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An alien sunrise ushers in a new day,
but
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will alien eyes gaze upon it or
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will it go unseen?
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Just another moment in a vast,
sterile universe.
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The hunt is on for the answer.
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The Milky Way.
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Hundreds of billions of stars.
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Spread across a hundred thousand light
years of space.
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The Sun.
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With eight planets orbiting around it.
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Including our home.
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Until very recently, these were the only
worlds we knew of.
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The only planets we could hope to explore
for signs of life beyond Earth.
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00:02:46,890 --> 00:02:51,001
When I first got into
astronomy back in the 1970s,
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we knew of no planets
beyond our solar system.
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We didn't have the technology to detect
them even if they were there.
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Our neighbourhood was the only place we
could look for life.
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And so the hunt for life began in our own
backyard.
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Over the last few
decades, multiple missions
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have explored our
solar system's planets.
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And even some of their moons.
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But to date, even as we
continue to look, no convincing
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evidence of life has been
found on any of these worlds.
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Earth remains one-of-a-kind, the
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only living world around the Sun.
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But as the exploration of the solar system
continued, another search had begun.
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For worlds that lie far beyond these
shores.
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You know the wonderful thing about
astronomy is that as we develop better and
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better technology and accumulate more and
more knowledge about our universe,
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we turn more and more of these points of
light in the sky into worlds.
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I mean that, we've known, is a world for a
long time because that is the planet Mars.
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But just above Mars tonight is a
constellation called Pegasus.
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This is the square of the planet.
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And we now know that
around there is a star called
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51 Pegasi which has a
planet orbiting around it.
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A gas giant about the
size of Jupiter that goes
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round that faint point
of light every four days.
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It is wonderful to think that in my
lifetime, in fact in my adult lifetime,
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in the last 25 years, we've gone from a
universe of stars.
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That could have been devoid of planets
beyond our solar system.
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To a universe that we know is teeming with
places that we can search for life.
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Over the last three
decades, some of the most
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powerful telescopes on
Earth have joined the hunt.
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Searching for planets unimaginably far
away.
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Hiding in the dark.
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Planets like 51 Pegasi b, the
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first world outside our solar system to be
detected around a sun-like star.
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51 Pegasi b is a gas
giant, around half the
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mass of Jupiter, but
far closer to its star.
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Just imagine what that world might be
like.
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A world with skies torn by titanic winds,
Where
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it's hot interior is bathed in rain of
sapphires.
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In every sense, 51 Pegasi b is an alien
world.
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And we soon discover
that the galaxy is full of
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planets unlike anything
seen in the solar system.
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In our solar system, planets
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enveloped by fierce radiation,
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their surfaces battered and stripped by the
high energy strobing light of their star.
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Worlds so cold their atmospheres are
frozen solid.
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Or great swollen planets with
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the density of styrofoam and
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fathomless atmospheres.
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These discoveries proved that in one
sense, we really are not alone.
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There are other worlds out there waiting
to be explored.
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We estimate that in the Milky Way Galaxy,
there are more planets than stars.
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Hundreds of billions of them.
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That's hundreds of billions of places.
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That's hundreds of billions of places.
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To look for life.
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But there's a catch.
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Because not all worlds by a long stretch
are like this one.
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The first planets we found
appeared too bizarre, too large and
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often too close to their stars
for living things to survive.
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To find worlds where life could exist,
we needed to look for smaller rocky
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planets in orbits further from their
stars.
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T minus 10, 9, 8, 7, 6, 5, 4, 3,
2, engine start, 1, 0 and liftoff of the
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Delta II rocket with Kepler on a search
for planets in some way like our own.
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So the hunt moved to space.
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With the help of the Galaxy, we were able
to find a new world.
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The launch of NASA's Kepler Space
Telescope.
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And we have separation.
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Searching for Earth-like worlds in the
galaxy beyond.
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Kepler crossed 94 million miles of space
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until it arrived in a steady orbit around
the Sun,
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from where it looked out with a fixed and
clear gaze.
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To a single patch of sky in the
constellation of Cygnus.
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Exposing its sensitive light meter
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to the light of 150,000 stars.
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It began to look for Earth-like alien
worlds.
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Kepler doesn't detect planets directly.
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They are far too small.
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They're just specks of dust relative to
their parent star.
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They're also very faint.
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They don't emit light of their own.
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So they just glow very dimly in the
reflected ambient light of their stars.
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So Kepler has to detect planets
indirectly.
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Imagine that a moth just flew across the
beam of light from the lighthouse.
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I wouldn't see the moth.
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But if I had a sensitive enough detector
and everything was lined up properly,
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I might just see the brightness of the
light dimming.
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And that is how Kepler detects planets.
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00:13:32,340 --> 00:13:34,482
I mean, imagine there's
an alien astronomer in
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some distant solar system
looking back at the sun.
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And everything's lined up so they see the
Earth trace across the face of our star.
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They would see the light from the sun dim
by one hundredth of one percent.
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It's a tiny amount, but it's enough.
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And if they saw that dimming was regular,
if they saw the star dim once every year
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in this case, then they would infer that
there's a planet orbiting around the star.
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With its exquisitely sensitive light
meter,
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Kepler sees only the regular dimming of
pixels.
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Just a few bits of information.
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But from those bits,
others can begin to build
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a picture of the worlds
that dim the starlight.
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Worlds that might, in some way,
resemble our own.
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Worlds like Kepler-36b.
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The planet was one of Kepler's earliest
discoveries.
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Orbiting a star similar
to our own, we'd found a
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world that, at first glance,
might seem familiar.
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Weighing in at around four
times the mass of our own planet,
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Kepler-36b was one of the
first of a new class of planet.
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A super earth.
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The Kepler data doesn't just allow us to
say there's a planet around that star.
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It allows us to characterize those
planets.
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So by looking at the precise way that the
light fades and then rises again,
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and the timing between the dips,
we can measure the orbit of the planets.
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00:16:31,060 --> 00:16:35,080
And if there are multiple planets in the
system, we can even estimate their masses.
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So the Kepler data allows astronomers to
paint a picture of the worlds it discovers.
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But the more detailed our
picture of Kepler-36b became,
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the less earth-like this
super earth appeared to be.
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It orbits very close to its star,
circling once every 14 days.
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It has company.
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A gigantic gaseous companion.
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With an orbit unusually close to its
smaller sibling.
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The proximity of both its
star and sister planet allows
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us to imagine the bizarre
conditions that may exist.
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On the surface of Kepler-36b.
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The planet may be tidally locked.
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Which would mean that one hemisphere
always faces the star.
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On this side, the punishing heat could
turn the ground molten.
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Creating rivers of lava that would
criss-cross the surface.
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00:18:32,731 --> 00:18:34,350
The
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planet could experience violent eruptions.
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As the gravitational pull of the gas giant
triggers intense volcanism.
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Each time, it passes by.
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But
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Kepler-36b could also
be... a planet of ice.
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Because if it's tidally
locked, the far side
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would face permanently
away from the star.
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And we could imagine a freezing cold
hemisphere shrouded in eternal darkness.
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For now, this is all just informed
speculation.
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But we are beginning to build a picture of
these worlds.
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I mean, imagine a world where the sun
stays at the same point in the sky forever.
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So one side of the planet is in eternal
night.
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And the other side in eternal day.
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And even the twilight strip
between day and night,
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we think, would suffer
from extreme conditions.
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So Kepler-36b just goes to show there's so
much more to having a habitable world.
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Than just the composition of the planet.
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There's the details of its orbit.
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And also the nature of
the other objects in the solar
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system that are orbiting
around the star with it.
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Kepler-36b is just one of thousands of
planets that Kepler has discovered.
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We now know, beyond
doubt, that our galaxy is
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home to a diverse
collection of alien worlds.
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Each one of the over
4,000 planets that we've
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discovered to date is
different from all the others.
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They really are an alien and exotic bunch.
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And there's certainly
no planet that's identical
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to the planets that we
know of in our solar system.
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And I think that reveals a deep truth
about the universe.
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Because although the laws of nature that
form the planets are simple and the same
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everywhere, and the fundamental
ingredients out of which the planets are
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made are simple and the same everywhere,
the nature of a planet also depends on the
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history of its formation
and the environment around
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its parent star out of
which the planet's formed.
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And those are all radically different.
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So each planet has a different story to
tell.
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I suppose in that sense, planets are like
human beings.
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And this wholly unexpected,
but exciting discovery
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certainly complicates
the search for life.
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We needed to narrow the
search for planets further,
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but not too far away
from their parent stars.
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Planets at just the right distance for
their surfaces potentially to be habitable.
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Alien worlds with one precious ingredient.
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That makes Earth a living planet.
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Now you might legitimately ask,
can we transfer all the knowledge we have
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of life here on Earth to planets elsewhere
in the universe?
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Well, I would answer emphatically,
yes, we can.
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Because the laws of nature are universal.
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00:24:03,820 --> 00:24:09,330
So the laws of physics and chemistry that
underpin biology here on this planet will
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00:24:09,331 --> 00:24:12,265
apply to every
planet out there in the
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universe, whether
we've discovered it or not.
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00:24:21,745 --> 00:24:25,260
The chemistry of life requires a few basic
ingredients.
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Carbon, nitrogen, oxygen, iron.
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00:24:30,000 --> 00:24:34,132
And it also requires a ready
supply of high quality energy
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from heat within the planets
or perhaps from starlight.
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00:24:42,060 --> 00:24:46,866
But life here on Earth also
requires one very important
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00:24:46,867 --> 00:24:50,500
fundamental extra ingredient,
which is liquid water.
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00:24:50,800 --> 00:24:54,200
Liquid water is a deceptively complicated
substance.
200
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It's a very powerful solvent.
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00:24:55,900 --> 00:25:00,800
But it also has structures which are
constantly forming and disappearing within
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00:25:00,801 --> 00:25:05,060
it which act as a kind of scaffolding
around which biology happens.
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00:25:09,860 --> 00:25:15,240
Organic molecules are orientated by that
scaffolding so they can react together.
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00:25:16,780 --> 00:25:20,860
Now, it is certain
that every living thing
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here on Earth requires
liquid water to survive.
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00:25:24,860 --> 00:25:29,620
And I would say it is a very good
assumption that every living thing
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anywhere out there in the universe will
require it too.
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The universe is filled with water.
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00:25:59,500 --> 00:26:02,895
Great reservoirs have
been detected throughout the
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galaxy, amongst the gas
clouds of giant nebulae.
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But just because water is
plentiful, that doesn't mean that
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it necessarily ends up in
oceans on planetary surfaces.
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00:26:27,160 --> 00:26:31,268
Of the eight planets in our
solar system, only one has
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00:26:31,269 --> 00:26:35,080
liquid water flowing
permanently on its surface today.
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00:26:40,200 --> 00:26:45,100
An ocean world where, long ago,
life began.
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00:27:04,600 --> 00:27:10,020
Around four billion years ago,
life on Earth would have begun probably in
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places not dissimilar to this,
where there's geothermal activity,
218
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a source of energy, in contact with rich
concentrations of reactive chemical
219
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elements and minerals, but also, crucially,
that, the magical solvent, liquid water.
220
00:27:28,700 --> 00:27:34,800
Now, many rocky planets out there,
in the galaxy, will probably have this.
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But far fewer, we
think, will have that,
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large bodies of liquid
water on the surface.
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00:27:42,680 --> 00:27:46,660
So that's why there's a kind of a
catchphrase in the astrobiology community,
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which is, if you want to search for life,
follow the water.
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Whilst life on Earth was evolving,
226
00:28:16,700 --> 00:28:23,100
124 light years away, amidst a collapsing
cloud of gas, dust and ice,
227
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a small star was born,
228
00:28:36,880 --> 00:28:42,820
and the cloud's swirling leftovers
condensed to form a brand new world.
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00:28:49,980 --> 00:28:53,494
In 2015, Kepler
found a planet orbiting
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00:28:53,506 --> 00:28:57,561
comfortably within its
star's habitable zone.
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More than eight times the mass of the
Earth, K218b is a giant.
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A powerful
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00:29:28,780 --> 00:29:30,400
gravitational pull.
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00:29:40,550 --> 00:29:43,084
If the planet is
rocky, this may have
235
00:29:43,096 --> 00:29:46,111
allowed it to hang on
to a thick atmosphere.
236
00:29:49,770 --> 00:29:53,610
K218b might have all the makings of a
water world.
237
00:29:59,410 --> 00:30:04,750
And a legendary space telescope had
Kepler's new discovery in its sights.
238
00:30:11,230 --> 00:30:15,970
The most powerful space telescope of them
all had joined the hunt.
239
00:30:22,250 --> 00:30:25,803
Hubble examined the
light from K218b's parent
240
00:30:25,804 --> 00:30:29,811
star as the planet
passed in front of it.
241
00:30:31,290 --> 00:30:38,970
And detected what may be a faint signature
of a water vapour.
242
00:30:45,090 --> 00:30:49,869
124 light years from
Earth, we may have at last
243
00:30:49,870 --> 00:30:54,091
found the evidence of
water on an alien world.
244
00:30:55,450 --> 00:31:00,970
This was the first observation of water
vapour in the atmosphere of a planet
245
00:31:00,971 --> 00:31:04,150
orbiting in the habitable zone around its
star.
246
00:31:04,730 --> 00:31:06,690
Now, admittedly,
measurement of the amount of
247
00:31:06,691 --> 00:31:08,670
water vapour in the
atmosphere is pretty wide.
248
00:31:08,790 --> 00:31:12,990
It's somewhere between 0.01% and 50%.
249
00:31:12,991 --> 00:31:15,210
I mean, this is a planet that's a long way
away.
250
00:31:15,430 --> 00:31:21,710
But for comparison, our planet has a few
percent water vapour in its atmosphere.
251
00:31:21,711 --> 00:31:25,030
So that observation is important for two
reasons.
252
00:31:25,150 --> 00:31:26,670
One is, it is not zero.
253
00:31:26,970 --> 00:31:29,370
There is water vapour in the atmosphere.
254
00:31:29,610 --> 00:31:35,310
But secondly, if the measurement is at the
lower end, a few percent of water vapour
255
00:31:35,311 --> 00:31:40,108
in the atmosphere, then
that is consistent with this
256
00:31:40,109 --> 00:31:44,590
world being a planet
with oceans on its surface.
257
00:31:50,650 --> 00:31:55,670
The nature of this planet is currently the
subject of intense scientific debate.
258
00:31:57,370 --> 00:32:03,290
The planet may be more like a
mini-Neptune, a gas planet.
259
00:32:07,640 --> 00:32:13,580
But it is possible to dream of a rocky
alien world with skies full of clouds,
260
00:32:18,030 --> 00:32:23,930
where water droplets collect and
eventually fall,
261
00:32:29,590 --> 00:32:31,270
feeding vast oceans.
262
00:32:33,830 --> 00:32:38,090
That cover the surface of a massive
planet.
263
00:32:40,870 --> 00:32:42,430
A water world.
264
00:32:51,410 --> 00:32:57,250
Where the elixir of life is in plentiful
supply.
265
00:33:05,030 --> 00:33:08,902
K218b is exciting because
it's the smallest world
266
00:33:08,903 --> 00:33:11,270
with an atmosphere that
we've been able to analyse.
267
00:33:11,271 --> 00:33:17,430
And we've found that its mass and density,
the composition of its atmosphere and its
268
00:33:17,431 --> 00:33:20,570
orbits are consistent with it being a
world with water.
269
00:33:22,490 --> 00:33:26,490
And it might be a world with oceans on its
surface.
270
00:33:26,830 --> 00:33:28,710
We don't know for sure.
271
00:33:28,950 --> 00:33:32,457
But just imagine what
that small, faraway
272
00:33:32,458 --> 00:33:36,470
world around a faint
red star might be like.
273
00:33:44,200 --> 00:33:46,650
Kepler went on to make many more
discoveries.
274
00:33:58,390 --> 00:34:04,290
Until, in October 2018, it finally ran out
of fuel.
275
00:34:11,110 --> 00:34:17,070
After nine years, it had found over 2,500
alien worlds.
276
00:34:24,370 --> 00:34:29,870
Showing us just how common potentially
Earth-like planets might be.
277
00:34:42,830 --> 00:34:49,510
We estimate that there may be around 20
billion potentially Earth-like worlds,
278
00:34:49,690 --> 00:34:52,749
that's rocky planets in the
habitable zone around the star
279
00:34:52,750 --> 00:34:57,430
that may support liquid water
on the surface in our galaxy.
280
00:34:57,650 --> 00:35:01,870
That is 20 billion potential homes for
life.
281
00:35:12,650 --> 00:35:15,754
Now, we don't know the
probability that given the
282
00:35:15,755 --> 00:35:19,150
right conditions, life
will begin on a planet.
283
00:35:19,470 --> 00:35:22,470
But we do have evidence from our world.
284
00:35:22,670 --> 00:35:27,630
What we know is that here on Earth,
life began pretty much as soon as it could
285
00:35:27,631 --> 00:35:32,230
after the Earth had formed and cooled down
and the oceans formed on its surface.
286
00:35:32,590 --> 00:35:36,890
So that might suggest that whilst there
isn't a sense of inevitability about the
287
00:35:36,891 --> 00:35:42,190
origin of life given the right conditions,
it might at least be reasonably probable.
288
00:35:42,590 --> 00:35:48,710
So I think that there is at least a chance
that life may have begun on some,
289
00:35:48,770 --> 00:35:53,470
perhaps many, of those 20 billion
Earth-like worlds out there in our galaxy.
290
00:35:55,870 --> 00:35:59,730
But I think there are two questions about
life.
291
00:36:00,190 --> 00:36:03,730
One question is about the origin and the
existence of microbes.
292
00:36:04,110 --> 00:36:09,510
But often when we speak about aliens,
what we really mean is not microbes but
293
00:36:09,511 --> 00:36:13,930
complex creatures, indeed things that we
can speak to, civilizations.
294
00:36:14,970 --> 00:36:19,550
What is the probability there will be other
civilizations out there in the Milky Way?
295
00:36:19,970 --> 00:36:22,970
Well, again, the answer is we don't know.
296
00:36:23,430 --> 00:36:28,387
But there are observations we
can make, patterns we can see in
297
00:36:28,388 --> 00:36:32,850
the Milky Way that might allow
us to make an educated guess.
298
00:37:11,040 --> 00:37:14,015
We don't know
precisely how we highly
299
00:37:14,027 --> 00:37:17,721
intelligent complex
creatures came to be here.
300
00:37:26,910 --> 00:37:31,890
But we do know for certain that life on
Earth didn't begin this way.
301
00:37:35,810 --> 00:37:38,814
We are the product of a
story that has been playing
302
00:37:38,815 --> 00:37:41,770
out for over a quarter of
the age of the Universe.
303
00:37:45,370 --> 00:37:46,650
From microbes...
304
00:37:47,790 --> 00:37:53,490
to a global technological civilization
reaching out for others.
305
00:37:55,370 --> 00:37:59,570
For now, at least, we remain surrounded by
silence.
306
00:37:59,650 --> 00:38:03,450
The messages we've sent out into the
cosmos remain unanswered.
307
00:38:03,490 --> 00:38:08,590
And the telescopes we use to scan the
skies for alien signals remain quiet.
308
00:38:09,345 --> 00:38:11,870
Now, that's not to say, of course,
that there aren't.
309
00:38:12,070 --> 00:38:13,806
But we do know that there are other
civilizations out there.
310
00:38:13,830 --> 00:38:16,870
We may have been looking for the wrong
thing in the wrong place.
311
00:38:17,370 --> 00:38:20,278
But I think the answer
to the question of
312
00:38:20,279 --> 00:38:23,130
the great silence can
be found here on Earth.
313
00:38:23,620 --> 00:38:29,430
Because here, it took four billion years
of stability for a civilization to emerge.
314
00:38:29,650 --> 00:38:31,930
That is a vast amount of time.
315
00:38:32,380 --> 00:38:36,290
And when we look to the other worlds out
there in the Milky Way, it's those two
316
00:38:36,291 --> 00:38:42,270
things, stability and time, that appear to
be very rare commodities indeed.
317
00:38:52,080 --> 00:38:57,500
In 2013, the European Space Agency
launched the Gaia Space Telescope.
318
00:39:00,700 --> 00:39:01,860
Its mission?
319
00:39:02,000 --> 00:39:04,660
To survey the stars of our galaxy.
320
00:39:04,880 --> 00:39:06,060
The Milky Way.
321
00:39:08,680 --> 00:39:11,060
Billions of stars have been mapped.
322
00:39:15,200 --> 00:39:20,000
Each star a potential host for alien
worlds.
323
00:39:24,530 --> 00:39:27,990
And patterns are already beginning to
emerge.
324
00:39:42,670 --> 00:39:44,990
Not all stars exist alone.
325
00:39:50,640 --> 00:39:52,900
Some have company.
326
00:40:01,540 --> 00:40:05,339
And bizarre as they seem,
Gaia has discovered around
327
00:40:05,340 --> 00:40:09,060
a million of these binary
or multiple star systems.
328
00:40:13,960 --> 00:40:16,470
We've known for a
long time that binary star
329
00:40:16,471 --> 00:40:19,401
systems and indeed
multiple star systems exist.
330
00:40:19,600 --> 00:40:23,400
But we didn't know precisely how common
they are.
331
00:40:25,120 --> 00:40:30,380
But now we have a huge amount of high
precision data including the Gaia data
332
00:40:30,381 --> 00:40:33,491
which tells us that
around 50% of all
333
00:40:33,503 --> 00:40:37,200
sun-like stars are in
multiple star systems.
334
00:40:37,400 --> 00:40:41,360
And for more massive stars, that number is
80%.
335
00:40:46,130 --> 00:40:50,282
So how does the prevalence
of multiple star systems in
336
00:40:50,283 --> 00:40:54,090
the galaxy shift the odds in
the hunt for another Earth?
337
00:40:56,330 --> 00:41:00,650
Could Earth-like planets exist in multiple
star systems?
338
00:41:01,490 --> 00:41:04,770
And if so, what might their fate be?
339
00:41:10,890 --> 00:41:14,250
In 2020, we may have found a clue.
340
00:41:15,470 --> 00:41:20,610
A planet the size of Mars, floating freely
through the galaxy.
341
00:41:21,970 --> 00:41:24,530
A so-called rogue world.
342
00:41:26,670 --> 00:41:30,030
But planets can't form alone in
interstellar space.
343
00:41:31,270 --> 00:41:32,890
So where did it come from?
344
00:41:58,800 --> 00:42:01,220
Ushered in not by one star.
345
00:42:16,880 --> 00:42:20,500
Perhaps the rogue world grew up in a close
binary system.
346
00:42:35,160 --> 00:42:38,060
Subject to the gravitational pull of two
stars,
347
00:42:46,040 --> 00:42:48,140
its orbit may have been unstable.
348
00:42:56,790 --> 00:43:01,090
As its parent stars fought to control its
destiny.
349
00:43:14,930 --> 00:43:18,693
Even in single star systems,
the weak gravitational
350
00:43:18,694 --> 00:43:22,310
interactions between the
planets can change their orbits.
351
00:43:22,790 --> 00:43:26,890
Now in a double star system, the planets
are not only subjected to the
352
00:43:26,891 --> 00:43:29,739
gravitational pulls of each
other, they're subjected
353
00:43:29,740 --> 00:43:32,870
to the stronger gravitational
pull of another star.
354
00:43:33,290 --> 00:43:37,046
So even if a planet gets
into a stable orbit, it's very
355
00:43:37,047 --> 00:43:40,850
likely the planet won't
stay in that orbit for long.
356
00:43:41,150 --> 00:43:47,511
So in double star systems, the line between
order and chaos is very thin indeed.
357
00:43:52,390 --> 00:43:57,910
Even subtle changes in a planet's orbit
can lead to dramatic changes in climate.
358
00:43:58,930 --> 00:44:04,970
And that's why the surface conditions on
planets in double star systems may be
359
00:44:04,971 --> 00:44:10,450
unlikely to remain stable enough for long
enough for intelligent life to evolve.
360
00:44:19,410 --> 00:44:26,050
And the changes in the orbits of planets
can, sometimes, be anything but subtle.
361
00:44:45,610 --> 00:44:53,610
A close encounter may have given the rogue
world a final gravitational kick.
362
00:45:15,720 --> 00:45:23,720
Flinging it outwards and releasing it from
the grip of its parent stars.
363
00:45:29,850 --> 00:45:31,450
Setting it loose.
364
00:45:36,990 --> 00:45:39,330
On a journey through the galaxy.
365
00:45:54,830 --> 00:45:57,190
Far from the warmth of its stars.
366
00:45:58,650 --> 00:46:02,310
Any liquid water the rogue world might
once have had
367
00:46:07,270 --> 00:46:09,030
would have frozen solid.
368
00:46:14,410 --> 00:46:17,790
Any atmosphere that once protected it
369
00:46:25,390 --> 00:46:28,750
would have frozen out onto the surface.
370
00:46:32,700 --> 00:46:35,200
The rogue would have become a world.
371
00:46:37,680 --> 00:46:42,120
With conditions that no living thing could
endure.
372
00:46:45,500 --> 00:46:50,080
An entire planet alone and adrift.
373
00:46:56,670 --> 00:47:01,490
Only to be detected by us millions of
years later.
374
00:47:03,250 --> 00:47:07,090
A small earth-like rogue planet.
375
00:47:09,130 --> 00:47:10,890
Roaming the darkness of space.
376
00:47:12,030 --> 00:47:13,110
For eternity.
377
00:47:24,420 --> 00:47:28,440
This lonely wandering planet is not a
unique world.
378
00:47:28,680 --> 00:47:32,820
Although rogue planets are very difficult
to detect, it's estimated that there may
379
00:47:32,821 --> 00:47:36,020
be over a hundred billion of them in our
galaxy.
380
00:47:36,220 --> 00:47:40,380
Rogue planets might be the most common
type of planet in the Milky Way.
381
00:47:41,700 --> 00:47:45,540
And although we think most of them were
torn away from their stars soon after
382
00:47:45,541 --> 00:47:52,320
formation, this does suggest that star
systems are not always stable places where
383
00:47:52,420 --> 00:47:55,360
complex life could evolve over billions of
years.
384
00:48:08,150 --> 00:48:12,070
Our hunt for another living planet has
only just begun.
385
00:48:15,780 --> 00:48:17,920
Yet we've already learned so much.
386
00:48:25,400 --> 00:48:28,300
We've found our first rocky worlds.
387
00:48:30,520 --> 00:48:34,340
Some in the habitable zone around their
stars.
388
00:48:42,670 --> 00:48:47,830
Some, potentially, with liquid water on
the surface.
389
00:48:49,410 --> 00:48:54,250
Candidate worlds for future missions to
search for evidence of life.
390
00:48:59,350 --> 00:49:03,770
But we've also found hordes of bizarre,
tortured worlds.
391
00:49:06,290 --> 00:49:08,410
Orbiting around violent stars.
392
00:49:09,390 --> 00:49:10,390
The
393
00:49:18,180 --> 00:49:19,940
multitude of rogue planets.
394
00:49:21,980 --> 00:49:26,560
Where complex life, as we understand it,
seems impossible.
395
00:49:35,280 --> 00:49:39,580
Perhaps it's these worlds that hint at the
reason why.
396
00:49:41,000 --> 00:49:44,420
For now, one planet stands apart.
397
00:50:04,550 --> 00:50:10,290
Our planet seems to have largely escaped
the violence, the chaos, the constant
398
00:50:10,291 --> 00:50:13,670
change that seems to characterise a galaxy
like the Milky Way.
399
00:50:13,910 --> 00:50:16,410
Yes, there's been the odd mass extinction.
400
00:50:16,810 --> 00:50:19,658
But there's been an
unbroken chain of life here
401
00:50:19,659 --> 00:50:22,670
on Earth, stretching
back four billion years.
402
00:50:22,990 --> 00:50:27,410
And if that's what you need to go from the
origin of life to a civilisation,
403
00:50:27,690 --> 00:50:31,550
then although there may be billions of
worlds out there where life began,
404
00:50:32,010 --> 00:50:34,890
there may be very few civilisations.
405
00:50:36,210 --> 00:50:38,030
But that's just an opinion.
406
00:50:38,290 --> 00:50:39,830
It's an educated guess.
407
00:50:40,090 --> 00:50:45,490
And given the profound nature of the
question, no matter how educated the
408
00:50:45,491 --> 00:50:51,350
guess, I think it would be ridiculous for
us to stop looking both inside our galaxy
409
00:50:51,950 --> 00:50:52,950
and beyond.
410
00:50:56,240 --> 00:51:03,840
For we may have just received the first
glimpse of a world beyond the Milky Way.
411
00:51:11,950 --> 00:51:16,178
Around 30 million light
years away, nestled
412
00:51:16,179 --> 00:51:19,371
in the spiral arms of
the Whirlpool Galaxy.
413
00:51:23,970 --> 00:51:26,730
A world the size of Saturn.
414
00:51:35,050 --> 00:51:38,670
A find that marks an expansion of our
horizons.
415
00:51:43,670 --> 00:51:47,990
The beginning of the hunt for extra
galactic planets.
416
00:51:51,590 --> 00:51:56,630
The potential discovery of a planet
orbiting around a star in another galaxy
417
00:51:57,190 --> 00:51:59,050
is something that I never thought I'd see.
418
00:51:59,270 --> 00:52:04,650
And it opens up the intriguing possibility
that we might be able to explore not only
419
00:52:04,651 --> 00:52:09,110
the question are we alone in our galaxy,
but are we alone in the universe?
420
00:52:13,060 --> 00:52:17,520
The answer to that question may lie far in
the future.
421
00:52:17,700 --> 00:52:19,640
We might never answer that question.
422
00:52:20,140 --> 00:52:24,000
But I said, the question are we alone is
profound.
423
00:52:24,830 --> 00:52:29,000
Because answering it would teach us much
more about what it means to be human.
424
00:52:33,430 --> 00:52:39,350
Well, I think we become a little bit more
human with every world that we explore.
425
00:52:39,610 --> 00:52:45,910
Because that ability to lay the
foundations, to explore questions to which
426
00:52:45,911 --> 00:52:50,970
we may never receive answers in our
lifetime, questions for our children or
427
00:52:50,971 --> 00:52:53,771
our grandchildren to
answer is a fundamental
428
00:52:53,783 --> 00:52:55,970
part of what it
means to be human.
429
00:52:56,110 --> 00:53:00,708
It's a fundamental part of
what makes us so special
430
00:53:00,709 --> 00:53:05,150
here on this little world
looking up at the stars.
431
00:53:05,610 --> 00:53:08,230
Whether we're alone or not.
432
00:53:25,500 --> 00:53:32,840
One, two, three, four, three, two,
engine start, one, zero and liftoff of the
433
00:53:32,841 --> 00:53:38,060
Delta II rocket with Kepler on a search
for planets in some way like our own.
434
00:53:39,880 --> 00:53:42,240
We had worked together,
thousands of people
435
00:53:42,241 --> 00:53:45,481
worked together and
it's all coming together.
436
00:53:46,380 --> 00:53:47,600
And we have separation.
437
00:53:49,640 --> 00:53:52,357
It was so emotional to
see the project they had
438
00:53:52,358 --> 00:53:55,780
worked on for so many
years or decades go to space.
439
00:53:56,200 --> 00:53:59,440
And all that hope and promise all bundled
up in the machinery.
440
00:54:07,850 --> 00:54:12,091
Kepler was an immediate
success discovering over 2,000
441
00:54:12,092 --> 00:54:15,030
new planets in its first
four years of operation.
442
00:54:20,740 --> 00:54:23,222
But in the summer of
2012 the team faced a
443
00:54:23,223 --> 00:54:26,701
challenge that threatened
the entire mission.
444
00:54:30,590 --> 00:54:33,374
One of the things that the
Kepler mission needs to operate
445
00:54:33,375 --> 00:54:35,950
are reaction wheels that
spin and hold it on target.
446
00:54:38,190 --> 00:54:41,470
So always point at the same stars and
doesn't jiggle.
447
00:54:41,990 --> 00:54:44,010
Well, we had four wheels that did that.
448
00:54:46,470 --> 00:54:49,169
And we knew that we only had
a couple of spare gyroscopes
449
00:54:49,170 --> 00:54:53,010
and we knew that spacecraft
tend to have gyros fail.
450
00:54:54,070 --> 00:54:55,070
And
451
00:54:58,270 --> 00:54:59,270
after a while it failed.
452
00:54:59,730 --> 00:55:01,930
Three months later the second one failed.
453
00:55:02,250 --> 00:55:06,770
And since we needed three, we could no
longer look at the Kepler field of view.
454
00:55:07,830 --> 00:55:14,831
I had hope that they'll figure out a way to
work with two gyros and indeed they did.
455
00:55:18,110 --> 00:55:23,170
So the very clever people, the engineers
and scientists said what we can use is
456
00:55:23,171 --> 00:55:26,110
we'll use the sunshine for the third
wheel.
457
00:55:26,310 --> 00:55:28,810
We'll make this thing reflect sunlight off
it.
458
00:55:28,850 --> 00:55:31,770
We'll use the other two wheels and now we
can point in the sky.
459
00:55:34,510 --> 00:55:38,990
The faint pressure of sunlight helped
stabilize the telescope.
460
00:55:39,930 --> 00:55:44,030
That was kind of good news actually
because it meant Kepler was going to have
461
00:55:44,031 --> 00:55:48,350
to go off the Kepler field now and we
could get all kinds of other stars and
462
00:55:48,351 --> 00:55:52,190
observe them and so that it actually was a
boon for stellar astronomy.
463
00:55:54,970 --> 00:56:02,370
After another four years of discoveries,
in total it had found over 2,600 planets,
464
00:56:02,730 --> 00:56:07,370
making it by far our most successful
planet hunter to date.
465
00:56:10,660 --> 00:56:14,140
It was sad when they sent the command to
shut everything down.
466
00:56:14,660 --> 00:56:16,160
You know, it's asleep now.
467
00:56:16,440 --> 00:56:19,580
It's in orbit around the sun and it will
continue that orbit.
468
00:56:20,420 --> 00:56:23,420
But since it launched from Earth,
it will come back to Earth.
469
00:56:23,780 --> 00:56:27,200
It'll come and visit us again in about 40
years.
470
00:56:27,620 --> 00:56:31,500
And my hope is people will say this is a
historic telescope.
471
00:56:31,740 --> 00:56:33,320
It told us about all these planets.
472
00:56:33,460 --> 00:56:37,700
And they will go up and pick up this
telescope and bring it back to Earth and
473
00:56:37,701 --> 00:56:40,980
put it in the Air and Space Museum for us
all to admire.
43417
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