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Learn to properly read & interpret data on a histogram
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If you are involved in the observation of statistics or looking at any kind of technical data, you may need to be able to read a histogram. A histogram is a specific visual representation of data, usually a graph using bars without spaces to represent the number of incidents in a distinct group or sample set. [1] For beginners who need to understand what goes into a histogram and how to interpret it, here are some of the essential steps.

How to Read a Histogram

  • Read the axes: The x-axis tells you the ranges of data, while the y-axis tells you the frequency.
  • Identify the bins (the number line on the x-axis): Choose ranges that aren’t too broad or specific so you can see a pattern of frequency in the data.
  • Use the top bar to read the frequency: Look at the top of the bar, and read the value on the y-axis to know how many times an event occurred within the corresponding bin.
Part 1
Part 1 of 2:

Reading Histograms

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  1. Bar charts and histograms are similar, but with some very specific differences. A bar chart groups numbers into categories, while histograms group numbers into ranges. Histograms are generally used to show the results of a continuous data set such as height, weight, time, etc. [2]
    • A bar graph has spaces between the bars, while a histogram does not.
    • A histogram often shows the frequency that an event occurs within the defined range. It shows you how many times that event happens.
  2. The x-axis is the horizontal axis and the y-axis is the vertical axis. Both give you essential information to reading the histogram. Many histograms show you the results of the frequency of an occurrence and will have a y-axis indicating frequency. The x-axis will tell you the ranges into which the data have been grouped. [3]
    • For example, a histogram detailing the frequency of heights of pitchers in professional baseball will have an x-axis of height and a y-axis of frequency.
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  3. The data is grouped into ranges or bins for graphing. Choosing the correct bin size is important in yielding a graph that will help you interpret your results. You want to choose ranges that are not too broad or too specific and allow you to see an underlying pattern of frequency in the data. [4]
    • For example, the average height of a professional baseball pitcher is 6’2”, but there will obviously be exceptions. Because the ranges of height will likely be between 5’6” and mid 6’6”, the bins should only vary by about an inch or two.
    • Another note on the ranges: the very first group may range from 5’6” to 5’8”, but it does not include 5’8”. Each group includes everything up to the beginning of the next group.
  4. If you want to know how many times an event occurred within a specific range, simply look at the top of the bar and read the value on the y-axis at that point. [5]
    • For example, looking at the histogram, the number of players in the range of 6’0” to just under 6’2” is 50.
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Part 2
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Graphing Histograms

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  1. If you want to gather data on the frequency of something, then graphing a histogram is a good way to look at your data. Whether you’re looking at the number of copies sold of a specific book or the weight distribution of cows on a farm, histograms are an easy way to get a broad picture of the overall pattern of the distribution of the data. [6]
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    Joseph Meyer

    Math Teacher
    Joseph Meyer is a High School Math Teacher based in Pittsburgh, Pennsylvania. He is an educator at City Charter High School, where he has been teaching for over 7 years. Joseph is also the founder of Sandbox Math, an online learning community dedicated to helping students succeed in Algebra. His site is set apart by its focus on fostering genuine comprehension through step-by-step understanding (instead of just getting the correct final answer), enabling learners to identify and overcome misunderstandings and confidently take on any test they face. He received his MA in Physics from Case Western Reserve University and his BA in Physics from Baldwin Wallace University.
    Joseph Meyer
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    Develop strong graphing skills. Drawing graphs by hand will help you develop foundational graphing skills, especially in understanding scales and axes. This will build a strong base for you to use helpful online tools to visualize complex relationships, perform calculations, and prepare for standardized tests.

  2. When plotting the data, you must first decide how you want to divide it up into ranges. You want to choose bins that will give you a good representation, so you don’t want them to be too broad or too specific. [7]
    • For example, let’s say you had 10 data points of the weight of cows on your farm: 1150, 1400, 1100, 1600, 1800, 1550, 1750, 1350, 1400, and 1300. These weights vary by hundreds of pounds, so you want your bins to vary by hundreds of pounds as well.
    • Set bins every 200 pounds, starting at 1100 pounds going up to 1900 pounds.
    • 1100-1300, 1300-1500, 1500-1700, 1700-1900 for a total of 4 bins.
  3. Once you have chosen your bins, you need to order and sort the data into these bins. Start by putting all of your values in ascending order. Then draw a line at the division of the bins. Count the number of values that fall into each bin. This number is the frequency of each range. [8]
    • Remember, if the value is equal to the boundary of a bin, it falls in the bin to the right.
    • For example, let’s say you had 10 data points of the weight of cows on your farm: 1150, 1400, 1100, 1600, 1800, 1550, 1650, 1350, 1400, and 1300.
    • Sorting them into ascending order: 1100, 1150, 1300, 1350, 1400, 1400, 1550, 1600, 1650, 1800
    • Divide them into bins: 1100, 1150| 1300, 1350, 1400, 1400| 1550, 1600, 1650| 1800
    • Count the frequencies: Bin 1: 2, Bin 2: 4, Bin 3: 3, Bin 4: 1
  4. You can construct your histogram by hand using the data you’ve sorted, or you can use a program such as Excel or another statistics program. To draw by hand, simply draw out an x- and y- axis and set the scale on each one. The x-axis will be set by the bins you’ve already chosen and the scale of the y-axis is set by the frequency data. Draw bars for each bin that go up to the frequency value associated with the bin. Color them in and make sure all of the bars are touching each other. [9]
    • For the weight of cows example, the x-axis will range from 1100- 1900 in increments of 200; the scale of the y-axis will range from 1 to 4 in increments of 1.
    • The first bin, 1100-1300, has a frequency of 2, so draw a bar up to 2 and color it in. Directly next to the first bar, draw the second bar for the second bin which has a frequency of 4. The third bar goes up to 3 and the final bar goes up to 1.
  5. No graph is complete without labeled axes. Make them large and bold so they stand out. Make sure the labels accurately represent the data being presented. The y-axis will be labeled frequency, while the x-axis label will depend on the type of data collected. [10]
    • For the example, the x-axis will be labeled something like “Weight of Cows in Pounds” and the y-axis will be labeled “Frequency”.
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    How do I determine which measure of center is the most appropriate for the distribution?
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    I am assuming you're talking about the measures of central tendency. From best to worst in terms of not allowing outliers to affect data accuracy - median, mean, mode.
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      About This Article

      Article Summary X

      To read a histogram, start by looking at the horizontal axis, called the x-axis, to see how the data is grouped. Then, look at the vertical axis, called the y-axis, to see how frequently the data occurs. For example, a histogram about the heights of pitchers in professional baseball will show an x-axis with the players’ heights, and a y-axis with the number of players who are those heights. In order to read the histogram, pick a height on the x-axis, and follow the top of the bar to the y-axis to see how many pitchers were of that height throughout the history of professional baseball. To learn how to graph a histogram, scroll down!

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