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In 1895, a physicist named
Wilhelm Roentgen
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was doing experiments
with a cathode tube,
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a glass container in which a beam of
electrons lights up a fluorescent window.
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He had wrapped cardboard around the tube
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to keep the fluorescent
light from escaping,
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when something peculiar happened.
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Another screen outside the tube
was glowing.
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In other words, invisible rays
had passed through the cardboard.
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Wilhelm had no idea what those rays were,
so he called them X-rays,
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and his discovery eventually won him
a Nobel Prize.
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Here's what we now know was happening.
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When high energy electrons
in the cathode tube
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hit a metal component,
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they either got slowed down
and released extra energy,
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or kicked off electrons
from the atoms they hit,
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which triggered a reshuffling
that again released energy.
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In both cases, the energy was emitted
in the form of X-rays,
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which is a type
of electromagnetic radiation
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with higher energy than visible light,
and lower energy than Gamma rays.
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X-rays are powerful enough
to fly through many kinds of matter
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as if they are semi-transparent,
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and they're particularly useful
for medical applications
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because they can make images of organs,
like bones, without harming them,
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although they do have a small chance
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of causing mutations
in reproductive organs,
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and tissues like the thyroid,
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which is why lead aprons are often
used to block them.
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When X-rays interact with matter,
they collide with electrons.
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Sometimes, the X-ray transfers all of its
energy to the matter and gets absorbed.
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Other times, it only transfers
some of its energy,
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and the rest is scattered.
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The frequency of these outcomes
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depends on how many electrons
the X-rays are likely to hit.
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Collisions are more likely
if a material is dense,
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or if it's made of elements
with higher atomic numbers,
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which means more electrons.
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Bones are dense and full of calcium,
which has a relatively high atomic number,
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so they absorb X-rays pretty well.
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Soft tissue, on the other hand,
isn't as dense,
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and contains mostly lower
atomic number elements,
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like carbon, hydrogen, and oxygen.
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So more of the X-rays penetrate tissues
like lungs and muscles,
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darkening the film.
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These 2-D pictures are only useful
up to a point, though.
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When X-rays travel through the body,
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they can interact with many atoms
along the path.
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What is recorded on the film reflects
the sum of all those interactions.
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It's like trying to print 100 pages
of a novel on a single sheet of paper.
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To see what's really going on,
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you would have to take X-ray views
from many angles around the body
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and use them to construct
an internal image.
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And that's something
doctors do all the time
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in a procedure called a CT,
Computed Tomography scan,
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another Nobel Prize winning invention.
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Think of CT like this.
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With just one X-ray,
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you might be able to see the density
change due to a solid tumor in a patient,
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but you wouldn't know how deep
it is beneath the surface.
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However, if you take X-rays
from multiple angles,
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you should be able to find
the tumor's position and shape.
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A CT scanner works by sending
a fan or cone of X-rays through a patient
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to an array of detectors.
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The X-ray beam is rotated
around the patient,
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and often also moved down
the patient's body,
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with the X-ray source tracing
a spiral trajectory.
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Spiral CT scans produce data
that can be processed into cross sections
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detailed enough to spot
anatomical features, tumors,
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blood clots, and infections.
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CT scans can even detect
heart disease and cavities
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in mummies buried thousands of years ago.
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So what began as Roentgen's happy accident
has become a medical marvel.
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Hospitals and clinics now conduct over
100 millions scans each year worldwide
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to treat diseases and save lives.
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