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Where does all this stuff come from?
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This rock?
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That cow?
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Your heart?
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Not the things themselves, mind you,
but what they're made of:
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the atoms that are
the fabric of all things.
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To answer that question, we look to
the law of conservation of mass.
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This law says take an isolated system
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defined by a boundary that matter
and energy cannot cross.
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Inside this system, mass,
a.k.a. matter and energy,
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can neither be created nor destroyed.
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The universe, to the best
of our knowledge,
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is an isolated system.
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But before we get to that, let's look
at a much smaller and simpler one.
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Here we have six carbon atoms,
12 hydrogen atoms,
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and 18 oxygen atoms.
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With a little energy,
our molecules can really get moving.
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These atoms can bond together
to form familiar molecules.
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Here's water,
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and here's carbon dioxide.
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We can't create or destroy mass.
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We're stuck with what we've got,
so what can we do?
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Ah, they have a mind of their own.
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Let's see. They've formed more
carbon dioxide and water, six of each.
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Add a little energy, and we can get them
to reshuffle themselves to a simple sugar,
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and some oxygen gas.
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Our atoms are all accounted for:
6 carbon, 12 hydrogen, and 18 oxygen.
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The energy we applied is now stored
in the bonds between atoms.
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We can rerelease that energy
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by breaking that sugar back
into water and carbon dioxide,
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and still, same atoms.
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Let's put a few of our atoms aside
and try something a little more explosive.
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This here is methane, most commonly
associated with cow flatulence,
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but also used for rocket fuel.
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If we add some oxygen
and a little bit of energy,
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like you might get from a lit match,
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it combusts into carbon dioxide,
water and even more energy.
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Notice our methane started
with four hydrogen,
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and at the end we still have four hydrogen
captured in two water molecules.
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For a grand finale, here's propane,
another combustible gas.
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We add oxygen, light it up,
and boom.
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More water and carbon dioxide.
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This time we get three CO2s
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because the propane molecule
started with three carbon atoms,
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and they have nowhere else to go.
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There are many other reactions
we can model with this small set of atoms,
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and the law of conservation of mass
always holds true.
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Whatever matter and energy
go into a chemical reaction
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are present and accounted
for when it's complete.
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So if mass can't be created or destroyed,
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where did these atoms
come from in the first place?
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Let's turn back the clock and see.
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Further, further, further, too far.
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Okay, there it is.
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The Big Bang.
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Our hydrogen formed from
a high-energy soup of particles
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in the three minutes that followed
the birth of our universe.
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Eventually, clusters of atoms accumulated
and formed stars.
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Within these stars, nuclear reactions
fused light elements,
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such as hydrogen and helium,
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to form heavier elements,
such as carbon and oxygen.
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At first glance, these reactions
may look like they're breaking the law
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because they release
an astounding amount of energy,
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seemingly out of nowhere.
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However, thanks to
Einstein's famous equation,
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we know that energy is equivalent to mass.
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It turns out that the total mass
of the starting atoms
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is very slightly more
than the mass of the products,
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and that loss of mass perfectly
corresponds to the gain in energy,
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which radiates out from the star as light,
heat and energetic particles.
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Eventually, this star went supernova
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and scattered its elements across space.
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Long story short, they found each other
and atoms from other supernovas,
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formed the Earth,
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and 4.6 billion years later
got scooped up to play their parts
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in our little isolated system.
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But they're not nearly as interesting as
the atoms that came together to form you,
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or that cow,
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or this rock.
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And that is why,
as Carl Sagan famously told us,
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we are all made of star stuff.
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