4.2 Shapes of Distributions LEARNING GOAL Be able to describe the general shape of a distribution in terms of its number of modes, skewness, and variation. Page 157
Heights of 30 people a) How many people have heights between 159.5 and 169.5 cm? b) How many people have heights less than 159.5 cm? c) How many people have heights more than 169.5 cm? d) What percentage of people have heights between 149.5 and 179.5 cm? e) Where is the mode of the heights in the histogram? g) Where is the median of the heights in the histogram? f) Where is the mean of the height in the histogram?
Because we are interested primarily in the general shapes of distributions, it’s often easier to examine graphs that show smooth curves rather than the original data sets. Page 157 Figure 4.3 The smooth curves approximate the shapes of the distributions. Slide 4.2- 3
Number of Modes Figure 4.4 Figure 4.4a shows a distribution, called a uniform distribution, that has no mode because all data values have the same frequency. Pages 157-8 Figure 4.4b shows a distribution with a single peak as its mode. It is called a single-peaked, or unimodal, distribution. Slide 4.2- 4
Number of Modes Figure 4.4 By convention, any peak in a distribution is considered a mode, even if not all peaks have the same height. For example, the distribution in Figure 4.4c is said to have two modes—even though the second peak is lower than the first; it is a bimodal distribution. Pages 157-8 Similarly, the distribution in Figure 4.4d is said to have three modes; it is a trimodal distribution. Slide 4.2- 5
Symmetry or Skewness A distribution is symmetric if its left half is a mirror image of its right half. Figure 4.6 These distributions are all symmetric because their left halves are mirror images of their right halves. Note that (a) and (b) are single-peaked (unimodal), whereas (c) is triple-peaked (trimodal). Page 159 Slide 4.2- 6
A distribution that is not symmetric must have values that tend to be more spread out on one side than on the other. In this case, we say that the distribution is skewed. Page 159 Figure 4.7 (a) Skewed to the left (left-skewed): The mean and median are less than the mode. (b) Skewed to the right (right-skewed): The mean and median are greater than the mode. (c) Symmetric distribution: The mean, median, and mode are the same. Slide 4.2- 7
Definitions A distribution is symmetric if its left half is a mirror image of its right half. A distribution is left-skewed if its values are more spread out on the left side. A distribution is right-skewed if its values are more spread out on the right side. Page 160 Slide 4.2- 8
the median or the mean? Why? TIME OUT TO THINK Which is a better measure of “average” (or of the center of the distribution) for a skewed distribution: the median or the mean? Why? Page 160 Slide 4.2- 9
a. Heights of a sample of 100 women EXAMPLE 2 Skewness For each of the following situations, state whether you expect the distribution to be symmetric, left-skewed, or right-skewed. Explain. a. Heights of a sample of 100 women b. Family income in the United States c. Speeds of cars on a road where a visible patrol car is using radar to detect speeders Solution: Page 160 Slide 4.2- 10
Variation Definition Variation describes how widely data are spread out about the center of a data set. Pages 160-61 Figure 4.8 From left to right, these three distributions have increasing variation. Slide 4.2- 11
EXAMPLE 3 Variation in Marathon Times How would you expect the variation to differ between times in the Olympic marathon and times in the New York City marathon? Explain. Hint: The variation among the times should be greater in ______________ than in ____________________________. Page 161 Slide 4.2- 12