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Chapter4
1.
© 2008 Brooks/Cole,
a division of1 Chapter 4 Numerical Methods for Describing Data
2.
© 2008 Brooks/Cole,
a division of2 Describing the Center of a Data Set with the arithmetic mean 1 2 n sum of all observations in the sample x number of observations in the sample x x x x n n = + + + = = âL The sample mean of a numerical sample, x1, x2, x3,âŠ, xn, denoted , is The sample mean of a numerical sample, x1, x2, x3,âŠ, xn, denoted , is
3.
© 2008 Brooks/Cole,
a division of3 Describing the Center of a Data Set with the arithmetic mean The population mean is denoted by ”, is the average of all x values in the entire population.
4.
© 2008 Brooks/Cole,
a division of4 The âaverageâ or mean price for this sample of 10 houses in Fancytown is $295,000 Example calculations During a two week period 10 houses were sold in Fancytown. x 2,950,000 x n 10 295,000 = = = âHouse Price in Fancytown x 231,000 313,000 299,000 312,000 285,000 317,000 294,000 297,000 315,000 287,000 2,950,000x =â
5.
© 2008 Brooks/Cole,
a division of5 Example calculations During a two week period 10 houses were sold in Lowtown. The âaverageâ or mean price for this sample of 10 houses in Lowtown is $295,000 Outlier House Price in Lowtown x 97,000 93,000 110,000 121,000 113,000 95,000 100,000 122,000 99,000 2,000,000 2,950,000x =â x 2,950,000 x n 10 295,000 = = = â
6.
© 2008 Brooks/Cole,
a division of6 Reflections on the Sample calculations Looking at the dotplots of the samples for Fancytown and Lowtown we can see that the mean, $295,000 appears to accurately represent the âcenterâ of the data for Fancytown, but it is not representative of the Lowtown data. Clearly, the mean can be greatly affected by the presence of even a single outlier. Outlier
7.
© 2008 Brooks/Cole,
a division of7 Comments 1. In the previous example of the house prices in the sample of 10 houses from Lowtown, the mean was affected very strongly by the one house with the extremely high price. 2. The other 9 houses had selling prices around $100,000. 3. This illustrates that the mean can be very sensitive to a few extreme values.
8.
© 2008 Brooks/Cole,
a division of8 Describing the Center of a Data Set with the median The sample median is obtained by first ordering the n observations from smallest to largest (with any repeated values included, so that every sample observation appears in the ordered list). Then the single middle value if n is odd sample median= the mean of the middle two values if n is even ïŁ± ïŁČ ïŁł
9.
© 2008 Brooks/Cole,
a division of9 Consider the Fancytown data. First, we put the data in numerical increasing order to get 231,000 285,000 287,000 294,000 297,000 299,000 312,000 313,000 315,000 317,000 Since there are 10 (even) data values, the median is the mean of the two values in the middle. 297000 299000 median $298,000 2 + = = Example of Median Calculation
10.
© 2008 Brooks/Cole,
a division of10 Example of Median Calculation Consider the Lowtown data. We put the data in numerical increasing order to get 93,000 95,000 97,000 99,000 100,000 110,000 113,000 121,000 122,000 2,000,000 Since there are 10 (even) data values, the median is the mean of the two values in the middle. 297000 299000 median $298,000 2 + = =
11.
© 2008 Brooks/Cole,
a division of11 Comparing the Sample Mean & Sample Median
12.
© 2008 Brooks/Cole,
a division of12 Comparing the Sample Mean & Sample Median
13.
© 2008 Brooks/Cole,
a division of13 Comparing the Sample Mean & Sample Median Typically, 1. when a distribution is skewed positively, the mean is larger than the median, 2. when a distribution is skewed negatively, the mean is smaller then the median, and 3. when a distribution is symmetric, the mean and the median are equal. Notice from the preceding pictures that the median splits the area in the distribution in half and the mean is the point of balance.
14.
© 2008 Brooks/Cole,
a division of14 The Trimmed Mean A trimmed mean is computed by first ordering the data values from smallest to largest, deleting a selected number of values from each end of the ordered list, and finally computing the mean of the remaining values. The trimming percentage is the percentage of values deleted from each end of the ordered list.
15.
© 2008 Brooks/Cole,
a division of15 Example of Trimmed Mean House Price in Fancytown 231,000 285,000 287,000 294,000 297,000 299,000 312,000 313,000 315,000 317,000 2,950,000 291,000 295,000 300,250 2,402,000 Sum of the eight middle values is Divide this value by 8 to obtain the 10% trimmed mean. x =â x = median = 10% Trim Mean =
16.
© 2008 Brooks/Cole,
a division of16 Example of Trimmed Mean House Price in Lowtown 93,000 95,000 857,000 97,000 99,000 100,000 110,000 113,000 121,000 122,000 2,000,000 2,950,000 295,000 105,000 107,125 Divide this value by 8 to obtain the 10% trimmed mean. Sum of the eight middle values is x =â x = median = 10% Trim Mean =
17.
© 2008 Brooks/Cole,
a division of17 Another Example Hereâs an example of what happens if you compute the mean, median, and 5% & 10% trimmed means for the Ages for the 79 students taking Data Analysis
18.
© 2008 Brooks/Cole,
a division of18 Categorical Data - Sample Proportion The sample proportion of successes, denoted by p, is Where S is the label used for the response designated as success. The population proportion of successes is denoted by Ï. p sample proportion of successes number of S's in the sample n = = The sample proportion of successes, denoted by p, is Where S is the label used for the response designated as success. The population proportion of successes is denoted by Ï. p sample proportion of successes number of S's in the sample n = =
19.
© 2008 Brooks/Cole,
a division of19 If we look at the student data sample, consider the variable gender and treat being female as a success, we have 25 of the sample of 79 students are female, so the sample proportion (of females) is Categorical Data - Sample Proportion 25p 0.316 79 = =
20.
© 2008 Brooks/Cole,
a division of20 Describing Variability The simplest numerical measure of the variability of a numerical data set is the range, which is defined to be the difference between the largest and smallest data values. range = maximum - minimum
21.
© 2008 Brooks/Cole,
a division of21 Describing Variability The n deviations from the sample mean are the differences: Note: The sum of all of the deviations from the sample mean will be equal to 0, except possibly for the effects of rounding the numbers. This means that the average deviation from the mean is always 0 and cannot be used as a measure of variability. 1 2 2 nx x,x x, x x, ,x x,â â â âK
22.
© 2008 Brooks/Cole,
a division of22 Sample Variance The sample variance, denoted s2 is the sum of the squared deviations from the mean divided by n-1. 2 2 xx (x x) S s n 1 n 1 â = = â â â ( ) 2 2 2 xx 1 2 n 2 S (x x) (x x) (x x) x x = â + â + + â = ââ KNote: ( ) 2 2 2 xx 1 2 n 2 S (x x) (x x) (x x) x x = â + â + + â = ââ KNote:
23.
© 2008 Brooks/Cole,
a division of23 Sample Standard Deviation The sample standard deviation, denoted s is the positive square root of the sample variance. The population standard deviation is denoted by Ï. 2 2 xx (x x) S s s n 1 n 1 â = = = â â â
24.
© 2008 Brooks/Cole,
a division of24 Example calculations 10 Macintosh Apples were randomly selected and weighed (in ounces). Range 8.48 6.24 2.24= â = x 74.24 x 7.424 n 10 = = = â 2 2 (x x) 5.5398 s n 1 10 1 5.5398 0.61554 9 â = = â â = = â s= 0.61554 0.78456= x 7.52 0.096 0.0092 8.48 1.056 1.1151 7.36 -0.064 0.0041 6.24 -1.184 1.4019 7.68 0.256 0.0655 6.56 -0.864 0.7465 6.40 -1.024 1.0486 8.16 0.736 0.5417 7.68 0.256 0.0655 8.16 0.736 0.5417 74.24 0.000 5.5398 x xâ 2 (x x)â
25.
© 2008 Brooks/Cole,
a division of25 Calculator Formula for s2 and s A computational formula for the sample variance is given by A little algebra can establish the sum of the square deviations, ( ) 2 2 2 xx x S (x x) x n = â = â ââ â ( ) 2 2 2 xx x xS ns n 1 n 1 â = = â â ââ
26.
© 2008 Brooks/Cole,
a division of26 Calculations Revisited The values for s2 and s are exactly the same as were obtained earlier. x x2 7.52 56.5504 8.48 71.9104 7.36 54.1696 6.24 38.9376 7.68 58.9824 6.56 43.0336 6.40 40.9600 8.16 66.5856 7.68 58.9824 8.16 66.5856 74.24 556.6976 2 n 10, x 74.24, x 556.6976= = =â â ( ) 2 2 xx 2 x S x n (74.24) 556.6976 5.53984 10 = â = â = ââ 2 5.53984 s 0.615538 9 = = s 0.615538 0.78456= =
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© 2008 Brooks/Cole,
a division of27 Quartiles and the Interquartile Range Lower quartile (Q1) = median of the lower half of the data set. Upper Quartile (Q3) = median of the upper half of the data set. Note: If n is odd, the median is excluded from both the lower and upper halves of the data. The interquartile range (iqr), a resistant measure of variability is given by iqr = upper quartile â lower quartile = Q3 â Q1
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© 2008 Brooks/Cole,
a division of28 Quartiles and IQR Example 15 students with part time jobs were randomly selected and the number of hours worked last week was recorded. 2, 4, 7, 8, 9, 10, 10, 10, 11, 12, 12, 14, 15, 19, 25 19, 12, 14, 10, 12, 10, 25, 9, 8, 4, 2, 10, 7, 11, 15 The data is put in increasing order to get
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© 2008 Brooks/Cole,
a division of29 With 15 data values, the median is the 8th value. Specifically, the median is 10. 2, 4, 7, 8, 9, 10, 10, 10, 11, 12, 12, 14, 15, 19, 25 Median Lower Half Upper Half Lower quartile Q1 Upper quartile Q3 Lower quartile = 8 Upper quartile = 14 Iqr = 14 - 8 = 6 Quartiles and IQR Example
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© 2008 Brooks/Cole,
a division of30 Boxplots Constructing a Skeletal Boxplot 1. Draw a horizontal (or vertical) scale. 2. Construct a rectangular box whose left (or lower) edge is at the lower quartile and whose right (or upper) edge is at the upper quartile (the box width = iqr). Draw a vertical (or horizontal) line segment inside the box at the location of the median. 3. Extend horizontal (or vertical) line segments from each end of the box to the smallest and largest observations in the data set. (These lines are called whiskers.)
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© 2008 Brooks/Cole,
a division of31 Skeletal Boxplot Example Using the student work hours data we have 0 5 10 15 20 25
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© 2008 Brooks/Cole,
a division of32 Outliers An observations is an outlier if it is more than 1.5 iqr away from the closest end of the box (less than the lower quartile minus 1.5 iqr or more than the upper quartile plus 1.5 iqr. An outlier is extreme if it is more than 3 iqr from the closest end of the box, and it is mild otherwise.
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© 2008 Brooks/Cole,
a division of33 Modified Boxplots A modified boxplot represents mild outliers by shaded circles and extreme outliers by open circles. Whiskers extend on each end to the most extreme observations that are not outliers.
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© 2008 Brooks/Cole,
a division of34 Modified Boxplot Example Using the student work hours data we have 0 5 10 15 20 25 Lower quartile + 1.5 iqr = 14 - 1.5(6) = -1 Upper quartile + 1.5 iqr = 14 + 1.5(6) = 23 Smallest data value that isnât an outlier Largest data value that isnât an outlier Upper quartile + 3 iqr = 14 + 3(6) = 32 Mild Outlier
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© 2008 Brooks/Cole,
a division of35 Modified Boxplot Example Consider the ages of the 79 students from the classroom data set from the slideshow Chapter 3. Iqr = 22 â 19 = 3 17 18 18 18 18 18 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 20 20 20 20 20 20 20 20 20 20 21 21 21 21 21 21 21 21 21 21 21 21 21 21 22 22 22 22 22 22 22 22 22 22 22 23 23 23 23 23 23 24 24 24 25 26 28 28 30 37 38 44 47 Median Lower Quartile Upper Quartile Moderate Outliers Extreme Outliers Lower quartile â 3 iqr = 10 Lower quartile â 1.5 iqr =14.5 Upper quartile + 3 iqr = 31 Upper quartile + 1.5 iqr = 26.5
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© 2008 Brooks/Cole,
a division of36 Smallest data value that isnât an outlier Largest data value that isnât an outlier Mild Outliers Extreme Outliers 15 20 25 30 35 40 45 50 Modified Boxplot Example Here is the modified boxplot for the student age data.
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© 2008 Brooks/Cole,
a division of37 Modified Boxplot Example 50 45 40 35 30 25 20 15 Here is the same boxplot reproduced with a vertical orientation.
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© 2008 Brooks/Cole,
a division of38 Comparative Boxplot Example 100 120 140 160 180 200 220 240 Females MalesG e n d e r Student Weight By putting boxplots of two separate groups or subgroups we can compare their distributional behaviors. Notice that the distributional pattern of female and male student weights have similar shapes, although the females are roughly 20 lbs lighter (as a group).
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© 2008 Brooks/Cole,
a division of39 Comparative Boxplot Example Male Female 50 40 30 20 Gender Age Boxplots of Age by Gender (means are indicated by solid circles)red
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© 2008 Brooks/Cole,
a division of40 Interpreting Variability Chebyshevâs Rule 2 1 100 1 % k ïŁ« ïŁ¶ âïŁŹ ïŁ· ïŁ ïŁž Chebyshevâs Rule Consider any number k, where k â„ 1. Then the percentage of observations that are within k standard deviations of the mean is at least . 2 1 100 1 % k ïŁ« ïŁ¶ âïŁŹ ïŁ· ïŁ ïŁž Chebyshevâs Rule Consider any number k, where k â„ 1. Then the percentage of observations that are within k standard deviations of the mean is at least .
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© 2008 Brooks/Cole,
a division of41 For specific values of k Chebyshevâs Rule reads ïAt least 75% of the observations are within 2 standard deviations of the mean. ï At least 89% of the observations are within 3 standard deviations of the mean. ï At least 90% of the observations are within 3.16 standard deviations of the mean. ï At least 94% of the observations are within 4 standard deviations of the mean. ï At least 96% of the observations are within 5 standard deviations of the mean. ï At least 99% of the observations are with 10 standard deviations of the mean. Interpreting Variability Chebyshevâs Rule
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© 2008 Brooks/Cole,
a division of42 Consider the student age data Example - Chebyshevâs Rule 17 18 18 18 18 18 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 20 20 20 20 20 20 20 20 20 20 21 21 21 21 21 21 21 21 21 21 21 21 21 21 22 22 22 22 22 22 22 22 22 22 22 23 23 23 23 23 23 24 24 24 25 26 28 28 30 37 38 44 47 Color code: within 1 standard deviation of the mean within 2 standard deviations of the mean within 3 standard deviations of the mean within 4 standard deviations of the mean within 5 standard deviations of the mean
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© 2008 Brooks/Cole,
a division of43 Summarizing the student age data Example - Chebyshevâs Rule Interval Chebyshevâs Actual within 1 standard deviation of the mean â„ 0% 72/79 = 91.1% within 2 standard deviations of the mean â„ 75% 75/79 = 94.9% within 3 standard deviations of the mean â„ 88.8% 76/79 = 96.2% within 4 standard deviations of the mean â„ 93.8% 77/79 = 97.5% within 5 standard deviations of the mean â„ 96.0% 79/79 = 100% Notice that Chebyshev gives very conservative lower bounds and the values arenât very close to the actual percentages.
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© 2008 Brooks/Cole,
a division of44 Empirical Rule If the histogram of values in a data set is reasonably symmetric and unimodal (specifically, is reasonably approximated by a normal curve), then 1. Approximately 68% of the observations are within 1 standard deviation of the mean. 2. Approximately 95% of the observations are within 2 standard deviation of the mean. 3. Approximately 99.7% of the observations are within 3 standard deviation of the mean.
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© 2008 Brooks/Cole,
a division of45 Z Scores The z score is how many standard deviations the observation is from the mean. A positive z score indicates the observation is above the mean and a negative z score indicates the observation is below the mean. The z score corresponding to a particular observation in a data set is observation meanzscore standard deviation â= The z score corresponding to a particular observation in a data set is observation meanzscore standard deviation â=
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© 2008 Brooks/Cole,
a division of46 Computing the z score is often referred to as standardization and the z score is called a standardized score. Z Scores x xz score s â= The formula used with sample data is x xz score s â= The formula used with sample data is
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© 2008 Brooks/Cole,
a division of47 Example A sample of GPAs of 38 statistics students appear below (sorted in increasing order) 2.00 2.25 2.36 2.37 2.50 2.50 2.60 2.67 2.70 2.70 2.75 2.78 2.80 2.80 2.82 2.90 2.90 3.00 3.02 3.07 3.15 3.20 3.20 3.20 3.23 3.29 3.30 3.30 3.42 3.46 3.48 3.50 3.50 3.58 3.75 3.80 3.83 3.97 x 3.0434 and s 0.4720= =
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© 2008 Brooks/Cole,
a division of48 Example The following stem and leaf indicates that the GPA data is reasonably symmetric and unimodal. 2 0 2 233 2 55 2 667777 2 88899 3 0001 3 2222233 3 444555 3 7 3 889 Stem: Units digit Leaf: Tenths digit
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© 2008 Brooks/Cole,
a division of49 Example Using the formula we compute the z scores and color code the values as we did in an earlier example. -2.21 -1.68 -1.45 -1.43 -1.15 -1.15 -0.94 -0.79 -0.73 -0.73 -0.62 -0.56 -0.52 -0.52 -0.47 -0.30 -0.30 -0.09 -0.05 0.06 0.23 0.33 0.33 0.33 0.40 0.52 0.54 0.54 0.80 0.88 0.93 0.97 0.97 1.14 1.50 1.60 1.67 1.96 x xz score s â=Using the formula we compute the z scores and color code the values as we did in an earlier example. -2.21 -1.68 -1.45 -1.43 -1.15 -1.15 -0.94 -0.79 -0.73 -0.73 -0.62 -0.56 -0.52 -0.52 -0.47 -0.30 -0.30 -0.09 -0.05 0.06 0.23 0.33 0.33 0.33 0.40 0.52 0.54 0.54 0.80 0.88 0.93 0.97 0.97 1.14 1.50 1.60 1.67 1.96 x xz score s â=
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© 2008 Brooks/Cole,
a division of50 Example Interval Empirical Rule Actual within 1 standard deviation of the mean â 68% 27/38 = 71% within 2 standard deviations of the mean â 95% 37/38 = 97% within 3 standard deviations of the mean â99.7% 38/38 = 100% Notice that the empirical rule gives reasonably good estimates for this example.
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© 2008 Brooks/Cole,
a division of51 Comparison of Chebyshevâs Rule and the Empirical Rule The following refers to the weights in the sample of 79 students. Notice that the stem and leaf diagram suggest the data distribution is unimodal but is positively skewed because of the outliers on the high side. Nevertheless, the results for the Empirical Rule are good. 10 3 11 37 12 011444555 13 000000455589 14 000000000555 15 000000555567 16 000005558 17 0000005555 18 0358 19 5 20 00 21 0 22 55 23 79 Stem: Hundreds & tens digits Leaf: Units digit
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© 2008 Brooks/Cole,
a division of52 Comparison of Chebyshevâ Rule and the Empirical Rule Interval Chebyshev âs Rule Empiric al Rule Actual within 1 standard deviation of the mean â„ 0% â 68% 56/79 = 70.9% within 2 standard deviations of the mean â„ 75% â 95% 75/79 = 94.9% within 3 standard deviations of the mean â„ 88.8% â99.7% 79/79 = 100% Notice that even with moderate positive skewing of the data, the Empirical Rule gave a much more usable and meaningful result.
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