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We know about our universe’s past:
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the Big Bang theory predicts that all
matter, time, and space
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began in an incredibly tiny, compact
state about 14 billion years ago.
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And we know about the present:
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scientists’ observations of the movement
of galaxies
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tell us that the universe is expanding
at an accelerated rate.
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But what about the future?
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Do we know how our universe
is going to end?
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Cosmologists have three
possible answers for this question,
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called the Big Freeze,
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the Big Rip and the Big Crunch.
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To understand these three scenarios,
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imagine two objects representing galaxies.
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A short, tight rubber band is
holding them together—
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that’s the attractive force of gravity.
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Meanwhile, two hooks are
pulling them apart—
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that’s the repulsive force
expanding the universe.
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Copy this system over and over again,
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and you have something
approximating the real universe.
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The outcome of the battle between
these two opposing forces
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determines how the end of the
universe will play out.
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The Big Freeze scenario is what happens
if the force pulling the objects apart
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is just strong enough to stretch the
rubber band until it loses its elasticity.
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The expansion wouldn’t be able to
accelerate anymore,
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but the universe would keep
getting bigger.
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Clusters of galaxies would separate.
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The objects within the galaxies–
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suns, planets, and solar systems
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would move away from each other,
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until galaxies dissolved into
lonely objects
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floating separately in the vast space.
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The light they emit would be redshifted
to long wavelengths
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with very low, faint energies,
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and the gas emanating from them
would be too thin to create new stars.
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The universe would become
darker and colder,
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approaching a frozen state
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also known as the Big Chill,
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or the Heat Death of the Universe.
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But what if the repulsive force
is so strong
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that it stretches the rubber band
past its elastic limit,
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and actually tears it?
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If the expansion of the universe
continues to accelerate,
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it will eventually overcome not only
the gravitational force –
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tearing apart galaxies and solar systems–
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but also the electromagnetic, weak,
and strong nuclear forces
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which hold atoms and nuclei together.
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As a result,
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the matter that makes up stars
breaks into tiny pieces.
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Even atoms and subatomic particles
will be destroyed.
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That’s the Big Rip.
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What about the third scenario,
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where the rubber band wins out?
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That corresponds to a possible future
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in which the force of gravity brings the
universe’s expansion to a halt—
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and then reverses it.
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Galaxies would start rushing
towards each other,
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and as they clumped together
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their gravitational pull would
get even stronger.
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Stars too would hurtle
together and collide.
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Temperatures would rise as space
would get tighter and tighter.
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The size of the universe would plummet
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until everything compressed into such
a small space
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that even atoms and subatomic particles
would have to crunch together.
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The result would be an incredibly dense,
hot, compact universe —
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a lot like the state that
preceded the Big Bang.
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This is the Big Crunch.
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Could this tiny point of matter explode
in another Big Bang?
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Could the universe expand and contract
over and over again,
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repeating its entire history?
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The theory describing such a universe
is known as the Big Bounce.
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In fact, there’s no way to tell how many
bounces could’ve already happened—
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or how many might happen in the future.
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Each bounce would wipe away any record
of the universe’s previous history.
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Which one of those scenarios
will be the real one?
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The answer depends on the exact shape
of the universe,
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the amount of dark energy it holds,
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and changes in its expansion rate.
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As of now, our observations suggest
that we’re heading for a Big Freeze.
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But the good news is that we’ve probably
got about 10 to the 100th power years
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before the chill sets in —
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so don’t start stocking up
on mittens just yet.
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