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Aristotle famously said,
"Nature fears of empty space"
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when he claimed that a true vacuum,
a space devoid of matter, could not exist
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because the surrounding matter
would immediately fill it.
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Fortunately, he turned out to be wrong.
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A vacuum is a key component
of the barometer,
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an instrument for measuring air pressure.
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And because air pressure
correlates to temperature
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and rapid shifts in it can contribute to
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hurricanes, tornadoes
and other extreme weather events,
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a barometer is one of the
most essential tools
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for weather forecasters and scientists alike.
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How does a barometer work
and how was it invented?
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Well, it took awhile.
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Because the theory of Aristotle
and other ancient philosophers
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regarding the impossibility of a vacuum
seemed to hold true in every day life,
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few seriously thought to question it
for nearly 2,000 years.
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Until necessity raised the issue.
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In the early 17th century,
Italian miners faced a serious problem
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when they found that their pumps
could not raise water
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more than 10.3 meters high.
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Some scientists at the time,
including one Galileo Galilei,
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proposed that sucking air out of the pipe
was what made water rise to replace the void.
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But that its force was limited and could lift
no more than 10.3 meters of water.
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However, the idea of a
vacuum existing at all
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was still considered controversial.
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And the excitement over
Galileo's unorthodox theory,
-
led Gasparo Berti to conduct a simple,
but brilliant experiment
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to demonstrate that it was possible.
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A long tube was filled with water
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and placed standing in a shallow pool
with both ends plugged.
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The bottom end of the tube
was then opened
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and water poured out into the basin
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until the level of water remaining
in the tube was 10.3 meters.
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With a gap remaining at the top,
and no air having entered the tube,
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Berti had succeeded in
directly creating a stable vacuum.
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But even though the possibility
of a vaccuum had been demonstrated,
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not everyone was satisfied
with Galileo's idea
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that this empty void
was exerting some mysterious,
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yet finite force on the water.
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Evangelista Torricelli,
Galileo's young pupil and friend,
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decided to look at the problem
from a different angle.
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Instead of focusing on the
empty space inside the tube,
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he asked himself,
"What else could be influencing the water?"
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Because the only thing in contact
with the water was the air surrounding the pool,
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he believed the pressure from this air
could be the only thing preventing
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the water level in the tube
from dropping further.
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He realized that the experiment
was not only a tool to create a vacuum,
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but operated as a balance
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between the atmospheric pressure
on the water outside the tube
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and the pressure from the
water column inside the tube.
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The water level in the tube decreases
until the two pressures are equal,
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which just happens to be
when the water is at 10.3 meters.
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This idea was no easily accepted
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As Galileo and others
had traditionally thought
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that atmospheric air has no weight
and it exerts no pressure.
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Torricelli decided to
repeat Berti's experiment
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with mercury instead of water.
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Because mercury was denser,
it fell farther than the water
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and the mercury column stood
only about 76 centimeters tall.
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Not only did this allow Torricelli to make
the instrument much more compact,
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it supported his idea that weight
was the deciding factor.
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A variation on the experiment used two tubes
with one having a large bubble at the top.
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If Galileo's interpretation had been correct,
the bigger vacuum in the second tube
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should have exerted more suction
and lifted the mercury higher.
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But the level in both tubes was the same.
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The ultimate support for Torricelli's theory
came via Blaise Pascal
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Who had such a mercury tube
taken up a mountain
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and showed that the mercury level dropped
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as the atmospheric pressure
decreased with altitude.
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Mercury barometers based on
Torricelli's original model
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remained one of the most common ways
to measure atmospheric pressure until 2007
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when restrictions on the use of
mercury due to its toxicity
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led to them no longer
being produced in Europe.
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Nevertheless, Torricelli's invention,
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born of the willingness to question
long accepted dogmas
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about vacuums and the weight of air,
is an outstanding example
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of how thinking outside of the box
-- or the tube --
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can have a heavy impact.
closed TED
