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1.5: Accuracy and Precision

  • Page ID
    235820
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     A basketball game requires shooting accuracy
    Figure \(\PageIndex{1}\) (Credit: Daniel Arizpe; Source: Commons Wikimedia, High School Basketball Game(opens in new window) [commons.wikimedia.org]; License: Public Domain)

    How do professional basketball players improve their shooting accuracy?

    Basketball is one of those sports where you need to hit the target.  A football field goal kicker might have room for some deviation from a straight line – for college and pro football there is an 18 foot 6 inch space for the ball to go through.  In basketball, the basket is only 18 inches across and the ball is a little less than 10 inches across – not much room for error.  The ball has to be on target in order to go into the basket and score.

    Accuracy and Precision

    In everyday speech, the terms accuracy and precision are frequently used interchangeably. However, their scientific meanings are quite different. Accuracy is a measure of how close a measurement is to the correct or accepted value of the quantity being measured. Precision is a measure of how close a series of measurements are to one another. Precise measurements are highly reproducible, even if the measurements are not near the correct value. Darts thrown at a dartboard are helpful in illustrating accuracy and precision.

    CK12 Screenshot 3-12-1.png
    Figure \(\PageIndex{2}\): The distribution of darts on a dartboard shows the difference between accuracy and precision. (Credit: Christopher Auyeung; Source: CK-12 Foundation; License: CC BY-NC 3.0(opens in new window))

    Assume that three darts are thrown at the dartboard, with the bulls-eye representing the true, or accepted, value of what is being measured. A dart that hits the bulls-eye is highly accurate, whereas a dart that lands far away from the bulls-eye displays poor accuracy. The figure above demonstrates four possible outcomes:

    1. The darts have landed far from each other and far from the bulls-eye. This grouping demonstrates measurements that are neither accurate nor precise.
    2. The darts are close to one another, but far from the bulls-eye. This grouping demonstrates measurements that are precise, but not accurate. In a laboratory situation, high precision with low accuracy often results from a systematic error. Either the measurer makes the same mistake repeatedly, or the measuring tool is somehow flawed. A poorly calibrated balance may give the same mass reading every time, but it will be far from the true mass of the object.
    3. The darts are not grouped very near to each other, but are generally centered around the bulls-eye. This demonstrates poor precision, but fairly high accuracy. This situation is not desirable in a lab situation because the "high" accuracy may simply be random chance and not a true indicator of good measuring skill.
    4. The darts are grouped together and have hit the bulls-eye. This demonstrates high precision and high accuracy. Scientists always strive to maximize both in their measurements.
    Students in a lab using volumetric flasks
    Figure \(\PageIndex{3}\): Students in a chemistry lab are making careful measurements with a series of volumetric flasks. Accuracy and precision are critical in every experiment. (Credit: CK-12 Foundation; Source: CK-12 Foundation; License: CK-12 Curriculum Materials license)
    Simulation

    How is your accuracy and precision? Try out your skills with this simulation. 

    Summary

    • Accuracy is a measure of how close a measurement is to the correct or accepted value of the quantity being measured.
    • Precision is a measure of how close a series of measurements are to one another.

    Review

    1. Define accuracy.
    2. Define precision.
    3. What can be said about the reproducibility of precise values?

    1.5: Accuracy and Precision is shared under a CC BY-NC license and was authored, remixed, and/or curated by LibreTexts.

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