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You may know that it takes light
a zippy eight minutes
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to reach us from the surface of the Sun,
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so how long do you think it takes light
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to travel from the Sun's core
to its surface?
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A few seconds or a minute at most?
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Well, oddly enough, the answer
is many thousands of years.
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Here's why.
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Photons are produced by the nuclear
reactions deep in the core of our Sun.
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As the photons flow out of the core,
they interact with matter and lose energy,
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becoming longer wavelength forms of light.
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They start out as gamma rays in the core,
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but end up as x-rays, ultraviolet
or visible light as they near the surface.
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However, that journey
is neither simple nor direct.
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Upon being born, each photon travels at
a speed of 300,000 kilometers per second
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until it collides with a proton
and is diverted in another direction,
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acting like a bullet ricocheting off
of every charged particle it strikes.
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The question of how far this photon gets
from the center of the Sun
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after each collision
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is known as the random walk problem.
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The answer is given by this formula:
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distance equals step size times the square
root of the number of steps.
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So if you were taking a random walk
from your front door
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with a one meter stride each second,
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it would take you a million steps
and eleven days
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just to travel one kilometer.
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So then how long does it take for a photon
generated in the center of the sun
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to reach you?
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We know the mass of the Sun
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and can use that to calculate the number
of protons within it.
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Let's assume for a second that all
the Sun's protons are evenly spread out,
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making the average distance between them
about 1.0 x 10^-10 meters.
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To random walk the 690,000 kilometers
from the core to the solar surface
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would then require 3.9 x 10^37 steps,
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giving a total travel time
of 400 billion years.
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Hmm, that can't be right.
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The Sun is only 4.6 billion years old,
so what went wrong?
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Two things:
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The Sun isn't actually of uniform density
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and photons will miss quite a few protons
between every collision.
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In actuality, a photon's energy,
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which changes over
the course of its journey,
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determines how likely it is
to interact with a proton.
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On the density question,
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our models show that the Sun
has a hot core,
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where the fusion reactions occur.
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Surrounding that is the radiative zone,
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followed by the convective zone,
which extends all the way to the surface.
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The material in the core
is much denser than lead,
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while the hot plasma near the surface
is a million times less dense
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with a continuum of densities in between.
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And here's the photon-energy relationship.
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For a photon that carries
a small amount of energy,
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a proton is effectively huge,
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and it's much more likely to cause
the photon to ricochet.
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And for a high-energy photon,
the opposite is true.
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Protons are effectively tiny.
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Photons start off at very high energies
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compared to when they're finally radiated
from the Sun's surface.
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Now when we use a computer
and a sophisticated solar interior model
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to calculate the random walk equation
with these changing quantities,
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it spits out the following number:
170,000 years.
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Future discoveries about the Sun
may refine this number further,
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but for now,
to the best of our understanding,
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the light that's hitting your eyes today
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spent 170,000 years pinballing its way
towards the Sun's surface,
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plus eight miniscule minutes in space.
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In other words, that photon
began its journey two ice ages ago,
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around the same time when humans
first started wearing clothes.
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