1 / 13

Chapter 2 Exploring Data with Graphs and Numerical Summaries

Chapter 2 Exploring Data with Graphs and Numerical Summaries. Section 2.5 Using Measures of Position to Describe Variability. The th percentile is a value such that percent of the observations fall below or at that value. Percentile. Quartiles.

belkisb
Télécharger la présentation

Chapter 2 Exploring Data with Graphs and Numerical Summaries

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 2Exploring Data with Graphs and Numerical Summaries Section 2.5 Using Measures of Position to Describe Variability

  2. The th percentile is a value such that percent of the observations fall below or at that value. Percentile

  3. Quartiles Figure 2.14 The Quartiles Split the Distribution Into Four Parts. 25% is below the first quartile (Q1), 25% is between the first quartile and the second quartile (the median, Q2), 25% is between the second quartile and the third quartile (Q3), and 25% is above the third quartile. Question: Why is the second quartile also the median?

  4. SUMMARY: Finding Quartiles • Arrange the data in order. • Consider the median. This is the second quartile, Q2. • Consider the lower half of the observations (excluding the median itself if n is odd). The median of these observations is the first quartile, Q1. • Consider the upper half of the observations (excluding the median itself if n is odd). • Their median is the third quartile, Q3.

  5. Consider the sodium values for the 20 breakfast cereals. What are the quartiles for the 20 cereal sodium values? From Table 2.3, the sodium values, in ascending order, are: The median of the 20 values is the average of the 10th and 11th observations, 180 and 180, which is Q2 = 180 mg. The first quartile Q1 is the median of the 10 smallest observations (in the top row), which is the average of 130 and 140, Q1 = 135mg. The third quartile Q3 is the median of the 10 largest observations (in the bottom row), which is the average of 200 and 210, Q3 = 205 mg. Example: Cereal Sodium Data

  6. The interquartile range is the distance between the third quartile and first quartile: IQR = Q3  Q1 IQRgives spread of middle 50% of the data The Interquartile Range (IQR) In Words: If the interquartile range of U.S. music teacher salaries equals $16,000, this means that for the middle 50% of the distribution of salaries, $16,000 is the distance between the largest and smallest salaries.

  7. Examining the data for unusual observations, such as outliers, is important in any statistical analysis. Is there a formula for flagging an observation as potentially being an outlier? The 1.5 x IQR Criterion for Identifying Potential Outliers An observation is a potential outlier if it falls more than 1.5 x IQR below the first quartile or more than 1.5 x IQR above the third quartile. Detecting Potential Outliers

  8. The 5-number summary is the basis of a graphical display called the box plot, and consists of Minimum value First Quartile Median Third Quartile Maximum value 5-Number Summary of Positions

  9. A box goes from Q1 to Q3. A line is drawn inside the box at the median. A line goes from the lower end of the box to the smallest observation that is not a potential outlier and from the upper end of the box to the largest observation that is not a potential outlier. The potential outliers are shown separately. SUMMARY: Constructing a Box Plot

  10. Figure 2.15 shows a box plot for the sodium values. Labels are also given for the five-number summary of positions. Example: Boxplot for Cereal Sodium Data Figure 2.15 Box Plot and Five-Number Summary for 20 Breakfast Cereal Sodium Values. The central box contains the middle 50% of the data. The line in the box marks the median. Whiskers extend from the box to the smallest and largest observations, which are not identified as potential outliers. Potential outliers are marked separately. Question: Why is the left whisker drawn down only to 50 rather than to 0?

  11. Comparing Distributions A box plot does not portray certain features of a distribution, such as distinct mounds and possible gaps, as clearly as does a histogram. Box plots are useful for identifying potential outliers. Figure 2.16 Box Plots of Male and Female College Student Heights. The box plots use the same scale for height. Question: What are approximate values of the quartiles for the two groups?

  12. The z-score also identifies position and potential outliers. The z-score for an observation is the number of standard deviations that it falls from the mean. A positive z-score indicates the observation is above the mean. A negative z-score indicates the observation is below the mean. For sample data, the z -score is calculated as: An observation from a bell-shaped distribution is a potential outlier if its z-score < -3 or > +3 (3 standard deviation criterion) . Z-Score

More Related