1. S519: Evaluation of Information Systems Social Statistics Inferential Statistics Chapter 13: correlation coefficient

2. This week Testing correlation coefficient The interpretation PEARSON Using Excel to calculate correlation coefficient

3. Which test to use Figure 13.1 (p261) The relationship between variables, and not the difference between groups, is being examined. Only two variables are being used The appropriate test statistic to use is the t test for the correlation coefficient

4. Example Quality of Marriage Quality of parent-child relationship 7643 8133 7823 7634 7631 7851 7656 7843 9844 8845 7632 6633 4428 6739 6531 5938 8721 7727 7943 8546 6841 7641 7748 9856 9955 9845 8768 6754 7833

5. Correlation coefficient CORREL() and PEARSON() Same value There is no difference Spearman’s rank correlation coefficient Kendall's tau

6. T test for the significance of the correlation coefficient Step1: A statement of the null and research hypotheses Null hypothesis: there is no relationship between the quality of the marriage and the quality of the relationship between parents and children Research hypothesis: (two-tailed, nondirectional) there is a relationship between the two variables

7. T test for the significance of the correlation coefficient Step2: setting the level of risk (or the level of significance or Type I error) associated with the null hypothesis 0.05 or 0.01 What does it mean? on any test of the null hypothesis, there is a 5% (1%) chance you will reject it when the null is true when there is no group difference at all. Why not 0.0001? So rigorous in your rejection of false null hypothesis that you may miss a true one; such stringent Type I error rate allows for little leeway

8. T test for the significance of the correlation coefficient Step 3 and 4: select the appropriate test statistics The relationship between variables, and not the difference between groups, is being examined. Only two variables are being used The appropriate test statistic to use is the t test for the correlation coefficient

9. T test for the significance of the correlation coefficient Step5: determination of the value needed for rejection of the null hypothesis using the appropriate table of critical values for the particular statistic. Table B4 compute the correlation coefficient (r=0.393) Compute df=n-2 (df=27) If obtained value>the critical value  reject null hypothesis If obtained value<the critical value  accept null hypothesis

10. T test for the significance of the correlation coefficient Step6: compare the obtained value with the critical value obtained value: 0.393 critical value: 0.349

11. T test for the significance of the correlation coefficient Step 7 and 8: make decisions What could be your decision? And why, how to interpret? obtained value: 0.393 > critical value: 0.349 (level of significance: 0.05) Coefficient of determination is 0.154, indicating that 15.4% of the variance is accounted for and 84.6% of the variance is not. There is a 5% chance that the two variables are not related at all

12. Causes and associations Two variables are related to each other One causes another having a great marriage cannot ensure that the parent-child relationship will be of a high quality as well; The two variables maybe correlated because they share some traits that might make a person a good husband or wife and also a good parent; It’s possible that someone can be a good husband or wife but have a terrible relationship with his/her children.

13. A critique a correlation can be taken as evidence for a possible causal relationship, but cannot indicate what the causal relationship, if any, might be. These examples indicate that the correlation coefficient, as a summary statistic, cannot replace the individual examination of the data.

14. Exercise: S-P267-Q1 ndegree of freedom correlation coefficient leveltailcritical value 20180.5670.01one0.516 8078-0.450.05one0.183 50480.370.05two0.273