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Measure of Center: Definition and Example | EDU.COMEDU.COMResourcesBlogGuidePodcastPlanBackHomesvg]:size-3.5">Math Glossarysvg]:size-3.5">Measure of CenterMeasure of Center: Definition and ExampleTable of ContentsUnderstanding Measures of Center in Mathematics Definition

Measures of center, also known as measures of central tendency, are statistical values that describe the middle or typical value of a dataset. These measures help us understand where the center of our data lies and give us a representative value for the entire dataset. When we look at a group of numbers, measures of center tell us about the "average" value in different ways. They are useful for summarizing large amounts of data and making comparisons between different datasets. The main measures of center include mean, median, and mode, each providing a different perspective on what constitutes the "middle" of our data.

Each type of measure of center has its own strengths and is appropriate for different situations. The mean (arithmetic average) is calculated by adding up all the values and dividing by how many values there are. The median is the middle value when all data points are arranged in order from least to greatest. If there's an even number of values, the median is the average of the two middle values. The mode is the value that appears most frequently in the dataset. Sometimes a dataset can have multiple modes or no mode at all. Understanding which measure of center to use helps us better interpret data in various contexts, such as analyzing test scores, income distributions, or measurements in science experiments.

Examples of Measures of Center in Mathematics Example 1: Finding the Mean, Median, and Mode of a Dataset Problem:

Find the mean, median, and mode of this data set: 7, 9, 5, 11, 7, 8, 5, 7, 9

Step-by-step solution:

Step 1, Find the mean.

The mean is the sum of all values divided by the number of values. First, add up all the numbers: 7 + 9 + 5 + 11 + 7 + 8 + 5 + 7 + 9 = 68 Next, count how many numbers we have: We have 9 numbers in our dataset. Now divide the sum by the count: Mean = 689\frac{68}{9}968​ = 7.56

Step 2, Find the median.

The median is the middle value when all numbers are arranged in order. Let's arrange the numbers: 5, 5, 7, 7, 7, 8, 9, 9, 11 Since we have 9 numbers (an odd count), the median is simply the middle number. The middle position is the 5th position (because there are 4 numbers before and 4 after). The 5th number is 7. So the median is 7.

Step 3, Find the mode.

The mode is the value that appears most frequently. Let's count how many times each number appears: 5 appears 2 times 7 appears 3 times 8 appears 1 time 9 appears 2 times 11 appears 1 time The number 7 appears most frequently (3 times), so the mode is 7.

Step 4, Summarize the findings.

Mean = 7.56 Median = 7 Mode = 7 Notice that the mean is slightly higher than the median. This happens because the largest value (11) pulls the mean up, while the median isn't affected by extreme values. Example 2: Comparing Measures of Center with Outliers Problem:

Find the mean and median of this dataset: 12, 15, 13, 14, 11, 90

Step-by-step solution:

Step 1, Examine the data for outliers.

We have: 12, 15, 13, 14, 11, 90 Notice that 90 is much larger than the other values. This is called an outlier—a value that's very different from most of the data.

Step 2, Calculate the mean.

Add all the values: 12 + 15 + 13 + 14 + 11 + 90 = 155 Divide by the number of values (6): Mean = 1556\frac{155}{6}6155​ = 25.83

Step 3, Find the median.

First, arrange the numbers in order: 11, 12, 13, 14, 15, 90 Since we have 6 numbers (an even count), the median is the average of the two middle values. The middle values are the 3rd and 4th numbers: 13 and 14. Calculate the average of these two values: Median = 13+142\frac{13 + 14}{2}213+14​ = 272\frac{27}{2}227​ = 13.5

Step 4, State the answer and analyze the difference.

Mean = 25.83 Median = 13.5 The mean is much higher than the median because it's strongly influenced by the outlier (90). In this case, the median better represents the typical value of the dataset. Example 3: Finding Measures of Center for Grouped Data Problem:

Students in a class recorded how many books they read over summer break. The results are shown below:

Number of books: 0, 1, 2, 3, 4, 5 Number of students: 3, 8, 12, 6, 4, 2

Find the mean, median, and mode number of books read.

Step-by-step solution:

Step 1, Understand what the data represents.

This is frequency data. For example, 3 students read 0 books, 8 students read 1 book, and so on. Let's first count the total number of students: 3 + 8 + 12 + 6 + 4 + 2 = 35 students

Step 2, Find the mean.

Calculate the total number of books and divide by the number of students. Total books = (0 × 3) + (1 × 8) + (2 × 12) + (3 × 6) + (4 × 4) + (5 × 2) Total books = 0 + 8 + 24 + 18 + 16 + 10 Total books = 76 Mean = Total books ÷ Total students Mean = 76 ÷ 35 Mean = 2.17 books per student

Step 3, Find the median.

With 35 students, the median is the 18th value when all are ordered. Let's count through the frequency distribution: 0 books: 3 students (positions 1-3) 1 book: 8 students (positions 4-11) 2 books: 12 students (positions 12-23) 3 books: 6 students (positions 24-29) 4 books: 4 students (positions 30-33) 5 books: 2 students (positions 34-35) The 18th value falls within the group of students who read 2 books. So the median is 2 books.

Step 4, Find the mode.

The mode is the value that occurs most frequently. 2 books was read by 12 students, more than any other number of books. So the mode is 2 books.

Step 5, Summarize all measures of center.

Mean = 2.17 books Median = 2 books Mode = 2 books Comments(4)SSkaterGabeNovember 6, 2025I've used this measure of center def. with my students. It's super clear, and the examples really helped them grasp the concept.

AActorQuinnNovember 5, 2025This glossary def of measure of center is great! I've used it to help my students grasp mean, median, and mode. Thanks for the clear examples!

MJMr. JohnsonNovember 4, 2025I've used this measure of center def for my students. It's super clear with examples. Great resource for making stats easy to grasp!

MMsTraveler25September 17, 2025I’ve been helping my kid with math, and this page on measures of center was a lifesaver! The examples made mean, median, and mode so easy to explain. Thanks for making it simple!

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