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Statistics for the Social Sciences

This guide provides an outline of the basics of factorial ANOVA, including interpretations, main effects, interactions, computations, assumptions, effect sizes, and power. It also covers other factorial designs, within-group factorial ANOVAs, mixed factorial ANOVAs, and conducting factorial ANOVA in SPSS.

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Statistics for the Social Sciences

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  1. Statistics for the Social Sciences Psychology 340 Spring 2006 Factorial ANOVA

  2. Outline • Basics of factorial ANOVA • Interpretations • Main effects • Interactions • Computations • Assumptions, effect sizes, and power • Other Factorial Designs • More than two factors • Within factorial ANOVAs • Factorial ANOVA in SPSS

  3. Outline • Basics of factorial ANOVA • Interpretations • Main effects • Interactions • Computations • Assumptions, effect sizes, and power • Other Factorial Designs • Within factorial ANOVAs • Mixed factorial ANOVAs • Factorial ANOVA in SPSS

  4. Assumptions in Two-Way ANOVA • Populations follow a normal curve • Populations have equal variances • Assumptions apply to the populations that go with each cell

  5. Effect Size in Factorial ANOVA (completely between groups)

  6. Approximate Sample Size Needed in Each Cell for 80% Power (.05 significance level) 10.16

  7. Other ANOVA designs • Basics of repeated measures factorial ANOVA • Using SPSS • Basics of mixed factorial ANOVA • Using SPSS • Similar to the between groups factorial ANOVA • Main effects and interactions • Multiple sources for the error terms (different denominators for each main effect)

  8. Example • Suppose that you are interested in how sleep deprivation impacts performance. You test 5 people on two tasks (motor and math) over the course of time without sleep (24 hrs, 36 hrs, and 48 hrs). Dependent variable is number of errors in the tasks. • Both factors are manipulated as within subject variables • Need to conduct a within groups factorial ANOVA

  9. Example

  10. Within factorial ANOVA in SPSS • Each condition goes in a separate column • It is to your benefit to systematically order those columns to reflect the factor structure • Make your column labels informative • Analyze -> General Linear Model -> Repeated measures • Enter your factor 1 & number of levels, then factor 2 & levels, etc. (remember the order of the columns) • Tell SPSS which columns correspond to which condition • As was the case before, lots of output • Focus on the within-subject effects • Note: each F has a different error term

  11. Example

  12. Example • It has been suggested that pupil size increases during emotional arousal. A researcher presents people with different types of stimuli (designed to elicit different emotions). The researcher examines whether similar effects are demonstrated by men and women. • Type of stimuli was manipulated within subjects • Sex is a between subjects variable • Need to conduct a mixed factorial ANOVA

  13. Example

  14. Mixed factorial ANOVA in SPSS • Each within condition goes in a separate column • It is to your benefit to systematically order those columns to reflect the factor structure • Make your column labels informative • Each between groups factor has a column that specifies group membership • Analyze -> General Linear Model -> Repeated measures • Enter your within groups factors: factor 1 & number of levels, then factor 2 & levels, etc. (remember the order of the columns) • Tell SPSS which columns correspond to which condition • Enter your between groups column that specifies group membership • As was the case before, lots of output • Need to look at the within-subject effects and the between groups effects

  15. Example

  16. Factorial ANOVA in Research Articles A two-factor ANOVA yielded a significant main effect of voice, F(2, 245) = 26.30, p < .001. As expected, participants responded less favorably in the low voice condition (M = 2.93) than in the high voice condition (M = 3.58). The mean rating in the control condition (M = 3.34) fell between these two extremes. Of greater importance, the interaction between culture and voice was also significant, F(2, 245) = 4.11, p < .02.

  17. Recruiting • Looking for a teaching experience? • Enjoy (tolerate?) statistics • I am looking for Undergraduate Teaching Assistant(s) for PSY 138 next semester • If interested: • E-mail me about your interest: jccutti@ilstu.edu

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