1. Box & Whisker Plots

2. Objectives: 7.4.01 Collect, organize, analyze, and display data (including box plots and histograms) to solve problems. 7.4.02 Calculate, use, and interpret the mean, median, mode, range, frequency distribution, and interquartile range for a set of data. 7.4.03 Describe how the mean, median, mode, range, frequency distribution, and inter-quartile range of a set of data affect its graph. Essential Question: What is the purpose of organizing data sets into a box and whisker plot?

3. What is a Box & Whisker Plot: Box & Whisker Plots Lower Extreme (MIN) Lower Quartile (Q1) Median (Q2) Upper Quartile (Q3) Upper Extreme (MAX)

4. Vocabulary: Box & Whisker Plot: a diagram that summarizes data using the median, the upper and lower quartiles, and the extreme values. Upper Extreme: the greatest value in a set of data. Lower Extreme: the smallest value in a set of data. Upper Quartile: the median of the upper half of a set of data; UQ. Lower Quartile: the median of the lower half of a set of data; LQ. Interquartile Range: the range of the middle half of a set of data; UQ – LQ. Box & Whisker Plots

5. One More Example: Box & Whisker Plots

6. Why Box & Whisker Plots: - Box and whisker plots use the median, upper and lower quartiles, and the extreme (least and greatest) values to summarize data. - It allows you to see important characteristics of the data at a glance. - Even though they can be difficult to create, they can provide a great amount of important information. Box & Whisker Plots

7. Example 1: Nutrition Facts The grams of fat per serving of items from the meat, poultry, and fish food group are shown in the table. Make a box-and-whisker plot of the data. 7Tuna18Ground Beef 9Trout10Fried Shrimp 9Sardines 3Fish Sticks 5Salmon 3Crabmeat 5Roast Beef16Bologna 19Pork Chop15Beefsteak 14Ham 9Bacon Fat (gm)ItemFat (gm)Item

8. Box & Whisker Plots Example 1: Nutrition Facts 3, 3, 5, 5, 7, 9, 9, 9, 10, 14, 15, 16, 18, 19 Step 2: Find the Median, L/U Quartiles, and L/U Extremes. Step 1: Order the data from least to greatest. Median: 9 Lower Quartile is median of lower half = 5 Upper Quartile is median of upper half = 15 Lower Extreme: 3 Upper Extreme: 19 FatFat 914 1519 165 35 39 109 187

9. Box & Whisker Plots Example 1: Nutrition Facts Step 4: Find the median and the quartiles. Step 3: Draw a number line. The scale should include the median, the quartiles, and the lower and upper extremes. Graph the values as points above the.

10. Box & Whisker Plots Example 1: Nutrition Facts The graph shows that half of the foods have between 3 and 9 grams of fat. The largest range of the four quartiles is from 9 to 15. One-fourth of the foods were within this range.

11. Box & Whisker Plots Example 2: NHL Leading Scorers The table shows the ten all-time leading scorers in the National Hockey League through a recent season. Make a box-and-whisker plot of the data. Then use it to describe how the data are spread. PlayerGoalsPlayerGoals Wayne Gretzky 894 Steve Yzerman 645 Gordie Howe 801 Phil Esposito 717 Marcel Dionne 731 Ray Bourque 410 Mark Messier 627 Mario Lemieux 648 Ron Francis 487 Paul Coffey 396

12. Box & Whisker Plots Example 2: NHL Leading Scorers 396, 410, 487, 627, 645, 648, 717, 731, 801, 894 Step 2: Find the Median, Quartiles, Extremes. Step 1: Order the data from least to greatest. Median: 646.5 Lower Quartile is Median of lower half = 487 Upper Quartile is Median of upper half = 731 GoalsGoals 894645 801717 731410 627648 487396 Lower Extreme: 396 Upper Extreme: 894

13. Box & Whisker Plots Example 2: NHL Leading Scorers Step 4: Find the median and the quartiles. Step 3: Draw a number line. The scale should include the median, the quartiles, and the lower and upper extremes. Graph the values as points above the.

14. Box & Whisker Plots Example 2: NHL Leading Scorers The graph shows that half of the players scored between 487 and 731 points. The largest range of the four quartiles is from 731 to 894. One-fourth of the players scored within this range.

15. Independent Practice Problems: Box & Whisker Plots The table below shows the commute time from home to school for fifteen middle school students. Make a box-and-whisker plot of the data. Then use it to describe how the data are spread. Student Commute Time 25 14 7 18 10 46 21 5 11 18 23 17 9 13 12 The graph shows that half of the students travel between 10 and 21 minutes. The largest range of the four quartiles is from 21 to 46.

16. Independent Practice Problems: Box & Whisker Plots Twelve members of the music club sold candy bars as a fund-raiser. The table shows the number of candy bars sold by each person. Make a box-and- whisker plot of the data. 55395446 53814651 60276923 Candy Sold Per Student

17. Why Calculate Outliers: Box & Whisker Plots - First, remember that statistics assume all our data values are clustered around some central value - For a box and whisker plot, the IQR tells how spread out the "middle" values are - But it can also be used to tell when some of the other values are "too far" from the central value - Any value that is "too far away" is called an "outlier," because it "lies outside" the range in which we expect it to be

18. Calculating Outliers Box & Whisker Plots If we want to determine whether a data point is an outlier, we have to do the following: Step 1: Calculate the Interquartile Range (IQR) for our stem and Leaf Plot. IQR = Q 3 – Q 1 Step 2: Take the Interquartile Range (IQR) and multiply it by 1.5. IQR x 1.5 Step 3: Find: Q 1 – (IQR x 1.5) AND Q 3 + (IQR x 1.5) Q 1 – (IQR x 1.5) AND Q 3 + (IQR x 1.5)

19. Box & Whisker Plots Example 2: NHL Leading Scorers 396, 410, 487, 627, 645, 648, 710, 731, 801, 894 Looking back at this data set we can determine if any outliers exist Median: 646.5 Lower Quartile is Median of lower half = 487 Upper Quartile is Median of upper half = 731 GoalsGoals 894645 801717 731410 627648 487396 Lower Extreme: 396 Upper Extreme: 894

20. Box & Whisker Plots Example 2: NHL Leading Scorers Looking back at this data set we can determine if any outliers exist. GoalsGoals 894645 801717 731410 627648 487396 LE = 396 LQ (Q 1 ) = 487 M = 646.5 UQ (Q 3 ) = 731 UE = 894 IQR = Q3 – Q1 IQR = 731 – 487 IQR = 244 IQR x 1.5 = 244 x 1.5 = 366 487 – 366 121 731 + 366 1097

21. Box & Whisker Plots Example 3: Box & Whisker Plots (Additional) Use a stem and leaf plot to graph the following test scores from a recent math test in Mr. Blue’s class: 76, 76, 76, 77, 80, 80, 80, 81, 81, 82, 84, 85, 88, 89, 89, 89, 89, and 92

22. Box & Whisker Plots Example 4: Stem & Leaf Plots (Additional) The set of data listed below shows the number of home runs Babe Ruth hit during his career from 1914 to 1935. Make a box and whisker plot of the data. Then use it to describe how the data are spread. Home Run Data: 0, 54, 25, 46, 4, 59, 47, 41, 3, 35, 60, 34, 2, 41, 54, 6, 11, 22, 46, 29, 46, and 49.

23. Box & Whisker Plots Example 4: Stem & Leaf Plots (Additional) Home Run Data: 0, 54, 25, 46, 4, 59, 47, 41, 3, 35, 60, 34, 2, 41, 54, 6, 11, 22, 46, 29, 46, and 49.

24. HOMEWORK Box & Whisker Plots

25. Example 5: Applying Box & Whisker Plots Now lets use the Percents Test Data to create a Box and Whisker Plot of the data and then use it to describe the spread of the data. BOYS SCORES 99, 36, 16, 23, 69, 58, 59, 21, 53, 19, 21, 82, 30, 85, 70, 81, 66, 42, 53, 52, 22, 56, 43, 57, 88, 80, 53, 86, 64, 84, 68, 79, 57, and 82 GIRLS SCORES 73, 37, 61, 53, 37, 38, 24, 30, 75, 93, 65, 85, 60, 92, 80, 56, 80, 65, 77, 64, 95, 99, 82, 75, 94, 98, 63, 58, 69, 56, 95, 77, and 45

26. Stem & Leaf vs. Box & Whisker Leaf (Girls Data)Stem Leaf (Boys Data) 01234567894 0 7 7 8 5 3 6 6 8 0 1 3 4 5 5 9 3 5 5 7 7 0 0 2 5 2 3 4 5 5 8 9 9 6 3 2 1 1 6 0 3 2 9 8 7 7 6 3 3 3 2 9 8 6 4 9 0 8 6 5 4 2 2 1 0 9