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Barnett/Ziegler/Byleen Finite Mathematics 11e1 Learning Objectives for Section 11.2 Measures of Central Tendency The student will be able to calculate.

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Presentation on theme: "Barnett/Ziegler/Byleen Finite Mathematics 11e1 Learning Objectives for Section 11.2 Measures of Central Tendency The student will be able to calculate."— Presentation transcript:

1 Barnett/Ziegler/Byleen Finite Mathematics 11e1 Learning Objectives for Section 11.2 Measures of Central Tendency The student will be able to calculate the mean of a distribution. The student will be able to identify the median of a distribution. The student will be able to identify the mode of a distribution.

2 Barnett/Ziegler/Byleen Finite Mathematics 11e2 11.2 Measures of Central Tendency In this section, we will study three measures of central tendency: the mean, the median and the mode. Each of these values determines the “center” or middle of a set of data.

3 Barnett/Ziegler/Byleen Finite Mathematics 11e3 Mean Most common Definition: the mean is the sum of the numbers divided by number of numbers Notation: Example: The salaries of 5 employees (in thousands) are 14, 17, 21, 18, 15. Find the mean.

4 Barnett/Ziegler/Byleen Finite Mathematics 11e4 Mean Most common Definition: the mean is the sum of the numbers divided by number of numbers Notation: Example: The salaries of 5 employees (in thousands) are 14, 17, 21, 18, 15. Find the mean. Solution: Sum = (14 + 17 + 21 + 18 + 15) = 85 Number of numbers: 5 Divide 85 by 5 = 17. The average salary is $17,000

5 Barnett/Ziegler/Byleen Finite Mathematics 11e5 Mean as Center of Gravity We will represent each data value on a “teeter-totter” in the following slide. The teeter-totter serves as a number line. You can think of each point's deviation from the mean as the influence the point exerts on the tilt of the teeter-totter. Positive values push down on the right side; negative values push down on the left side. The farther a point is from the fulcrum, the more influence it has. Note that the mean deviation of the scores from the mean is always zero. That is why the teeter-totter is in balance when the fulcrum is at the mean. This makes the mean the center of gravity for all the data points.

6 Barnett/Ziegler/Byleen Finite Mathematics 11e6 Mean as Center of Gravity (continued) Data balances at 17. Sum of the deviations from mean equals zero. (-3 + -2 + 0 + 1 + 4 = 0 ). 14 15 17 18 21 -3 -2 -1 0 1 2 3 4

7 Barnett/Ziegler/Byleen Finite Mathematics 11e7 Mean for Grouped Data To find the mean for grouped data, find the midpoint of each class by adding the lower class limit to the upper class limit and dividing by 2. For example, the midpoint of the class [0,7) is (0 + 7)/2 = 3.5. Multiply the midpoint value by the frequency of the class. Find the sum of the products of x and f. Divide this sum by the total frequency.

8 Barnett/Ziegler/Byleen Finite Mathematics 11e8 Mean for Grouped Data Example classmidpoint xfrequency f [0,7)3.50 [7,14)10.52 [14,21)17.510 [21,28)24.521 [28,35)31.523 [35,42)38.514 [42,49)45.55 Find the mean of the distribution given in the following table:

9 Barnett/Ziegler/Byleen Finite Mathematics 11e9 Mean for Grouped Data Example (continued) classmidpoint xfrequency f xf xf [0,7)3.500 [7,14)10.5221 [14,21)17.510175 [21,28)24.521514.5 [28,35)31.523724.5 [35,42)38.514539 [42,49)45.55227.5 total752201.5 mean29.3533

10 Barnett/Ziegler/Byleen Finite Mathematics 11e10 Median The mean is not always the best measure of central tendency especially when the data has one or more “outliers” (numbers which are unusually large or unusually small and not representative of the data as a whole). Definition: The median of a data set is the number that divides the bottom 50% of data from top 50% of data. To obtain the median: Arrange the data in ascending order With n data points, the position of the median is

11 Barnett/Ziegler/Byleen Finite Mathematics 11e11 Median Example 1 Example: Find the median of the data set 14, 17, 21, 18, 15

12 Barnett/Ziegler/Byleen Finite Mathematics 11e12 Median Example 1 Solution Example: Find the median of the data set 14, 17, 21, 18, 15 Solution: 1. Arrange data in order: 14, 15, 17, 18, 21 2. Determine the location of the median: (5+1)/2 = 3. 3. Count from the left until you reach the number in the third position (17). 4. The value of the median is 17.

13 Barnett/Ziegler/Byleen Finite Mathematics 11e13 Median Example 2 This example illustrates the case when the number of observations is an even number. The value of the median in this case will not be one of the original pieces of data. Example: Determine the median of the data set 14, 15, 17, 19, 23, 25

14 Barnett/Ziegler/Byleen Finite Mathematics 11e14 Median Example 2 Solution This example illustrates the case when the number of observations is an even number. The value of the median in this case will not be one of the original pieces of data. Example: Determine the median of the data set 14, 15, 17, 19, 23, 25 Solution: 1. Data is already arranged in order. 2. Determine the position of the median: (6+1)/2 = 3.5 3. Take the average of the 3 rd and 4 th data value. 4. (17+19)/2 = 18. Thus, the median is 18.

15 Barnett/Ziegler/Byleen Finite Mathematics 11e15 Which is better? Median or Mean? The yearly salaries of 5 employees of a small company are 19, 23, 25, 26, and 57 (in thousands). 1. Find the mean salary 2. Find the median salary 3. Which measure is more appropriate and why?

16 Barnett/Ziegler/Byleen Finite Mathematics 11e16 Which is better? Median or Mean? The yearly salaries of 5 employees of a small company are 19, 23, 25, 26, and 57 (in thousands). 1. Find the mean salary 30 2. Find the median salary 25 3. Which measure is more appropriate and why? Answer: The median is better since the mean is skewed (affected) by the outlier 57.

17 Barnett/Ziegler/Byleen Finite Mathematics 11e17 Properties of the Mean 1. Mean takes into account all values 2. Mean is sensitive to extreme values (outliers) 3. Mean is called a non-resistant measure of central tendency since it is affected by extreme values. 4. Population mean = mean of all values of the population 5. Sample mean = mean of sample data 6. Mean of a representative sample tends to best estimate the mean of population (for repeated sampling)

18 Barnett/Ziegler/Byleen Finite Mathematics 11e18 Properties of the Median 1. Not sensitive to extreme values; resistant measure of central tendency 2. Takes into account only the middle value of a data set or the average of the two middle values. 3.Should be used for data sets that have outliers, such as personal income, or prices of homes in a city.

19 Barnett/Ziegler/Byleen Finite Mathematics 11e19 Mode Definition: the mode is the most frequently occurring value in a data set. To obtain mode, find the frequency of occurrence of each value and then note the value that has the greatest frequency. If the greatest frequency is 1, then the data set has no mode. If two values occur with the same greatest frequency, then we say the data set is bimodal.

20 Barnett/Ziegler/Byleen Finite Mathematics 11e20 Example of Mode Example 1: Find the mode of the following data set: 45, 47, 68, 70, 72, 72, 73, 75, 98, 100 Example 2: Shorts are classified as small, medium, large, and extra large. A store has on hand 12 small, 15 medium, 17 large and 8 extra large pairs of shorts. Find the mode.

21 Barnett/Ziegler/Byleen Finite Mathematics 11e21 Example of Mode Solution Example 1: Find the mode of the following data set: 45, 47, 68, 70, 72, 72, 73, 75, 98, 100 Answer: The mode is 72. Example 2: Shorts are classified as small, medium, large, and extra large. A store has on hand 12 small, 15 medium, 17 large and 8 extra large pairs of shorts. Find the mode. Solution: The mode is Large. This is the modal class (the class with the greatest frequency. It would not make sense to find the mean or median for nominal data.

22 Barnett/Ziegler/Byleen Finite Mathematics 11e22 Median for Grouped Data Definition: The median for grouped data with no classes of frequency 0 is the number such that the histogram has the same area to the left of the median as to the right of the median. Dashed line represents the median

23 Barnett/Ziegler/Byleen Finite Mathematics 11e23 Median for Grouped Data Example Example: Compute the median for the grouped data in the table. Class IntervalFrequency 3.5-4.53 4.5-5.51 5.5-6.52 6.5-7.54 7.5-8.53 8.5-9.52

24 Barnett/Ziegler/Byleen Finite Mathematics 11e24 Median for Grouped Data Example Class IntervalFrequencyCumulative Frequency 3.5-4.533 4.5-5.514 5.5-6.526 6.5-7.5410 7.5-8.5313 8.5-9.5215 Solution: First, add a cumulative frequency column.

25 Barnett/Ziegler/Byleen Finite Mathematics 11e25 Median for Grouped Data Example (continued) The total area is 15. Half the area is 15/2 = 7.5. The half-way point is somewhere in the interval [6.5,7.5], since the total area goes from 6 to 10 in that interval. If the median is M, the area to the left of the median M must be 7.5: (1)(3) + (1)(1) + (1)(2) + (M-6.5)(4) = 7.5 3 + 1 + 2 + 4M - 26 = 7.5 4M - 20 = 7.5 4M = 27.5 M = 6.875 The median for the grouped data in the table is 6.875.

26 Barnett/Ziegler/Byleen Finite Mathematics 11e26 Median for Grouped Data Example (continued) 4 5 6 7 8 9 10 M = median

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