Lesson 5Circumference and Wheels

Learning Goal

Let’s explore how far different wheels roll.

Learning Targets

  • If I know the radius or diameter of a wheel, I can find the distance the wheel travels in some number of revolutions.

Lesson Terms

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

Warm Up: A Rope and a Wheel

Problem 1

Han says that you can wrap a 5-foot rope around a wheel with a 2-foot diameter because is less than pi. Do you agree with Han? Explain your reasoning.

Activity 1: Rolling, Rolling, Rolling

Problem 1

Your teacher will give you a circular object.

  1. Follow these instructions to create the drawing:

    • On a separate piece of paper, use a ruler to draw a line all the way across the page.

    • Roll your object along the line and mark where it completes one rotation.

    • Use your object to draw tick marks along the line that are spaced as far apart as the diameter of your object.

  2. What do you notice?

  3. Use your ruler to measure each distance. Record these values in the first row of the table:

    • the diameter of your object

    • how far your object rolled in one complete rotation

    • the quotient of how far your object rolled divided by the diameter of your object

    object

    diameter

    distance traveled
    in one rotation

  4. If you wanted to trace two complete rotations of your object, how long of a line would you need?

  5. Share your results with your group and record their measurements in the table.

  6. If each person in your group rolled their object along the entire length of the classroom, which object would complete the most rotations? Explain or show your reasoning.

Activity 2: Rotations and Distance

Problem 1

A car wheel has a diameter of 20.8 inches.

  1. About how far does the car wheel travel in 1 rotation? 5 rotations? 30 rotations?

  2. Write an equation relating the distance the car travels in inches, , to the number of wheel rotations, .

  3. About how many rotations does the car wheel make when the car travels 1 mile? Explain or show your reasoning.

Problem 2

A bike wheel has a radius of 13 inches.

  1. About how far does the bike wheel travel in 1 rotation? 5 rotations? 30 rotations?

  2. Write an equation relating the distance the bike travels in inches, , to the number of wheel rotations, .

  3. About how many rotations does the bike wheel make when the bike travels 1 mile? Explain or show your reasoning.

Are you ready for more?

Problem 1

Here are some photos of a spring toy.

4 photos of a spring toy. First is standing  up, coiled. Next is curved over. Next is standing up again with a ruler across measuring from about 10 to 19 cm across and next is stretched out.

If you could stretch out the spring completely straight, how long would it be? Explain or show your reasoning.

Activity 3: Rotations and Speed

Problem 1

The circumference of a car wheel is about 65 inches.

  1. If the car wheel rotates once per second, how far does the car travel in one minute?

  2. If the car wheel rotates once per second, about how many miles does the car travel in one hour?

  3. If the car wheel rotates 5 times per second, about how many miles does the car travel in one hour?

  4. If the car is traveling 65 miles per hour, about how many times per second does the wheel rotate?

Lesson Summary

The circumference of a circle is the distance around the circle. This is also how far the circle rolls on flat ground in one rotation. For example, a bicycle wheel with a diameter of 24 inches has a circumference of inches and will roll inches (or feet) in one complete rotation. There is an equation relating the number of rotations of the wheel to the distance it has traveled. To see why, let’s look at a table showing how far the bike travels when the wheel makes different numbers of rotations.

number of rotations

distance traveled (feet)

In the table, we see that the relationship between the distance traveled and the number of wheel rotations is a proportional relationship. The constant of proportionality is . To find the missing value in the last row of the table, note that each rotation of the wheel contributes feet of distance traveled. So after rotations the bike will travel feet. If is the distance, in feet, traveled when this wheel makes rotations, we have the relationship: .