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In the 16th century, the mathematician
Robert Recorde
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wrote a book called
The Whetstone of Witte
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to teach English students algebra.
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But he was getting tired of writing
the words "is equal to" over and over.
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His solution?
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He replaced those words with
two parallel horizontal line segments,
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because the way he saw it,
no two things could be more equal.
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Could he have used four line segments
instead of two?
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Of course.
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Could he have used vertical line segments?
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In fact, some people did.
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There's no reason why the equals sign
had to look the way it does today.
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At some point, it just caught on,
sort of like a meme.
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More and more mathematicians
began to use it,
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and eventually,
it became a standard symbol for equality.
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Math is full of symbols.
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Lines,
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dots,
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arrows,
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English letters,
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Greek letters,
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superscripts,
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subscripts.
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It can look like an illegible jumble.
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It's normal to find this wealth
of symbols a little intimidating
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and to wonder where they all came from.
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Sometimes, as Recorde himself
noted about his equals sign,
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there's an apt conformity
between the symbol and what it represents.
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Another example of that
is the plus sign for addition,
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which originated from a condensing
of the Latin word et meaning and.
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Sometimes, however, the choice symbol
is more arbitrary,
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such as when a mathematician
named Christian Kramp
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introduced the exclamation mark
for factorials
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just because he needed a shorthand
for expressions like this.
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In fact, all of these symbols
were invented or adopted
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by mathematicians who wanted
to avoid repeating themselves
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or having to use a lot of words
to write out mathematical ideas.
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Many of the symbols used
in mathematics are letters,
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usually from the Latin alphabet
or Greek.
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Characters are often found
representing quantities that are unknown,
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and the relationships between variables.
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They also stand in for specific numbers
that show up frequently
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but would be cumbersome or impossible
to fully write out in decimal form.
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Sets of numbers and whole equations
can be represented with letters, too.
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Other symbols are used
to represent operations.
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Some of these are especially valuable
as shorthand
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because they condense repeated operations
into a single expression.
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The repeated addition of the same number
is abbreviated with a multiplication sign
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so it doesn't take up more space
than it has to.
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A number multiplied by itself
is indicated with an exponent
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that tells you how many times
to repeat the operation.
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And a long string of sequential terms
added together
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is collapsed into a capital sigma.
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These symbols shorten
lengthy calculations to smaller terms
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that are much easier to manipulate.
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Symbols can also provide
succint instructions
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about how to perform calculations.
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Consider the following set
of operations on a number.
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Take some number that you're thinking of,
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multiply it by two,
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subtract one from the result,
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multiply the result of that by itself,
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divide the result of that by three,
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and then add one to get the final output.
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Without our symbols and conventions,
we'd be faced with this block of text.
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With them, we have a compact,
elegant expression.
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Sometimes, as with equals,
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these symbols communicate meaning
through form.
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Many, however, are arbitrary.
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Understanding them is a matter
of memorizing what they mean
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and applying them in different contexts
until they stick, as with any language.
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If we were to encounter
an alien civilization,
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they'd probably have a totally
different set of symbols.
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But if they think anything like us,
they'd probably have symbols.
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And their symbols may even correspond
directly to ours.
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They'd have their own multiplication sign,
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symbol for pi,
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and, of course, equals.
closed TED
