Understanding Correlation: Patterns, Coefficients, and Interpretation

1. Chapter 11 Correlation Pt 1: Nov. 12, 2013

2. Correlation • Association between scores on two variables • e.g., age and coordination skills in children, price and quality • Use scatterplots to see the relationship • Rule of thumb – if 1 var is a “predictor”, put it on the x axis

3. Patterns of Correlation • Linear correlation – straight line relationship (appropriate to compute corr) • Curvilinear correlation – U or S shaped curves • No correlation – no trend to points in scatterplot • Positive correlation – points move from lower left to upper right (pos slope) • Negative correlation – points move from upper left to lower right (neg slope)

4. Degree of Linear CorrelationThe Correlation Coefficient • Figure correlation using products of deviation scores • Multiply pos x pos get positive results • Multiply negative x negative  get positive results, which we want • Multiply pos x neg get negative results 1) Find means of x variable (Mx) and y variable (My) 2) Find deviation scores for each person for x variable (x-Mx) and y variable (y-My) 3) Sum these up across the sample 4) divide by sqrt of (SSx)(SSy) • where SSx=sum of squared deviations for x variable and SSy=sum of squared deviations for y variable

5. Formula for the correlation coefficient: r = Σ [(x – Mx)(y – My)] sqrt [(SSx)(SSy)] where SSx = Σ (x-Mx)2 where SSy = Σ (y-My)2 • Positive perfect correlation: r = +1 • No correlation: r = 0 • Negative perfect correlation: r = –1 • Example on board…

6. Correlation and Causality • Three possible directions of causality: 1. X Y 2. X Y 3. Z X Y Can only determine causality w/longitudinal study or a true experiment (w/random assignment) to rule out 3rd variables (z) Examples of 3rd variable explainingthe correlation between x & y?

7. Issues in Interpreting the Correlation Coefficient • Statistical significance – for correlation, test is whether true corr in pop = 0. • If corr is statistically signif, means it is highly unlikely that we’d get this corr if true pop corr = 0. • Proportionate reduction in error • r2 = proportion of variance (in y) accounted for (by x) • Used to compare correlations • r = .3, r2 = .09; • r = .6, r2 = .36 (so 4x as big)

8. Issues in Interpreting the Correlation Coefficient • Restriction in range • With limited range, corr is different than what it would be with full range (more variability) • Correlate job perf with hiring test score • But only hire people w/high test scores, so limited range (selective of good performers)

9. Size of r: Cohen’s Guidelines • What is a large corr? • Cohen’s guidelines: • > .5 or -.5 = large, .3 or -.3 = moderate, .1 or -.1 = small • Unusual to have corr above .5 or -.5 • Consider average r = .19 for job satisfaction & job perf… • Interpretation?

10. Correlation in Research Articles • Scatter diagrams occasionally shown • Correlation matrix presented in table. Notice only lower triangle completed & corr of variable w/itself represented with dash. • In text: “The correlation between acculturation and assimilation was significant (r = .56, p < .05).