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What's the difference between accuracy and precision? - Matt Anticole

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    As the story goes,
    the legendary marksman William Tell
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    was forced into a cruel challenge
    by a corrupt lord.
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    William's son was to be executed
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    unless William could shoot
    an apple off his head.
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    William succeeded, but let's imagine
    two variations on the tale.
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    In the first variation,
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    the lord hires a bandit to steal
    William's trusty crossbow,
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    so he is forced to borrow
    an inferior one from a peasant.
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    However, the borrowed crossbow
    isn't adjusted perfectly,
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    and William finds that his practice shots
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    cluster in a tight spread
    beneath the bullseye.
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    Fortunately, he has time
    to correct for it before it's too late.
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    Variation two:
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    William begins to doubt his skills
    in the long hours before the challenge
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    and his hand develops a tremor.
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    His practice shots still cluster
    around the apple
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    but in a random pattern.
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    Occasionally, he hits the apple,
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    but with the wobble,
    there is no guarantee of a bullseye.
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    He must settle his nervous hand
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    and restore the certainty in his aim
    to save his son.
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    At the heart of these variations
    are two terms often used interchangeably:
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    accuracy and precision.
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    The distinction between the two
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    is actually critical
    for many scientific endeavours.
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    Accuracy involves how close you come
    to the correct result.
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    Your accuracy improves with tools
    that are calibrated correctly
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    and that you're well-trained on.
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    Precision, on the other hand,
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    is how consistently you can get
    that result using the same method.
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    Your precision improves
    with more finely incremented tools
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    that require less estimation.
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    The story of the stolen crossbow
    was one of precision without accuracy.
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    William got the same wrong result
    each time he fired.
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    The variation with the shaky hand
    was one of accuracy without precision.
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    William's bolts clustered
    around the correct result,
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    but without certainty of a bullseye
    for any given shot.
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    You can probably get away
    with low accuracy
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    or low precision in everyday tasks.
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    But engineers and researchers
    often require accuracy
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    on microscopic levels with
    a high certainty of being right every time.
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    Factories and labs increase precision
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    through better equipment
    and more detailed procedures.
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    These improvements can be expensive,
    so managers must decide
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    what the acceptable uncertainty
    for each project is.
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    However, investments in precision
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    can take us beyond
    what was previously possible,
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    even as far as Mars.
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    It may surprise you that NASA
    does not know exactly where
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    their probes are going to touch down
    on another planet.
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    Predicting where they will land
    requires extensive calculations
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    fed by measurements
    that don't always have a precise answer.
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    How does the Martian atmosphere's density
    change at different elevations?
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    What angle will the probe
    hit the atmosphere at?
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    What will be the speed
    of the probe upon entry?
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    Computer simulators run thousands
    of different landing scenarios,
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    mixing and matching values
    for all of the variables.
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    Weighing all the possibilities,
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    the computer spits out
    the potential area of impact
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    in the form of a landing ellipse.
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    In 1976, the landing ellipse
    for the Mars Viking Lander
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    was 62 x 174 miles,
    nearly the area of New Jersey.
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    With such a limitation,
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    NASA had to ignore many interesting
    but risky landing areas.
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    Since then, new information
    about the Martian atmosphere,
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    improved spacecraft technology,
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    and more powerful computer simulations
    have drastically reduced uncertainty.
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    In 2012, the landing ellipse
    for the Curiosity Lander
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    was only 4 miles wide by 12 miles long,
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    an area more than 200 times
    smaller than Viking's.
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    This allowed NASA to target
    a specific spot in Gale Crater,
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    a previously un-landable area
    of high scientific interest.
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    While we ultimately strive for accuracy,
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    precision reflects our certainty
    of reliably achieving it.
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    With these two principles in mind,
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    we can shoot for the stars
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    and be confident
    of hitting them every time.
Title:
What's the difference between accuracy and precision? - Matt Anticole
Speaker:
Matt Anticole
Description:

View full lesson: http://ed.ted.com/lessons/what-s-the-difference-between-accuracy-and-precision-matt-anticole

When we measure things, most people are only worried about how accurate, or how close to the actual value, they are. Looking at the process of measurement more carefully, you will see that there is another important consideration: precision. Matt Anticole explains what exactly precision is and how can help us to measure things better.

Lesson by Matt Anticole, animation by Anton Bogaty.
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Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
04:53

English subtitles

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