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Exploring Categorical Data Analysis: Bar Graphs and Marginal Distributions

Learn to analyze categorical data using bar graphs, conditional distributions, and association between variables. Understand pitfalls of deceptive graphs and visualize data effectively.

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Exploring Categorical Data Analysis: Bar Graphs and Marginal Distributions

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  1. CHAPTER 1Exploring Data 1.1Analyzing Categorical Data

  2. Analyzing Categorical Data • DISPLAY categorical data with a bar graph • IDENTIFY what makes some graphs of categorical data deceptive • CALCULATE and DISPLAY the marginal distribution of a categorical variable from a two-way table • CALCULATE and DISPLAY the conditional distribution of a categorical variable for a particular value of the other categorical variable in a two-way table • DESCRIBE the association between two categorical variables

  3. Categorical Variables Categorical variables place individuals into one of several groups or categories. Variable Values Count Percent

  4. Displaying Categorical Data Frequency tables can be difficult to read. Sometimes is is easier to analyze a distribution by displaying it with a bar graph or pie chart.

  5. BAR GRAPHS are used to display the distribution of a categorical variable Website for creating Bar Graphs: http://www.onlinemathlearning.com/statistics-games.html (use "bar graph,” not the "bar chart" feature) Or use a spreadsheet like Microsoft Excel or Google Spreadsheets

  6. BAR GRAPHS are used to display the distribution of a categorical variable Website for creating Bar Graphs: http://www.onlinemathlearning.com/statistics-games.html (use "bar graph,” not the "bar chart" feature) Or use a spreadsheet like Microsoft Excel or Google Spreadsheets

  7. PIE CHARTS are also used to display the distribution of a categorical variable Website for creating Pie Charts: http://www.onlinemathlearning.com/statistics-games.html (use "circle graph,” not the "pie chart" feature)            Or use a spreadsheet like Microsoft Excel or Google Spreadsheets

  8. OTHER There are many other ways to display categorical data graphically that we will not use in this class.  Here are a few examples:

  9. Graphs: Good and Bad Bar graphs compare several quantities by comparing the heights of bars that represent those quantities. Our eyes, however, react to the area of the bars as well as to their height. • When you draw a bar graph, make the bars equally wide. It is tempting to replace the bars with pictures for greater eye appeal. • Don’t do it! • There are two important lessons to keep in mind: • beware the pictograph, and • watch those scales.

  10. Why is this graph misleading?

  11. Why is this graph misleading?

  12. Why is this graph misleading?

  13. Why is this graph misleading?

  14. Why is this graph misleading?

  15. Two-Way Tables and Marginal Distributions When a dataset involves two categorical variables, we begin by examining the counts or percents in various categories for one of the variables. A two-way table describes two categorical variables, organizing counts according to a row variable and a column variable. What are the variables described by this two-way table? How many young adults were surveyed?

  16. Two-Way Tables and Marginal Distributions The marginal distribution of one of the categorical variables in a two-way table of counts is the distribution of values of that variable among all individuals described by the table. Note: Percents are often more informative than counts, especially when comparing groups of different sizes. • How to examine a marginal distribution: • Use the data in the table to calculate the marginal distribution (in percents) of the row or column totals. • Make a graph to display the marginal distribution.

  17. Two-Way Tables and Marginal Distributions Examine the marginal distribution of chance of getting rich.

  18. Relationships Between Categorical Variables A conditional distribution of a variable describes the values of that variable among individuals who have a specific value of another variable. • How to examine or compare conditional distributions: • Select the row(s) or column(s) of interest. • Use the data in the table to calculate the conditional distribution (in percents) of the row(s) or column(s). • Make a graph to display the conditional distribution. • Use a side-by-side bar graph or segmented bar graph to compare distributions.

  19. Relationships Between Categorical Variables Calculate the conditional distribution of opinion among males. Examine the relationship between gender and opinion.

  20. Relationships Between Categorical Variables Can we say there is an association between gender and opinion in the population of young adults? Making this determination requires formal inference, which will have to wait a few chapters. Caution! Even a strong association between two categorical variables can be influenced by other variables lurking in the background.

  21. Marginal and Conditional Distributions Marginal and conditional distributions give us a more specific tool (more specific than a frequency or contingency table) to help analyze a set of categorical data.  I will use the next few slides to summarize our activity from class.

  22. Marginal Distributions The ratio of a marginal sum among all individuals described by the table. ONLY LOOK AT MARGINS! Should be a PERCENTAGE!

  23. Conditional Distributions The ratio of a specific variable (or entry in the contingency table) among a given marginal value.

  24. Conditional Distributions cont…

  25. Conditional Distributions The tables below show all possible conditional distributions that can be calculated.

  26. Conditional Distributions We can better visualize these distributions with grouped bar graphs.  Notice that both bar graphs below tell us something different about the data.

  27. Marginal and Conditional Distribution Practice

  28. Marginal and Conditional Distribution Practice

  29. Data Analysis: Making Sense of Data • DISPLAY categorical data with a bar graph • IDENTIFY what makes some graphs of categorical data deceptive • CALCULATE and DISPLAY the marginal distribution of a categorical variable from a two-way table • CALCULATE and DISPLAY the conditional distribution of a categorical variable for a particular value of the other categorical variable in a two-way table • DESCRIBE the association between two categorical variables

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