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Statistical Significance for a two-way table

Statistical Significance for a two-way table. Inference for a two-way table. We often gather data and arrange them in a two-way table to see if two categorical variables are related to each other. Look for an association between the row and column variables.

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Statistical Significance for a two-way table

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  1. Statistical Significance for a two-way table Inference for a two-way table • We often gather data and arrange them in a two-way table to see if two categorical variables are related to each other. • Look for an association between the row and column variables. • Is the association in the sample evidence of an association between these variables in the entire population? • Or could the sample association easily arise just from the error in random sampling?

  2. Statistical Significance for a two-way table Example : Aspirin and Heart Attacks • Aspirin Group: Percentage who had heart attacks = 0.94% • Placebo Group: Percentage who had heart attacks = 1.71% • Difference: only 1.71% – 0.94% = 0.77% • Are we convinced by the data that there is a real relationship in the population between taking aspirin and risk of heart attack? • Need to assess if the relationship is statistically significant. • Experiment included over 22,000 men, so small difference could be statistically significant

  3. Statistical Significance for a two-way table Example : Ease of Pregnancy for Smokers and Nonsmokers Difference: 41% – 29% = 12% Larger difference, but only based on 586 subjects. Convincing?

  4. Statistical Significance for a two-way table Step 1: Stating The Hypotheses Example 1: Aspirin and Heart Attacks Null Hypothesis: There is no relationship between taking aspirin and risk of heart attack in the population. Alternative Hypothesis: There is a relationship between taking aspirin and risk of heart attack in the population. Example 2: Ease of Pregnancy and Smoking Null Hypothesis: Smokers and nonsmokers are equally likelyto get pregnant in 1st cycle in population of women trying to get pregnant. Alternative Hypothesis: Smokers and nonsmokers are not equally likelyto get pregnant in 1st cycle in population of women trying to get pregnant.

  5. Statistical Significance for a two-way table The chi-square test To see if the data give evidence against the null hypothesis of "no relationship," compare the counts in the two way table with the counts we would expect if there really were no relationship. If the observed counts are far from the expected counts, that's the evidence we were seeking. The test uses a statistic that measures how far apart the observed and expected counts are. Expected count= (row total)(column total) (table total) • The chi-square statistic is a sum of terms, one for each cell in the table. • Because chi-square measures how far the observed counts are from what would be expected if null hypothesis were true, large values are evidence against null hypothesis. • This sampling distribution is not a Normal distribution. It is a right-skewed distribution that allows only nonnegative values because chi-square can never be negative.

  6. Statistical Significance for a two-way table The chi-square test Step 2: Collect data and summarize with a ‘test statistic’. Chi-square statistic: compares data in sample to what would be expected if no relationship between variables in the population. Step 3: Determine how unlikely test statistic would be if the null hypothesis were true. p-value: probability of observing a test statistic as extreme as the one observed or more so, if the null hypothesis is really true. (For chi-square: more extreme = larger value of chi-square statistic.) Step 4: Make a decision. If chi-square statistic is at least 3.84, the p-value is 0.05 or less, so conclude relationship in population is real. That is, we reject the null hypothesis and conclude the relationship is statistically significant.

  7. Statistical Significance for a two-way table Ease of Pregnancy and Smoking • Compute the expected numbers. • Expected number of smokers pregnant after 1st cycle: • (100)(227)/586 = 38.74 • Can find the remaining expected numbers by subtraction.

  8. Statistical Significance for a two-way table Example 3: Ease of Pregnancy and Smoking • Compare Observed and Expected counts. • (observed count – expected count)2/(expected count) • First cell: (29 – 38.74)2/(38.74) = 2.45 • Remaining cells shown in table below. • Compute the chi-squared statistic. • chi-square statistic = 2.45 + 1.55 + 0.50 + 0.32 = 4.82 What is your conclusion?

  9. Statistical Significance for a two-way table P-Value = 0.028 Minitab Results for Example : Ease of Pregnancy and Smoking

  10. Statistical Significance for a two-way table Example : Aspirin and Heart Attacks Chi-squared statistic = 25.01 - highly statistically significant with with p-value < 0.00001

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