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11.6.3: Find y given x and the Equation of a Line

  • Page ID
    44675
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    Learning Outcomes

    1. Find the value of y given x and the equation of a line.
    2. Use a line to make predictions.

    A line can be thought of as a function, which means that if a value of \(x\) is given, the equation of the line produces exactly one value of \(y\); This is particularly useful in regression analysis where the line is used to make a prediction of one variable given the value of the other variable.

    Example \(\PageIndex{1}\)

    Consider the line with equation:

    \[y=3x-4\nonumber \]

    Find the value of \(y\) when \(x\) is 5.

    Solution

    Just replace the variable \(x\) with the number 5 in the equation and perform the arithmetic:

    \[y\:=\:3\left(5\right)-4=15-4\:=11\nonumber \]

    Example \(\PageIndex{2}\)

    A survey was done to look at the relationship between a woman's height, \(x\) and the woman's weight, \(y\). The equation of the regression line was found to be:

    \[y=-220+5.5x\nonumber \]

    Use this equation to estimate the weight in pounds of a woman who is 5' 2" (62 inches) tall.

    Solution

    Just replace the variable \(x\) with the number 62 in the equation and perform the arithmetic:

    \[y\:=\:-220+5.5\left(62\right)\nonumber \]

    We can put this into a calculator or computer to get:

    \[y\:=\:121\nonumber \]

    Therefore, our best prediction for the weight of a woman who is 5' 2'' tall is that she is 121 lbs.

    Exercise

    A biologist has collected data on the girth (how far around) of pine trees and the pine tree's height. She found the equation of the regression line to be:

    \[y=1.3+2.7x\nonumber \]

    Where the girth, \(x\), is measured in inches and the height, \(y\), is measured in feet. Use the regression line to predict the height of a tree with girth 28 inches.

    https://youtu.be/cS95PlUKZ6I


    This page titled 11.6.3: Find y given x and the Equation of a Line is shared under a CC BY license and was authored, remixed, and/or curated by Larry Green.

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