Lesson 5

Using Dot Plots to Answer Statistical Questions

Let's use dot plots to describe distributions and answer questions.

5.1: Packs on Backs

This dot plot shows the weights of backpacks, in kilograms, of 50 sixth-grade students at a school in New Zealand.

A dot plot, wight in kilograms, from 0 to 16 by twos.  Beginning at 0 and for intervals of 1, the number of dots above each increment is 3, 4, 8, 10, 7, 6, 4, 2, 1, 3, 1, 0, 0, 0, 0, 0, 1.
  1. The dot plot shows several dots at 0 kilograms. What could a value of 0 mean in this context?
  2. Clare and Tyler studied the dot plot.

    • Clare said, “I think we can use 3 kilograms to describe a typical backpack weight of the group because it represents 20%—or the largest portion—of the data.”
    • Tyler disagreed and said, “I think 3 kilograms is too low to describe a typical weight. Half of the dots are for backpacks that are heavier than 3 kilograms, so I would use a larger value.”

    Do you agree with either of them? Explain your reasoning.

5.2: On the Phone

Twenty-five sixth-grade students were asked to estimate how many hours a week they spend talking on the phone. This dot plot represents their reported number of hours of phone usage per week.

A dot plot, hours on the phone per week, 0 through 10 by ones. Starting at 0, number of dots above each increment are 10, 7, 5, 3, 0, 0, 0, 0, 0, 0, 0.
    1. How many of the students reported not talking on the phone during the week? Explain how you know.
    2. What percentage of the students reported not talking on the phone?
    1. What is the largest number of hours a student spent talking on the phone per week?
    2. What percentage of the group reported talking on the phone for this amount of time?
    1. How many hours would you say that these students typically spend talking on the phone?
    2. How many minutes per day would that be?
    1. How would you describe the spread of the data? Would you consider these students’ amounts of time on the phone to be alike or different? Explain your reasoning.
    2. Here is the dot plot from an earlier activity. It shows the number of hours per week the same group of 25 sixth-grade students reported spending on homework.
      Dot plot, 0 to 10 by 1's. Hours spent on homework per week. Beginning at 0, number of dots above each increment is 1, 5, 4, 3, 4, 2, 3, 0, 2, 1, 0. 

      Overall, are these students more alike in the amount of time they spend talking on the phone or in the amount of time they spend on homework? Explain your reasoning.

  1. Suppose someone claimed that these sixth-grade students spend too much time on the phone. Do you agree? Use your analysis of the dot plot to support your answer.

5.3: Click-Clack

  1. A keyboarding teacher wondered: “Do typing speeds of students improve after taking a keyboarding course?” Explain why her question is a statistical question.
  2. The teacher recorded the number of words that her students could type per minute at the beginning of a course and again at the end. The two dot plots show the two data sets.
    Two dot plots. Both dot plots, 8 to 36 by 1's. Number of words per minute. Top dot plot, beginning of course. Bottom dot plot, end of course. 

    Based on the dot plots, do you agree with each of the following statements about this group of students? Be prepared to explain your reasoning.

    1. Overall, the students’ typing speed did not improve. They typed at the same speed at the end of the course as they did at the beginning.

    2. 20 words per minute is a good estimate for how fast, in general, the students typed at the beginning of the course.

    3. 20 words per minute is a good description of the center of the data set at the end of the course.

    4. There was more variability in the typing speeds at the beginning of the course than at the end, so the students’ typing speeds were more alike at the end.

  3. Overall, how fast would you say that the students typed after completing the course? What would you consider the center of the end-of-course data?



Use one of these suggestions (or make up your own). Research to create a dot plot with at least 10 values. Then, describe the center and spread of the distribution.

  • Points scored by your favorite sports team in its last 10 games
  • Length of your 10 favorite movies (in minutes)
  • Ages of your favorite 10 celebrities

Summary

One way to describe what is typical or characteristic for a data set is by looking at the center and spread of its distribution. 

Let’s compare the distribution of cat weights and dog weights shown on these dot plots. 

A dot plot for "cat weights in kilograms". 
A dot plot for "dog weights in kilograms".

The collection of points for the cat data is further to the left on the number line than the dog data. Based on the dot plots, we may describe the center of the distribution for cat weights to be between 4 and 5 kilograms and the center for dog weights to be between 7 and 8 kilograms.

We often say that values at or near the center of a distribution are typical for that group. This means that a weight of 4–5 kilograms is typical for a cat in the data set, and weight of 7–8 kilograms is typical for a dog.

We also see that the dog weights are more spread out than the cat weights. The difference between the heaviest and lightest cats is only 4 kilograms, but the difference between the heaviest and lightest dogs is 6 kilograms.

A distribution with greater spread tells us that the data have greater variability. In this case, we could say that the cats are more similar in their weights than the dogs.

In future lessons, we will discuss how to measure the center and spread of a distribution.

Glossary Entries

  • center

    The center of a set of numerical data is a value in the middle of the distribution. It represents a typical value for the data set.

    For example, the center of this distribution of cat weights is between 4.5 and 5 kilograms.

    Dot plot from 2 to 12 by 1’s. Cat weights in kilograms. Beginning at 3, number of dots above each increment is 2, 4, 4, 5, 5, 4, 3, 3, 1.
  • distribution

    The distribution tells how many times each value occurs in a data set. For example, in the data set blue, blue, green, blue, orange, the distribution is 3 blues, 1 green, and 1 orange.

    Here is a dot plot that shows the distribution for the data set 6, 10, 7, 35, 7, 36, 32, 10, 7, 35.

    a dot plot that shows the distribution for the data set 6, 10, 7, 35, 7, 36, 32, 10, 7, 35.
  • frequency

    The frequency of a data value is how many times it occurs in the data set.

    For example, there were 20 dogs in a park. The table shows the frequency of each color.

    color frequency
    white 4
    brown 7
    black 3
    multi-color 6

  • spread

    The spread of a set of numerical data tells how far apart the values are.

    For example, the dot plots show that the travel times for students in South Africa are more spread out than for New Zealand.

    dot plots showing travel times for students in South Africa and New Zealand