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Contingency Tables (cross tabs)
Generally used when variables are nominal and/or ordinal Even here, should have a limited number of variable attributes (categories) Inside the cells of the table are frequencies (number of cases that fit criteria) To examine relationships within the sample, most use percentages to standardize the cells
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Example A survey of 2883 U.S. residents
Is one’s political ideology (liberal, moderate, conservative) related to their satisfaction with their financial situation? Null = ideology is not related to satisfaction with financial status (the are independent) Convention for bivariate tables IV (Ideology) is on the top of the table (dictates columns) The DV ($ status)is on the side (dictates rows).
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Are these variable related within the sample?
Satisfaction With Current $ Situation Political Ideology Total Liberal Moderate Conservative Satisfied 242 300 334 876 More or Less 329 499 439 1267 Unsatisfied 213 294 233 740 784 1093 1006 2883
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The Test Statistic for Contingency Tables
Chi Square, or χ2 Calculation Observed frequencies (your sample data) Expected frequencies (UNDER NULL) Intuitive: how different are the observed cell frequencies from the expected cell frequencies Degrees of Freedom: 1-way = K-1 2-way = (# of Rows -1) (# of Columns -1)
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Calculating χ2 = ∑ [(fo - fe)2 /fe]
Where Fe= Row Marginal X Column Marginal N So, for each cell, calculate the difference between the actual frequencies (“observed”) and what frequencies would be expected if the null was true (“expected”). Square, and divide by the expected frequency. Add the results from each cell.
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Political Ideology Satisfaction With Current $ Situation 876 1267 740
Total Liberal Moderate Conservative Satisfied 242 (238) 300 (332) 334 (305) 876 More or Less 329 499 439 1267 Unsatisfied 213 294 233 740 784 1093 1006 2883 FIND EXPECTED FREQUENCIES UNDER NULL Example: 876(784)/2883 = 238
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Political Ideology Satisfaction With Current $ Situation 876 1267 740
Total Liberal Moderate Conservative Satisfied 242 (238) 300 (332) 334 (305) 876 More or Less 329 (344) 499 (480) 439 (442) 1267 Unsatisfied 213 (201) 294 (280) 233 (258) 740 784 1093 1006 2883 FIND EXPECTED FREQUENCIES UNDER NULL Example: 876(784)/2883 = 238
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Calculating χ2 χ2 = ∑ [(fo - fe)2 /fe] [(242-238) 2 / 238 ] = .067
[( ) 2 / 332 ] = 3.08 Do the same for the other seven cells… Calculate obtained χ2 Figure out appropriate df and then Critical χ2 (alpha = .05) Would decision change if alpha was .01?
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Interpreting Chi-Square
Chi-square has no intuitive meaning, it can range from zero to very large As with other test statistics, the real interest is the “p value” associated with the calculated chi-square value Conventional testing = find χ2 (critical) for stated “alpha” (.05, .01, etc.) Reject if χ2 (observed) is greater than χ2 (critical) SPSS: find the exact probability of obtaining the χ2 under the null (reject if less than alpha)
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SPSS Procedure Statistics Analyze Descriptive Statistics Crosstabs
Rows = DV Columns = IV Cells Column Percentages Statistics Chi square
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Agenda Today Monday Wednesday
Group based assignment (review for exam, review chi-square) Monday More “hands on” review for exam + final project time Wednesday Go over HW#4, review conceptual stuff, more practice
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