1277 LearnersLast updated on June 12th, 2025
Stem and Leaf Plot
We use different ways to represent data in statistics, like, charts, graphs, and tables. One of the major disadvantages is that the original values are not retained. That is where stem and leaf plots come in. A stem and leaf plot is a simple way to organize and display numerical data by splitting each value into a stem and a leaf. It helps in quickly identifying the distribution, trends, and central values of a dataset while preserving the original numbers. Now, let us see how to create and read data from stem and leaf plots.
What are Stem and Leaf Plots?
A stem and leaf plot is a graphical representation of numerical data that helps in organizing and analyzing values while preserving the dataset that was given.
It separates each number into a stem and a leaf, which makes it easier to identify trends like distributions, median, and mode. We use stem and leaf plots in education, business, and statistics to quickly interpret numerical data.
The key features are given below:
- Stem and leaf plots display numerical data by splitting each data point into a stem and a leaf
- The stems are listed vertically, and the leaves are listed next to their corresponding stem in numerical order.
- A key is provided on how to read the stem and leaf plot
- They are useful for displaying the shape, spread, and central tendency of a data distribution.
- They retain the original values.
- Stems without leaves are included to preserve the horizontal axis scaling and highlight gaps in the data.
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How to Create Stem and Leaf Plots and How to Split Stem and Leaf Plots?
Here, we will learn how to create a stem and leaf plot and also learn how to split the stem and leaf plot. We will also learn what does splitting of stem and leaf plots means and how it is done:
How to Create Stem and Leaf Plots?
To create a stem and leaf plot, we have to follow the following steps:
Step 1: Organize the Data:
First, we have to collect and list all the numerical values in the dataset. Then we have to check and ensure that all the numbers are accurate. For example, the dataset:
23, 45, 31, 37, 29, 42, 34, 47, 38, 51.
Step 2: List the Data Set in Ascending Order:
Next, we have to arrange the values in ascending order:
23, 29, 31, 34, 37, 38, 42, 45, 47, 51
Step 3: Identify the Stems and Leaves:
Next, we have to identify the stems and leaves:
Stems = 2, 3, 4, 5
Leaves = 2 (3, 9), 3 (1, 4, 7, 8), 4(2, 5, 7), 5 (1)
Step 4: List the Stems:
Step 5: Add the Leaves:
Step 6: Include a Legend:
Lastly, include a legend where it says that “2| 3 9” reads as 23 and 29 for all the stems and leaves.
How to Split Stem and Leaf Plot?
The split of the stem and leaf plot splits each stem into many stems based on the frequency. We place the smaller leaves on the first part of the split stem and the larger leaves on the subsequent stems.
For example, let us consider the dataset:
78, 82, 82, 90, 90, 95, 95, 96, 97, 98, 98, 98
The stem and leaf plot for the above data set is as follows:
|
Stem |
Leaf |
|
7 |
8 |
|
8 |
2, 2 |
|
9 |
0, 5, 5, 6, 7, 8, 8, 8 |
The split stem and leaf plot is as follows:
|
Stem |
Leaf |
|
7 |
8 |
|
8 |
2 |
|
8 |
2 |
|
9 |
0 |
|
9 |
5 |
|
9 |
5 |
|
9 |
6 |
|
9 |
7 |
|
9 |
8 |
|
9 |
8 |
|
9 |
8 |
How to Construct a Stem and Leaf Plot?
Let us now see how to construct a stem and leaf plot:
To construct a stem and leaf plot, we have to follow the following steps:
Step 1: First, we have to look at the given data and find the number of digits. Then, we have to classify them as 2 or 3-digit numbers.
Step 2: After that, we have to fix the stem and leaf plot key or legend.
Step 3: Then, we have to identify the first digits as stems and the last digits as leaves.
Step 4: Then, determine the range of the data, which means the lowest and highest values among the data.
Step 5: Draw a vertical line. Place the stem on the left column and the leaf on the right column.
Step 6: List the stems in the stem column. Arrange the stems in ascending order, starting from the lowest to the top.
Step 7: Plot the leaves in the leaf column against the stem from lowest to highest horizontally.
Stem and Leaf Plot With Decimals
When we deal with data that has decimals, the process of creating a stem and leaf plot is similar. The difference is in how we determine the stems and leaves. For example,
For the given data set, create a stem and leaf plot:
2.3, 2.5, 2.7, 3.2, 3.4, 3.5, 4.5, 4.7, 4.9.
The stems in the above data set are the integers: 2, 3, 4
The leaves in the above data set are numbers after the decimal points
To represent the data, see the table given below:
|
Stem |
Leaves |
|
2 |
3, 5, 7 |
|
3 |
2, 4, 5 |
|
4 |
5, 7, 9 |
Real-life applications on Stem and Leaf Plot
There are many uses of stem and leaf plots. Let us now see the uses and applications of stem and leaf plots in different fields:
- Education: The stem and leaf plots are used in education, where teachers use stem and leaf plots to analyze students’ test scores and identify trends. It helps to determine class performance, median, mode, and overall grade distribution.
- Business and Sales Analysis: We use stem and leaf plots in business and sales analysis, where businesses use them to analyze daily, weekly, and monthly sales data. It also helps in identifying trends, peak sales periods, and performance comparisons.
- Sports Statistics: In sports statistics, we use stem and leaf plots to analyze them to summarize player performance. It also helps in comparing athletes’ progress over time.
Common Mistakes and How to Avoid Them in Stem and Leaf Plot
When understanding the concept of stem and leaf plots, students tend to make mistakes. Here, are some common mistakes and their solutions:
Mistake 1
Incorrect Stem and Leaf Placement:
Students should ensure that the stem represents the leading digits and the leaf represents the trailing digits. They must remember to keep the alignment neat for readability.
Mistake 2
Missing or Extra Leaves:
Students should remember to double-check the original data and verify all the numbers are accounted for correctly in the plot.
Mistake 3
Not Arranging Leaves in Ascending Order:
Students should remember to always arrange the leaves in ascending order for clarity and easier pattern recognition.
Mistake 4
Using the Wrong Stem Interval:
Students should select a suitable stem interval based on the data range. For example, using intervals of 10 for large numbers or splitting the stems for better distributions.
Mistake 5
Not Including a Key (Legend):
Students should always include a key or a legend to ensure that the reader understands the stem and leaf plot. For example, for 2| 3 a key or legend should be kept to understand that the data reads as 23.
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Solved examples on Stem and Leaf Plot
Problem 1
Construct a stem and leaf plot for the following data set: 34, 37, 41, 42, 45, 46, 47, 51, 53, 55, 56, 59, 62
Explanation
Order the data:
34, 37, 41, 42, 45, 46, 47, 51, 53, 55, 56, 59, 62 (already in ascending order)
Determine the stems and leaves:
The tens digit is the stems and the ones digit is the leaf
30s: 34, 37 Stem = 3; leaves = 4, 7.
40s: 41, 42, 45, 46, 47 Stem = 4; Leaves = 1, 2, 5, 6, 7
50s: 51, 53, 55, 56, 59 Stem = 5; Leaves = 1, 3, 5, 6, 9
60s: 62 Stem = 6; Leaves = 2
write the stem and leaf plot.
Problem 2
Given the stem and leaf plot, find the median of the data:
The median is 40.5.
Explanation
Count the data values:
Row 2: 2 values
Row 3: 3 values
Row 4: 4 values
Row 5: 3 values
List the data in order:
23, 25, 31, 32, 37, 40, 41, 43, 46, 50, 52, 55
Determine the median:
With 12 values being there, the median is the average of the 6th and 7th values.
6th value = 40 and 7th value = 41
Median = (40 + 41)/2 = 40.5
Problem 3
Determine the mode from the following stem and leaf plot.
The mode is 63.
Explanation
Identify the frequency of each value
Stem 4: 41 appears twice, 43 once, and 45 once
Stem 5: 52 appears twice; others appear once.
Stem 6: 63 appears thrice; 65 and 66 appear once respectively.
Determine the mode:
The most frequently occurring value is 63
Problem 4
Determine the range of the data represented by the stem and leaf plot.
The range is 30
Explanation
Identify the largest and smallest values:
Smallest: 35 from row 3| 5 8
Largest: 65 from row 6| 2 5
Calculate the range:
Range = Largest value - smallest value = 65 - 35 = 30
Problem 5
How many data values are represented in the stem and leaf plot below?
There are 9 data values.
Explanation
Count the leaves in each row:
Row “1| 2 5 7”: 3 values
Row “2| 0 2 4 8”: 4 values
Row “3| 1 3”: 2 values
Total = 3 + 4 + 2 = 9
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FAQs on Stem and Leaf Plot
1.What is a stem and leaf plot?
2.What are the main components of the stem and leaf plot?
3.How to construct a stem and leaf plot?
4.How is a stem and leaf plot different from a histogram?
5.How do you determine the range from a stem and leaf plot?
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Jaipreet Kour Wazir
About the Author
Jaipreet Kour Wazir is a data wizard with over 5 years of expertise in simplifying complex data concepts. From crunching numbers to crafting insightful visualizations, she turns raw data into compelling stories. Her journey from analytics to education ref
Fun Fact
: She compares datasets to puzzle games—the more you play with them, the clearer the picture becomes!
