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If molecules were people... - George Zaidan and Charles Morton

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    Say two people are walking down the street
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    and they bump into each other.
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    They'll just shake it off and walk on.
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    Sometimes that happens with molecules too.
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    They just bounce off each other and that's that.
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    But what if two people were to bump into each other,
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    and during that collision,
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    one person's arm got severed
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    and reattached to the other person's face?
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    Now that sounds really weird,
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    but it's similar to one of the many ways
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    that molecules can react with each other.
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    Two molecules can join and become one.
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    One can split apart and become two.
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    Molecules can switch parts.
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    All these changes are chemical reactions,
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    and we can see them happening around us.
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    For example, when fireworks explode,
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    or iron rusts,
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    or milk goes bad,
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    or people are born,
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    grow old,
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    die,
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    and then decompose.
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    But chemical reactions don't just happen willy nilly!
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    Everything has to be right.
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    First, the molecules have to hit each other
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    in the right orientation.
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    And second, they have to hit each other hard enough,
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    in other words, with enough energy.
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    Now you're probably thinking
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    that a reaction just happens in one direction and that's it.
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    Sometimes that's true.
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    For example, things can't unburn
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    or unexplode.
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    But most reactions can happen in both directions,
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    forward and reverse.
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    There's no reason that our face-arm guy
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    can't bump into armless girl,
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    reattaching that arm back to its original socket.
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    Now let's zoom out a bit.
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    Now let's say that you've got
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    a thousand people on the street,
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    and all of them start with their limbs
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    normally attached.
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    At the beginning, every collision is a chance
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    for Person A to transfer an arm to Person B's face.
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    And so at the beginning,
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    more and more people end up
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    with arms attached to their faces or arms missing.
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    But as the number of people with arm-faces
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    and missing arms grows,
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    collisions between those people become more likely.
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    And when they bump into each other,
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    guess what?
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    Normal-appendage people are reproduced.
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    Now the number of limb transfers per second forward
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    will start high and then fall,
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    and the number of limb transfers per second backward
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    will start at zero and then rise.
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    Eventually they'll meet,
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    they'll be the same.
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    And when that happens,
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    the number of people in each state stops changing,
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    even though people are still bumping into each other
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    and exchanging limbs.
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    Now how many people do you think
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    there are in each state?
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    Half and half, right?
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    No, well, maybe.
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    It depends.
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    It could be 50/50,
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    but it could be 60/40
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    or 15/85,
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    or anything.
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    We chemists have to get our little, gloved hands dirty
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    - ah, well, we're in a lab so not really dirty -
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    to figure out what the actually distribution
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    of molecules is.
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    Even though each of limb transfers
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    is a pretty dramatic event for the people involved,
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    if we zoom out,
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    we see population numbers that don't change.
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    We can this nirvana equilibrium,
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    and it doesn't just happen with chemical reactions.
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    Things like gene pools
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    and highway traffic show the same pattern.
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    It looks pretty still from 30,000 feet,
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    but there is lots of crazy stuff
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    happening on the ground,
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    you just need to zoom in to see it.
Title:
If molecules were people... - George Zaidan and Charles Morton
Description:

View full lesson: http://ed.ted.com/lessons/chemical-reactions-zaidan-and-morton

When molecules collide, chemical reactions can occur -- causing major structural changes akin to getting a new arm on your face! George Zaidan and Charles Morton playfully imagine chemical systems as busy city streets, and the colliding molecules within them as your average, limb-swapping joes.

Lesson by George Zaidan and Charles Morton, animation by Neighbor.
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Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
03:25

English subtitles

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