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The finish line's in sight
and you put on an extra burst of speed.
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As your legs pick up the pace,
your breathing gets deeper,
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your heart pounds faster,
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and sweat pours over your skin.
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How does this substance
suddenly materialize
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and what exactly is its purpose?
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There are a number of scenarios
that can make us sweat:
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eating spicy foods,
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nervousness,
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and when we're sick.
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But exercise is probably the most familiar
and common.
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In that case, sweating happens
as a response to movement
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triggered deep inside your cells.
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As you increase your pace,
your muscles work harder,
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increasing their demand for energy.
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A process called cellular respiration
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consumes glucose
and oxygen to form ATP,
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the energy currency of the cell.
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Much of this process takes place
in structures called mitochondria.
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The more you move,
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the harder mitochondria work
to supply your body with energy.
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All this work comes at a cost, though.
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As the cells break down the ATP,
they release heat.
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The heat stimulates temperature sensors
throughout your body.
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Those receptors detect the excess heat
being produced by your muscle cells
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and communicate that information
to the hypothalamus,
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which regulates body temperature.
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The hypothalamus responds
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by sending signals out through
the sympathetic nervous system
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to the sweat glands in your skin.
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These are distributed all over the body
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with especially high concentrations
on the palms of your hands,
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the soles of your feet,
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and on your head.
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When a sweat gland first receives
the signal,
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the fluid surrounding the cells
in its coiled base
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contains high amounts
of sodium and chloride.
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The cells pump these ions
into a hollow tube
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that runs through the sweat gland.
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Then, because it's saltier inside
the tube than outside,
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water moves into the tube by osmosis.
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As what's called the primary secretion
builds up in the bottom of the tube,
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water pressure pushes it up
into the long straight part of the duct.
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Before it seeps onto the skin,
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cells lining the tube will reclaim
as much salt as possible
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so the process can continue.
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The water in sweat absorbs
your body's heat energy
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and then evaporates off of you
when it reaches the surface,
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which in turn lowers your temperature.
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This process,
known as evaporative cooling,
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was an important adaptation
for our ancestors.
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This cooling effect isn't only helpful
during exercise.
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We sweat in many other scenarios, too.
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Eating particularly spicy food makes some
people sweat profusely from their faces.
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That happens because spices trigger
the same neural response in the brain
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that activates temperature receptors,
which usually respond to increased heat.
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Sweating is also part of
the fight or flight response
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stimulated by stressful scenarios,
like asking someone on a date
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or interviewing for a job.
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This happens because adrenaline
stimulates muscle activity
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and causes blood vessels to widen,
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two responses that increase heat
and trigger the sweating response.
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And sweating also occurs
when we get sick.
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When we're feverish,
we sweat because infections
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stimulate the hypothalamus
to increase muscle activity,
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which in turn releases
more energy as heat.
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That increases your overall temperature,
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a protective mechanism that makes your
body less habitable for infectious agents.
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Like with running, sweating helps
your body vent that heat.
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When the fever's over
or you've won your race,
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your temperature receptors
sense the decrease in heat
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and the hypothalamus brings
your sweating response to an end.
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In some cases, like after a run,
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the hypothalamus also signals
to your body
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that you need to replenish the water
that you've oozed out.
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So, when you're pushing yourself
to reach that next goal,
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you can think of sweat as your body's
very own calibrator,
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enabling you to go that extra mile.
closed TED
