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At about six o'clock in the morning
on September 14, 2015,
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scientists witnessed something
no human had ever seen:
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two black holes colliding.
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Both about 30 times as massive
as our Sun,
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they had been orbiting each other
for millions of years.
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As they got closer together,
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they circled each other faster and faster.
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Finally, they collided and merged
into a single, even bigger, black hole.
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A fraction of a second before their crash,
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they sent a vibration across the universe
at the speed of light.
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And on Earth, billions of years later,
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a detector called the Laser Interferometer
Gravitational Wave Observatory,
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or LIGO for short,
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picked it up.
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The signal only lasted a fifth of a second
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and was the detector's first observation
of gravitational waves.
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What are these ripples in space?
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The answer starts with gravity,
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the force that pulls any
two objects together.
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That's the case for everything
In the observable universe.
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You're pulling on the Earth,
the Moon, the Sun, and every single star,
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and they're pulling on you.
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The more mass something has,
the stronger its gravitational pull.
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The farther away the object,
the lower its pull.
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If every mass has an effect
on every other mass in the universe,
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no matter how small,
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then changes in gravity can tell us
about what those objects are doing.
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Fluctuations in the gravity
coming from the universe
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are called gravitational waves.
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Gravitational waves move out from
what caused them,
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like ripples on a pond,
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getting smaller as they travel farther
from their center.
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But what are they ripples on?
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When Einstein devised
his Theory of Relativity,
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he imagined gravity as a curve
in a surface called space-time.
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A mass in space creates a depression
in space-time,
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and a ball rolling across a depression
will curve
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like it's being attracted
to the other mass.
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The bigger the mass,
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the deeper the depression
and the stronger the gravity.
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When the mass making the depression moves,
that sends out ripples in space-time.
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These are gravitationl waves.
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What would a gravitational wave feel like?
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If our bodies were sensitive enough
to detect them,
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we'd feel like we were
being stretched sideways
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while being compressed vertically.
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And in the next instant,
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stretched up and down
while being compressed horizontally,
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sideways,
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then up and down.
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This back and forth would happen
over and over
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as the gravitational wave
passed right through you.
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But this happens on such a minute scale
that we can't feel any of it.
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So we've built detectors
that can feel it for us.
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That's what the LIGO detectors do.
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And they're not the only ones.
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There are gravitational wave detectors
spread across the world.
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These L-shaped instruments have long arms,
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whose exact length
is measured with lasers.
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If the length changes, it could be because
gravitational waves are stretching
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and compressing the arms.
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Once the detectors feel
a gravitational wave,
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scientists can extract information
about the wave's source.
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In a way, detectors like LIGO are
big gravitational wave radios.
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Radio waves are traveling all around you,
but you can't feel them
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or hear the music they carry.
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It takes the right kind of
detector to extract the music.
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LIGO detects a gravitational wave signal,
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which scientists then study for data
about the object that generated it.
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They can derive information,
like its mass and the shape of its orbit.
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We can also hear gravitational waves
by playing their signals through speakers,
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just like the music a radio extracts
from radio waves.
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So those two black holes colliding
sounds like this.
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Scientists call this
slide whistle-like noise a chirp,
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and it's the signature of any two
objects orbiting into each other.
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The black hole collision
was just one example
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of what gravitational waves can tell us.
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Other high-energy astronomical events
will leave gravitational echoes, too.
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The collapse of a star before it
explodes in a supernova,
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or a very dense neutron stars colliding.
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Every time we create a new tool
to look at space,
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we discover something we didn't expect,
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something that might revolutionize
our understanding of the universe.
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LIGO's no different.
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In the short time it's been on,
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LIGO's already revealed surprises,
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like that black holes collide
more often than we ever expected.
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It's impossible to say,
but exciting to imagine,
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what revelations may now be propagating
across space
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towards our tiny blue planet and
its new way of perceiving the universe.
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