Remember how Jasper made a frequency table in the last Concept? Well, now he is going to take this frequency table and try to make a histogram. Take a look.
Jasper is curious about how many days it takes a musher to finish the Iditarod. Looking online, he has discovered that the average is from 10 – 15 days, but that isn’t specific enough for him.
“I want to know more details about it,” he tells Mr. Hawkins first thing on Monday morning.
“Well, you have to narrow down your findings. I would suggest you look at the final standings from 2010. Then you can create a frequency table and a histogram.”
“Alright, that’s a good idea,” Jasper says.
Jasper begins his research on the Iditarod website. He makes notes on the number of days that it took the mushers in the 2010 Iditarod to finish. Here is the frequency table that he created with his findings.
Days | Tally | Frequency |
---|---|---|
8 | I | I |
9 | I I I I I | 18 |
I I I I I | ||
I I I I I | ||
I I I | ||
10 | I I I I I | 16 |
I I I I I | ||
I I I I I | ||
I | ||
I I | I I I I I | 6 |
I | ||
12 | I I I I I | 9 |
I I I I | ||
13 | I I I I | 4 |
Next, Jasper began making his histogram. But as soon as he started to draw it, something did not look right.
Jasper could use some help. In this Concept, you will learn how to take a frequency table and make a histogram out of it. Pay close attention and at the end of this Concept you will be able to help Jasper create his visual display.
Guidance
Frequency tables are a great way to record and organize data. Once you have created a frequency table, we can make a histogram to present a visual display of the information in the frequency table.
What is a histogram?
A histogram shows the frequency of data values on a graph. Like a frequency table, data is grouped in intervals of equal size that do not overlap. Like a bar graph, the height of each bar depicts the frequency of the data values. A histogram differs from a bar graph in that the vertical columns are drawn with no space in between them.
Now let’s look at creating a histogram from a frequency table.
Create a histogram using the results on the frequency table below.
Number of Hours Slept | Tally | Frequency |
---|---|---|
5 | I | 1 |
6 | I I | 2 |
7 | I I I I | 4 |
8 | I I I | 3 |
9 | I I I | 3 |
10 | I I I | 3 |
11 | I I | 2 |
12 | I I | 2 |
To create a histogram:
1. Draw the horizontal
2. Give the graph the title “Hours Slept Each Night.”
3. Label the horizontal axis “Hours.” List the intervals across the horizontal axis.
4. Label the vertical axis “Frequency.” Since the range in frequencies is not that great, label the axis by ones.
5. For each interval on the horizontal access, draw a vertical column to the appropriate frequency value. On a histogram, there is no space in between vertical columns.
Take a few minutes to copy down the steps for creating a histogram in your notebook.
Create a histogram to display the data on the frequency table below.
Number of Minutes on the Computer | Tally | Frequency |
---|---|---|
0 – 5 | I I I | 3 |
6 – 10 | I I | 2 |
11 – 15 | I I I | 3 |
16 – 20 | I I | 2 |
21 – 25 | I | 1 |
26 – 30 | I | 1 |
31 – 35 | I | 1 |
36 – 40 | I | 1 |
41 – 45 | I I | 2 |
46 – 50 | I | 1 |
51 – 55 | I | 1 |
56 – 60 | I I | 2 |
To create a histogram:
1. Draw the horizontal
2. Give the graph the title “Minutes Spent on the Computer.”
3. Label the horizontal axis “Minutes.” List the intervals across the horizontal axis.
4. Title the vertical axis “Frequency.” Label the axis by halves (0.5).
5. For each interval on the horizontal access, draw a vertical column to the appropriate frequency value. Recall that on a histogram, there are no spaces in between vertical columns.
Sometimes, you will be given a set of data that you will need to organize. This data will be unorganized. To work with it, you will have to organize it by creating a frequency table. Then you can use that frequency table to create a histogram.
Fifteen people were asked to state the number of hours they exercise in a seven day period. The results of the survey are listed below. Make a frequency table and histogram to display the data.
8, 2, 4, 7.5, 10, 11, 5, 6, 8, 12, 11, 9, 6.5, 10.5, 13
First arrange the data on a frequency table. Recall that a table with three columns needs to be drawn: one for intervals, one for tallied results, and another for frequency results. The range in values for this set of data is eleven. Therefore, data will be tallied in intervals of three.
Hours of Exercise | Tally | Frequency |
---|---|---|
0 – 2 | I | 1 |
3 – 5 | I I | 2 |
6 – 8 | I I I I I | 5 |
9 – 11 | I I I I I | 5 |
12 – 14 | I I | 2 |
Next, the data needs to be displayed on a histogram. Recall that a horizontal
Now let’s make some conclusions based on the information displayed in the histogram.
Looking at the histogram above, you can that equal numbers of people reported that they exercise between six and eight and nine and eleven hours each week. Two people stated that they exercise between three and five hours per week. Two people reported that they exercise between twelve and fourteen hours per week. Zero to two is the hours with the least frequency.
Look at this frequency table and use it to complete the following questions.
Number of Sodas | Tally | Frequency |
---|---|---|
0 – 3 | I I I I I I I I | 8 |
4 – 7 | I I I I I I I | 7 |
8 – 11 | I I I | 3 |
12 – 15 | I I | 2 |
Example A
Which category is the most popular?
Solution: 0 - 3 Sodas
Example B
Which category is the least popular?
Solution: 12 - 15 sodas
Example C
What is the difference between the greatest number of sodas and the least?
Solution: 8 - 3 = 5
Now back to Jasper and the histogram.
Here is the original problem once again. Reread it and then look at the histogram created from the frequency table.
Jasper is curious about how many days it takes a musher to finish the Iditarod. Looking online, he has discovered that the average is from 10 – 15 days, but that isn’t specific enough for him.
“I want to know more details about it,” he tells Mr. Hawkins first thing on Monday morning.
“Well, you have to narrow down your findings. I would suggest you look at the final standings from 2010. Then you can create a frequency table and a histogram.”
“Alright, that’s a good idea,” Jasper says.
Jasper begins his research on the Iditarod website. He makes notes on the number of days that it took the mushers in the 2010 Iditarod to finish. Here is the frequency table that he created with his findings.
Days | Tally | Frequency |
---|---|---|
8 | 1 | 1 |
9 | 11111 | 18 |
11111 | ||
11111 | ||
111 | ||
10 | 11111 | 16 |
11111 | ||
11111 | ||
1 | ||
11 | 11111 | 6 |
1 | ||
12 | 11111 | 9 |
1111 | ||
13 | 1111 | 4 |
Next, Jasper began making his histogram. But as soon as he started to draw it, something did not look right.
Then Jasper began to notice that he needed to put the number of mushers on the
Here is Jasper’s final histogram.
Vocabulary
Here are the vocabulary words in this Concept.
- Frequency Table
- a table that keeps track of the number of times a data value occurs
- Histogram
- a type of bar graph that shows frequency and distribution of data. The bars in a histogram are not spaced apart, but they are found right next to each other.
Guided Practice
Here is one for you to try on your own.
The data on the table below depicts the height (in meters) a ball bounces after being dropped from different heights. Create a frequency table and histogram to display the data.
Answer
First arrange the data on a frequency table.
Recall that a table with three columns needs to be drawn: one for intervals, one for tallied results, and another for frequency results. The range in values for this set of data is nine. Therefore, data will be tallied in intervals of two.
Bounce Height | Tally | Frequency |
---|---|---|
3 – 4 | I | 1 |
5 – 6 | I I I I | 4 |
7 – 8 | I I I | 3 |
9 – 10 | I I I | 3 |
11 – 12 | I I | 2 |
13 – 14 | I I | 2 |
Next, the data needs to be displayed on a histogram.
Recall that a horizontal
Now what conclusions can we draw from the frequency table and histogram?
You can see that the most frequent bounce heights were between five and six meters. The least frequent bounce heights were between three and four meters. Three balls bounced between seven and eight meters and nine and ten meters. Two balls bounced between eleven and twelve meters and thirteen and fourteen meters.
Video Review
Here is a video for review.
This is a video on frequency tables and histograms.
Practice
Directions: Use what you have learned to complete each dilemma.
1. Create a histogram to display the data from the frequency table below.
Data Values | Tally | Frequency |
---|---|---|
0 – 3 | I I I | 3 |
4 – 7 | I I I I | 4 |
8 – 11 | I | 1 |
12 – 15 | I I | 2 |
2. The data collected depicts the number of letters in the last names of twenty people. Create a frequency table to display the data.
3. Create a histogram to display the data.
4. The data collected depicts the number of hours twelve families traveled this summer to their vacation destination. Create a frequency table to display the data.
5. Create a histogram to display the data.
6. Write a few sentences to explain any conclusions that you can draw from the data.
7. Generate a question that you will use to survey twenty people.
8. Make a table to collect the answers.
9. Display the data on a frequency table
10. Create a histogram to display the data histogram.
Here is a list of the number of students who did not complete their homework in one month.
1, 1, 3, 3, 4, 3, 3, 5, 6, 1, 1, 1, 2, 2, 3
11. Create a frequency table of the data.
12. What is the most popular value?
13. What is the least popular value?
14. What is the range of values?
15. What is the average?