Lesson 14
Outliers
 Let’s investigate outliers and how to deal with them.
14.1: Health Care Spending
The histogram and box plot show the average amount of money, in thousands of dollars, spent on each person in the country (per capita spending) for health care in 34 countries.
 One value in the set is an outlier. Which one is it? What is its approximate value?
 By one rule for deciding, a value is an outlier if it is more than 1.5 times the IQR greater than Q3. Show on the box plot whether or not your value meets this definition of outlier.
14.2: Investigating Outliers
Here is the data set used to create the histogram and box plot from the warmup.
 1.0803
 1.0875
 1.4663
 1.7978
 1.9702
 1.9770
 1.9890
 2.1011
 2.1495
 2.2230
 2.5443
 2.7288
 2.7344
 2.8223
 2.8348
 3.2484
 3.3912
 3.5896
 4.0334
 4.1925
 4.3763
 4.5193
 4.6004
 4.7081
 4.7528
 4.8398
 5.2050
 5.2273
 5.3854
 5.4875
 5.5284
 5.5506
 6.6475
 9.8923
 Use technology to find the mean, standard deviation, and fivenumber summary.
 The maximum value in this data set represents the spending for the United States. Should the per capita health spending for the United States be considered an outlier? Explain your reasoning.

Although outliers should not be removed without considering their cause, it is important to see how influential outliers can be for various statistics. Remove the value for the United States from the data set.
 Use technology to calculate the new mean, standard deviation, and fivenumber summary.
 How do the mean, standard deviation, median, and interquartile range of the data set with the outlier removed compare to the same summary statistics of the original data set?
14.3: Origins of Outliers
 The number of property crime (such as theft) reports is collected for 50 colleges in California. Some summary statistics are given:
 15
 17
 27
 31
 33
 39
 39
 45
 46
 48
 49
 51
 52
 59
 72
 72
 75
 77
 77
 83
 86
 88
 91
 99
 103
 112
 136
 139
 145
 145
 175
 193
 198
 213
 230
 256
 258
 260
 288
 289
 337
 344
 418
 424
 442
 464
 555
 593
 699
 768
 mean: 191.1 reports
 minimum: 15 reports
 Q1: 52 reports
 median: 107.5 reports
 Q3: 260 reports
 maximum: 768 reports
 Are any of the values outliers? Explain or show your reasoning.
 If there are any outliers, why do you think they might exist? Should they be included in an analysis of the data?

The situations described here each have an outlier. For each situation, how would you determine if it is appropriate to keep or remove the outlier when analyzing the data? Discuss your reasoning with your partner.

A number cube has sides labelled 1–6. After rolling 15 times, Tyler records his data:
1, 1, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 5, 6, 20

The dot plot represents the distribution of the number of siblings reported by a group of 20 people.

In a science class, 11 groups of students are synthesizing biodiesel. At the end of the experiment, each group recorded the mass in grams of the biodiesel they synthesized. The masses of biodiesel are
0, 1.245, 1.292, 1.375, 1.383, 1.412, 1.435, 1.471, 1.482, 1.501, 1.532

Look back at some of the numerical data you and your classmates collected in the first lesson of this unit.

Are any of the values outliers? Explain or show your reasoning.

If there are any outliers, why do you think they might exist? Should they be included in an analysis of the data?
Summary
In statistics, an outlier is a data value that is unusual in that it differs quite a bit from the other values in the data set.
Outliers occur in data sets for a variety of reasons including, but not limited to:
 errors in the data that result from the data collection or data entry process
 results in the data that represent unusual values that occur in the population
Outliers can reveal cases worth studying in detail or errors in the data collection process. In general, they should be included in any analysis done with the data.
A value is an outlier if it is
 more than 1.5 times the interquartile range greater than Q3 (if \(x > \text{Q3 } + 1.5 \boldcdot \text{ IQR}\))
 more than 1.5 times the interquartile range less than Q1 (if \(x < \text{Q1 }  1.5 \boldcdot \text{ IQR}\))
In this box plot, the minimum and maximum are at least two outliers.
It is important to identify the source of outliers because outliers can impact measures of center and variability in significant ways. The box plot displays the resting heart rate, in beats per minute (bpm), of 50 athletes taken five minutes after a workout.
Some summary statistics include:
 mean: 69.78 bpm
 standard deviation: 10.71 bpm
 minimum: 55 bpm
 Q1: 62 bpm
 median: 70 bpm
 Q3: 76 bpm
 maximum: 112 bpm
It appears that the maximum value of 112 bpm may be an outlier. Since the interquartile range is 14 bpm (\(76  62 = 14\)) and \(\text{Q3 }+ 1.5 \boldcdot \text{ IQR } = 97\), we should label the maximum value as an outlier. Searching through the actual data set, it could be confirmed that this is the only outlier.
After reviewing the data collection process, it is discovered that the athlete with the heart rate measurement of 112 bpm was taken one minute after a workout instead of five minutes after. The outlier should be deleted from the data set because it was not obtained under the right conditions.
Once the outlier is removed, the box plot and summary statistics are:
 mean: 68.92 bpm
 standard deviation: 8.9 bpm
 minimum: 55 bpm
 Q1: 61 bpm
 median: 70 bpm
 Q3: 75.5 bpm
 maximum: 85 bpm
The mean decreased by 0.86 bpm and the median remained the same. The standard deviation decreased by 1.81 bpm which is about 17% of its previous value. Based on the standard deviation, the data set with the outlier removed shows much less variability than the original data set containing the outlier. Since the mean and standard deviation use all of the numerical values, removing one very large data point can affect these statistics in important ways.
The median remained the same after the removal of the outlier and the IQR increased slightly. These measures of center and variability are much more resistant to change than the mean and standard deviation. The median and IQR measure the middle of the data based on the number of values rather than the actual numerical values themselves, so the loss of a single value will not often have a great effect on these statistics.
The source of any possible errors should always be investigated. If the measurement of 112 beats per minute was found to be taken under the right conditions and merely included an athlete whose heart rate did not slow as much as the other athletes, it should not be deleted so that the data reflect the actual measurements. If the situation cannot be revisited to determine the source of the outlier, it should not be removed. To avoid tampering with the data and to report accurate results, data values should not be deleted unless they can be confirmed to be an error in the data collection or data entry process.
Glossary Entries
 outlier
A data value that is unusual in that it differs quite a bit from the other values in the data set. In the box plot shown, the minimum, 0, and the maximum, 44, are both outliers.
 standard deviation
A measure of the variability, or spread, of a distribution, calculated by a method similar to the method for calculating the MAD (mean absolute deviation). The exact method is studied in more advanced courses.
 statistic
A quantity that is calculated from sample data, such as mean, median, or MAD (mean absolute deviation).