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Where do math symbols come from? - John David Walters

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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 can 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 of 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.
Title:
Where do math symbols come from? - John David Walters
Description:

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Math is full of symbols: lines, dots, arrows, English letters, Greek letters, superscripts, subscripts ... it can look like an illegible jumble. Where did all of these symbols come from? John David Walters shares the origins of mathematical symbols, and illuminates why they’re still so important in the field today.

Lesson by John David Walters, directed by Chris Bishop.

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Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
04:30

English subtitles

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