How big is a mole? (Not the animal, the other one.) - Daniel Dulek
2,423,348 views ・ 2012-09-11
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OK, today we're going
to talk about the mole.
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Now, I know what you're thinking:
"I know what a mole is,
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it's a small furry creature that digs holes
in the ground and destroys gardens."
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And some of you might be thinking that it's a growth
on your aunt's face with hairs sticking out of it.
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Well, in this case, a mole is a concept
that we use in chemistry to count molecules,
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atoms, just about anything
extremely small.
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Have you ever wondered how many atoms
there are in the universe?
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Or in your body? Or
even in a grain of sand?
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Scientists have wanted
to answer that question,
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but how do you count something
as small as an atom?
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Well, in 1811, someone had an idea
that if you had equal volumes
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of gases, at the same
temperature and pressure,
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they would contain an equal
number of particles.
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His name was Lorenzo Romano
Amedeo Carlo Avogadro.
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I wonder how long it took
him to sign autographs.
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Unfortunately for Avogadro, most scientists
didn't accept the idea of the atom,
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and there was no way
to prove he was right.
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There was no clear difference
between atoms and molecules.
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Most scientists looked at Avogadro's work
as purely hypothetical,
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and didn't give it much thought.
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But it turned out he was right!
By late 1860,
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Avogadro was proven correct,
and his work helped lay the foundation
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for the atomic theory. Unfortunately,
Avogadro died in 1856.
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Now the thing is that the amount
of particles in even small samples
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is tremendous. For example,
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If you have a balloon of any gas
at zero degrees Celcius,
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and at a pressure of one atmosphere,
then you have precisely
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six hundred and two sextillion
gas particles.
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That is, you have six with 23 zeros
after it particles of gas in the container.
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Or in scientific notation, 6.02
times 10 to the 23rd particles.
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This example is a little misleading,
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because gases take up a lot of space
due to the high kinetic energy
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of the gas particles, and it leaves you
thinking atoms are bigger than they really are.
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Instead, think of water molecules.
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If you pour 18.01 grams
of water into a glass,
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which is 18.01 milliliters,
which is like three and a half teaspoons of water,
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you'll have 602 sextillion
molecules of water.
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Since Lorenzo Romano - uh, never mind - Avogadro
was the first one to come up with this idea,
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scientists named the number 6.02
times 10 to the 23rd after him.
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It is simply known as Avogadros's number.
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Now, back to the mole. Not that mole.
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This mole. Yep, this
number has a second name.
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The mole. Chemists use the term mole
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to refer to the quantities
that are at the magnitude of 602 sextillion.
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This is known as a molar quantity.
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Atoms and molecules are so small, that chemists
have bundled them into groups called moles.
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Moles are hard for students to understand
because they have a hard time
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picturing the size of a mole,
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or of 602 sextillion.
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It's just too big to wrap
our brains around.
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Remember our 18.01 milliliters of water?
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Well, that's a mole of water.
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But how much is that?
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Exactly what does 602
sextillion look like?
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Maybe this'll help.
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Exchange the water particles for donuts.
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If you had a mole of donuts,
they would cover the entire earth
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to a depth of eight kilometers,
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which is about five miles.
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You really need a lot of coffee for that.
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If you had a mole of basketballs,
you could create a new planet
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the size of the earth.
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If you received a mole of pennies on the day
you were born and spent a million dollars
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a second until the day you died at the age
of 100, you would still have more than 99.99%
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of your money in the bank.
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OK. Now we sort of have an idea
how large the mole is.
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So how do we use it?
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You might be surprised to know
that chemists use it the same way
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you use pounds to buy
grapes, deli meat, or eggs.
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When you go to the grocery store,
you don't go to the deli counter
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and ask for 43 slices of salami,
you buy your salami by the pound.
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When you buy your eggs,
you buy a dozen eggs.
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When we hear the word dozen,
we probably think of the number 12.
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We also know that a pair is two,
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a baker's dozen is 13,
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a gross is 144, and a ream
of paper is - anybody?
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A ream is 500.
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Well, a mole is really the same thing.
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For a chemist, a mole conjures
up the number 6.02 times 10 to the 23rd,
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not a fuzzy little animal.
The only difference is
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that the other quantities
are more familiar to us.
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So there you have it -
the story of the mole,
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Avogadro, basketballs, and how to buy
salami at the grocery store.
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