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Then we can calculate the slope by finding the rise and run. We can choose any two points, but let’s look at the point ( 2 , 0 ) . To get from this point to the y- intercept, we must move up 4 units (rise) and to the right 2 units (run). So the slope must be

m = rise run = 4 2 = 2

Substituting the slope and y- intercept into the slope-intercept form of a line gives

y = 2 x + 4

Given a graph of linear function, find the equation to describe the function.

  1. Identify the y- intercept of an equation.
  2. Choose two points to determine the slope.
  3. Substitute the y- intercept and slope into the slope-intercept form of a line.

Matching linear functions to their graphs

Match each equation of the linear functions with one of the lines in [link] .

  1. f ( x ) = 2 x + 3
  2. g ( x ) = 2 x 3
  3. h ( x ) = 2 x + 3
  4. j ( x ) = 1 2 x + 3

Analyze the information for each function.

  1. This function has a slope of 2 and a y -intercept of 3. It must pass through the point (0, 3) and slant upward from left to right. We can use two points to find the slope, or we can compare it with the other functions listed. Function g has the same slope, but a different y- intercept. Lines I and III have the same slant because they have the same slope. Line III does not pass through ( 0 ,  3 ) so f must be represented by line I.
  2. This function also has a slope of 2, but a y -intercept of 3. It must pass through the point ( 0 , 3 ) and slant upward from left to right. It must be represented by line III.
  3. This function has a slope of –2 and a y- intercept of 3. This is the only function listed with a negative slope, so it must be represented by line IV because it slants downward from left to right.
  4. This function has a slope of 1 2 and a y- intercept of 3. It must pass through the point (0, 3) and slant upward from left to right. Lines I and II pass through ( 0 ,  3 ) , but the slope of j is less than the slope of f so the line for j must be flatter. This function is represented by Line II.

Now we can re-label the lines as in [link] .

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Finding the x -intercept of a line

So far, we have been finding the y- intercepts of a function: the point at which the graph of the function crosses the y -axis. A function may also have an x -intercept, which is the x -coordinate of the point where the graph of the function crosses the x -axis. In other words, it is the input value when the output value is zero.

To find the x -intercept, set a function f ( x ) equal to zero and solve for the value of x . For example, consider the function shown.

f ( x ) = 3 x 6

Set the function equal to 0 and solve for x .

0 = 3 x 6 6 = 3 x 2 = x x = 2

The graph of the function crosses the x -axis at the point ( 2 ,  0 ) .

Do all linear functions have x -intercepts?

No. However, linear functions of the form y = c , where c is a nonzero real number are the only examples of linear functions with no x-intercept. For example, y = 5 is a horizontal line 5 units above the x-axis. This function has no x-intercepts, as shown in [link] .

Graph of y = 5.

x -intercept

The x -intercept of the function is value of x when f ( x ) = 0. It can be solved by the equation 0 = m x + b .

Finding an x -intercept

Find the x -intercept of f ( x ) = 1 2 x 3.

Set the function equal to zero to solve for x .

0 = 1 2 x 3 3 = 1 2 x 6 = x x = 6

The graph crosses the x -axis at the point ( 6 ,  0 ) .

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Source:  OpenStax, Precalculus. OpenStax CNX. Jan 19, 2016 Download for free at https://legacy.cnx.org/content/col11667/1.6
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