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You can calculate: Central tendency Variability You could graph the data

You can calculate: Central tendency Variability You could graph the data. You can calculate: Central tendency Variability You could graph the data. Bivariate Distribution. Positive Correlation. Positive Correlation. Regression Line. Correlation. r = 1.00. Regression Line. r = .64.

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You can calculate: Central tendency Variability You could graph the data

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  1. You can calculate: Central tendency Variability You could graph the data

  2. You can calculate: Central tendency Variability You could graph the data

  3. Bivariate Distribution

  4. Positive Correlation

  5. Positive Correlation

  6. Regression Line

  7. Correlation r = 1.00

  8. Regression Line . . . . . r = .64

  9. Regression Line . . . . . r = .64

  10. Practice

  11. Regression Line

  12. Regression Line . . . . .

  13. Regression Line . . . . .

  14. Negative Correlation

  15. Negative Correlation r = - 1.00

  16. Negative Correlation . . . r = - .85 . .

  17. Zero Correlation

  18. Zero Correlation . . . . . r = .00

  19. Correlation Coefficient • The sign of a correlation (+ or -) only tells you the direction of the relationship • The value of the correlation only tells you about the size of the relationship (i.e., how close the scores are to the regression line)

  20. Excel Example

  21. Which is a bigger effect? r = .40 or r = -.40 How are they different?

  22. Interpreting an r value • What is a “big r” • Rule of thumb: Small r = .10 Medium r = .30 Large r = .50

  23. Practice • Do you think the following variables are positively, negatively or uncorrelated to each other? • Alcohol consumption & Driving skills • Miles of running a day & speed in a foot race • Height & GPA • Forearm length & foot length • Test #1 score and Test#2 score

  24. Statistics Needed • Need to find the best place to draw the regression line on a scatter plot • Need to quantify the cluster of scores around this regression line (i.e., the correlation coefficient)

  25. Covariance • Correlations are based on the statistic called covariance • Reflects the degree to which two variables vary together • Expressed in deviations measured in the original units in which X and Y are measured

  26. Note how it is similar to a variance • If Ys were changed to Xs it would be s2 • How it works (positive vs. negative vs. zero)

  27. Computational formula

  28. Ingredients: ∑XY ∑X ∑Y N

  29. N = 5

  30. ∑XY = 84 ∑Y = 23 ∑X = 15 N = 5

  31. ∑XY = 84 ∑Y = 23 ∑X = 15 N = 5

  32. ∑XY = 84 ∑Y = 23 ∑X = 15 N = 5

  33. ∑XY = 84 ∑Y = 23 ∑X = 15 N = 5

  34. ∑XY = 84 ∑Y = 23 ∑X = 15 N = 5

  35. Problem! • The size of the covariance depends on the standard deviation of the variables • COVXY = 3.75 might occur because • There is a strong correlation between X and Y, but small standard deviations • There is a weak correlation between X and Y, but large standard deviations

  36. Solution • Need to “standardize” the covariance • Remember how we standardized single scores

  37. Correlation

  38. Correlation

  39. Correlation

  40. Practice • You are interested in if candy intake is related to childhood depression. You collect data from 5 children.

  41. Practice Scandy = 1.52 Sdepression = 24.82

  42. Practice

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