in our scans
00:49:59
across the Galaxy and out into the wider
00:50:01
universe
00:50:03
besides these searches for intelligence
00:50:05
hunts for any forms of life have also
00:50:08
come up empty despite our trying every
00:50:11
possible angle
00:50:20
the alien worlds orbiting within the
00:50:22
habitable zones of Their Stars we've
00:50:24
studied the light filtering through
00:50:26
their atmospheres looking for
00:50:27
biosignatures like excess oxygen and
00:50:29
methane something that could not
00:50:31
possibly have a purely chemical origin
00:50:33
no matter how exotic
00:50:35
and while many of these searches are
00:50:37
still nascent the ones we have performed
00:50:40
have still come up empty
00:50:42
we found thousands of exoplanets and
00:50:45
many potentially habitable worlds like
00:50:47
the trappist-1 system or Proxima B and
00:50:50
many with thick atmospheres
00:50:53
and yet in all that work we haven't
00:50:55
found a single shred of evidence for
00:50:57
life outside the Earth
00:51:00
and so where is everybody
00:51:05
the first possibility to consider is
00:51:07
that fermi's base assumption is wrong
00:51:09
that life truly is rare
00:51:13
the Earth and our conditions being
00:51:15
special if not entirely unique within
00:51:18
the Galaxy that you could have a
00:51:19
thousand a million a billion copies of
00:51:21
Earth all with the exact same
00:51:23
temperatures and pressures and soup of
00:51:25
chemicals and life would only appear on
00:51:27
one of them
00:51:29
or perhaps while life may be common
00:51:31
intelligent life is not
00:51:34
perhaps there are microbes on almost
00:51:36
every wet world in the Galaxy but that
00:51:39
in 14 billion years of cosmic history we
00:51:42
are the first intelligent civilization
00:51:44
to arise in the Milky Way to beat the
00:51:47
astronomical odds stacked against us and
00:51:50
look into the universe with curious
00:51:52
minds that we for all intents and
00:51:54
purposes save for some microscopic
00:51:57
cousins that we might encounter in our
00:51:59
Explorations in the distant future
00:52:01
ah alone
00:52:05
life could have been right in front of
00:52:07
our eyes from the start but of a
00:52:09
chemical form that we cannot yet
00:52:10
distinguish from non-life perhaps
00:52:12
creatures really did once crawl through
00:52:15
that Martian meteorite perhaps the
00:52:17
buried Seas of the outer moons are alive
00:52:19
and active but we may not yet realize it
00:52:22
for what it is
00:52:24
and of course yet another possibility is
00:52:27
that both life and intelligence are
00:52:30
common
00:52:32
but not for long
00:52:34
[Music]
00:52:39
life may gain foothold after foothold on
00:52:42
countless worlds only to be snuffed out
00:52:45
just looking at her own geologic history
00:52:48
illustrates the risks that being alive
00:52:50
brings how many times was the earth
00:52:53
almost wiped clean and that even before
00:52:56
the rise of sentience once intelligence
00:53:00
arose we developed the capability to
00:53:02
destroy ourselves relatively quickly but
00:53:05
perhaps still lack the sophistication to
00:53:08
assure her own Survival
00:53:10
proliferation of nuclear weapons and the
00:53:13
spiraling disaster of climate change may
00:53:15
not threaten us as a species but it
00:53:17
could certainly spell Doom for our
00:53:19
ability to communicate with the wider
00:53:21
Cosmos could we possibly recover our
00:53:24
technological might from such a
00:53:25
catastrophe or would we Linger on for
00:53:28
Generations returning to the ways of our
00:53:30
ancient ancestors until some larger
00:53:33
Calamity consumes us
00:53:36
but let us put that to one side and
00:53:39
imagine we prevail
00:53:41
perhaps we do spread throughout the
00:53:43
solar system and even the local Galaxy
00:53:46
overcoming the vast distances that
00:53:49
separate the Stars perhaps we endure for
00:53:52
a million years or more an unimaginable
00:53:54
amount of time to remain technologically
00:53:57
sophisticated
00:53:58
the problem is that is almost nothing on
00:54:02
a cosmic scale
00:54:05
the universe is 13.8 billion years old
00:54:09
our home Galaxy one of trillions
00:54:13
eventually some limit is reached and we
00:54:16
simply dwindle away with nothing more
00:54:18
than empty worlds and dead space probes
00:54:21
to call our Legacy
00:54:24
and so maybe we're not alone that in 14
00:54:28
billion years and among two trillion
00:54:30
galaxies other intelligent species have
00:54:33
Arisen and even spread but the vast
00:54:36
expanse of time and space that dominate
00:54:38
the universe cruelly separates us from
00:54:41
any meaningful sustained contact our
00:54:44
loudest radio blasts mere Whispers in
00:54:46
the background our brightest beacons
00:54:49
only flickers of dim candlelights
00:55:01
but perhaps just perhaps our deep
00:55:05
descendants Generations from now will
00:55:07
explore our galaxy and find it filled
00:55:10
with the graveyards of extinct
00:55:11
civilizations
00:55:13
what monuments will they find buried
00:55:16
under miles of dirt on some alien world
00:55:18
what probes might they encounter in the
00:55:21
depths of the interstellar void
00:55:23
such a discovery would answer many
00:55:25
questions and raise even more it would
00:55:29
be a clue not just to the origins of
00:55:32
humanity but to the origins of all life
00:55:34
in the universe
00:55:37
what alien Gobekli Tepe sits out there
00:55:41
waiting for us to find it
00:55:48
[Music]
00:55:52
you've been watching the entire history
00:55:54
of the universe don't forget to like And
00:55:57
subscribe and leave a comment to tell us
00:55:58
what you think
00:56:00
thanks for watching and we'll see you
00:56:03
next time
00:56:06
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