Lesson 10Meet Slope

Let’s learn about the slope of a line.

Learning Targets:

  • I can draw a line on a grid with a given slope.
  • I can find the slope of a line on a grid.

10.1 Equal Quotients

Write some numbers that are equal to 15 \div 12 .

10.2 Similar Triangles on the Same Line

  1. The figure shows three right triangles, each with its longest side on the same line.

    Your teacher will assign you two triangles. Explain why the two triangles are similar.

    Several different triangles are created off of a linear function on a graph.
  2. Complete the table.
    triangle vertical side horizontal side  (vertical side) \div (horizontal side)
    ABC
    CDE
    FGH

10.3 Multiple Lines with the Same Slope

  1. Draw two lines with slope 3. What do you notice about the two lines?
  2. Draw two lines with slope \frac{1}{2} . What do you notice about the two lines?

Are you ready for more?

As we learn more about lines, we will occasionally have to consider perfectly vertical lines as a special case and treat them differently. Think about applying what you have learned in the last couple of activities to the case of vertical lines. What is the same? What is different?

10.4 Different Slopes of Different Lines

Here are several lines.

Graphs A, B, C, D, E, and F show different functions and triangles.
  1. Match each line shown with a slope from this list: \frac13 , 2, 1, 0.25, \frac32 , \frac12 .
  2. One of the given slopes does not have a line to match. Draw a line with this slope on the empty grid (F).

Lesson 10 Summary

Here is a line drawn on a grid. There are also four right triangles drawn. Do you notice anything the triangles have in common?

Several different triangles are created off of a linear function on a graph.

These four triangles are all examples of slope triangles. One side of a slope triangle is on the line, one side is vertical, and another side is horizontal. The slope of the line is the quotient of the length of the vertical side and the length of the horizontal side of the slope triangle. This number is the same for all slope triangles for the same line because all slope triangles for the same line are similar.

In this example, the slope of the line is \frac{2}{3} , which is what all four triangles have in common. Here is how the slope is calculated using the slope triangles:

  • Points A and B give  2\div 3=\frac23
  • Points D and B give  4\div 6=\frac23
  • Points A and C give  4\div 6=\frac23
  • Points A and E give  \frac23 \div 1=\frac23

Glossary Terms

slope

The slope of a line is a number we can calculate using any two points on the line. To find the slope, divide the vertical distance between the points by the horizontal distance. 

The slope of this line is 2 divided by 3 or \frac23 .

an image showing that the slope of a line is found by the determining the horizontal and vertical distance

Lesson 10 Practice Problems

  1. Of the three lines in the graph, one has slope 1, one has slope 2, and one has slope \frac{1}{5}.  Label each line with its slope.

    Different linear functions are on a graph
  2. Draw three lines with slope 2, and three lines with slope \frac 1 3 . What do you notice?

    a blank grid
  3. The figure shows two right triangles, each with its longest side on the same line.

    Right triangle RST has a height of 2 and a width of 4. Right triangle XYZ has a height of 3.
    1. Explain how you know the two triangles are similar.
    2. How long is XY ?
    3. For each triangle, calculate (vertical side) \div (horizontal side).
    4. What is the slope of the line? Explain how you know.
  4. Triangle A has side lengths 3, 4, and 5. Triangle B has side lengths 6, 7, and 8.

    1. Explain how you know that Triangle B is not similar to Triangle A .

    2. Give possible side lengths for Triangle B so that it is similar to Triangle A .