Lesson 12Exploring Circumference

Learning Goal

Let’s explore the circumference of circles.

Learning Targets

  • I can describe the relationship between circumference and diameter of any circle.

  • I can explain what means.

Lesson Terms

  • circle
  • circumference
  • diameter
  • pi (π)
  • radius

Warm Up: Which Is Greater?

Problem 1

Clare wonders if the height of the toilet paper tube or the distance around the tube is greater. What information would she need in order to solve the problem? How could she find this out?

Three different views of a circular shaped toilet paper tube. The first view is of the vertical height of the tube. The second view is of the circular base of the tube. The third view is of both the base and the height of the tube.

Activity 1: Measuring Circumference and Diameter

Problem 1

  1. Explore the applet to find the diameter and the circumference of three circular objects to the nearest tenth of a unit. Record your measurements in the table.

  2. Plot the diameter and circumference values from the table on the coordinate plane. What do you notice?

  3. Plot the points from two other groups on the same coordinate plane. Do you see the same pattern that you noticed earlier?

Print Version
  1. Measure the diameter and the circumference of the circle in each object to the nearest tenth of a centimeter. Record your measurements in the table.

    object

    diameter (cm)

    circumference (cm)

  2. Plot the diameter and circumference values from the table on the coordinate plane. What do you notice?

    A coordinate plane with the origin labeled "O". The horizontal axis is labeled "diameter, in centimeters," and the numbers 0 through 25, in increments of 5, are indicated. The vertical axis is labeled "circumference, in centimeters," and the numbers 0 through 80, in increments of 10, are indicated.
  3. Plot the points from two other groups on the same coordinate plane. Do you see the same pattern that you noticed earlier?

Activity 2: Calculating Circumference and Diameter

Problem 1

Here are five circles. One measurement for each circle is given in the table.

Five circles, each with a different diameter, are labeled A, B, C, D, and E.

Use the constant of proportionality estimated in the previous activity to complete the table.

diameter (cm)

circumference (cm)

circle

circle

circle

circle

circle

Print Version

Here are five circles. One measurement for each circle is given in the table.

Five circles, each with a different diameter, are labeled A, B, C, D, and E.

Use the constant of proportionality estimated in the previous activity to complete the table.

diameter (cm)

circumference (cm)

circle

circle

circle

circle

circle

Are you ready for more?

Problem 1

The circumference of the Earth is approximately 40,000 km. If you made a circle of wire around the globe, that is only 10 meters (0.01 km) longer than the circumference of the globe, could a flea, a mouse, or even a person creep under it?

Lesson Summary

There is a proportional relationship between the diameter and circumference of any circle. That means that if we write for circumference and for diameter, we know that , where is the constant of proportionality.

The exact value for the constant of proportionality is called . Some frequently used approximations for are , 3.14, and 3.14159, but none of these is exactly .

A graph of a line in the coordinate plane with the origin labeled O. The horizontal axis is labeled “d” and the numbers 1 through 6 are indicated. The vertical axis is labeled “C” and the numbers 2 through 12, in increments of 2, are indicated. The line begins at the origin, slants upward and to the right, and passes through the point 1 comma pi.

We can use this to estimate the circumference if we know the diameter, and vice versa. For example, using 3.1 as an approximation for , if a circle has a diameter of 4 cm, then the circumference is about or 12.4 cm.

The relationship between the circumference and the diameter can be written as