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Fall Exam

Fall Exam. What is in the exam: Chapters 1-9 Lecture Slides 01-08 (up to and including Linear Regression) Assignments 1-2. Fall Term Material. Basics Scales of measurement Continuous vs. discrete variables Independent and dependent variables Experimental vs. correlational research

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Fall Exam

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  1. Fall Exam • What is in the exam: • Chapters 1-9 • Lecture Slides 01-08 (up to and including Linear Regression) • Assignments 1-2 PSYC 6130, PROF. J. ELDER

  2. Fall Term Material

  3. Basics Scales of measurement Continuous vs. discrete variables Independent and dependent variables Experimental vs. correlational research Populations vs. samples Summation notation Tables and Graphs f, cf, rf, crf, cpf Grouped frequency distributions Apparent vs real limits Percentiles, percentile ranks, linear interpolation Central Tendency and Variability Means, medians, modes Standard deviations, SQI, range Skewness, kurtosis The Normal Distribution Probability rules Z scores SEM Central Limit Theorem Descriptive Statistics PSYC 6130, PROF. J. ELDER

  4. Inferential Statistics: Hypothesis Tests of the Mean • Introduction to NHT • Type I and Type II errors • One-tailed vs two-tailed tests • 6-step procedure • One-sample z test • One-sample t test • t Test for two independent sample means • Homogeneity of variance • The Matched t Test • Going beyond null hypothesis testing • Planning experiments (power) • Effect size • Confidence intervals PSYC 6130, PROF. J. ELDER

  5. Correlation and Regression • Pearson’s r • Significance and power for Pearson’s r • Fisher Transform • Regression formulae • Explained and unexplained variance • Coefficients of determination, non-determination • Homoscedasticity • Confidence intervals for predictions • Partialing out PSYC 6130, PROF. J. ELDER

  6. Some Important Topics

  7. Basic Procedure for Statistical Inference • State the hypothesis • Select the statistical test and significance level • Select the sample and collect the data • Find the region of rejection • Calculate the test statistic • Make the statistical decision PSYC 6130, PROF. J. ELDER

  8. NHT for Two Small Independent Samples PSYC 6130, PROF. J. ELDER

  9. Pooled Variance PSYC 6130, PROF. J. ELDER

  10. Summary: t-Tests for 2 Independent Sample Means PSYC 6130, PROF. J. ELDER

  11. Separate Variances t Test • If • Population variances are different (suggested by substantially different sample variances) AND • Samples are small AND • Sample sizes are substantially different • Then • Pooled variance t statistic will not be correct. • In this case, use separate variances t test PSYC 6130, PROF. J. ELDER

  12. Separate Variances t Test • This t statistic is well approximated by a t distribution. • Unfortunately, calculating the appropriate df is difficult. • SPSS will calculate the Welch-Satterthwaite approximation for df as part of a 2-sample t test: PSYC 6130, PROF. J. ELDER

  13. More on Homogeneity of Variance • How do we decide if two sample variances are different enough to suggest different population variances? • Need NHT for homogeneity of variance. • F-test • Straightforward • Sensitive to deviations from normality • Levene’s test • More robust to deviations from normality • Computed by SPSS PSYC 6130, PROF. J. ELDER

  14. Levene’s Test: Basic Idea • SPSS reports an F-statistic for Levene’s test • Allows the homogeneity of variance for two or more variables to be tested. • We will cover the F distribution in the winter term. PSYC 6130, PROF. J. ELDER

  15. Independent or Matched? • Application of the Independent-Groups t test depended on independence both within and between groups. • There are many cases where it is wise, convenient or necessary to use a matched design, in which there is a 1:1 correspondence between scores in the two samples. • In this case, you cannot assume independence between samples! • Examples: • Repeated-subject designs (same subjects in both samples). • Matched-pairs designs (attempt to match possibly important attributes of subjects in two samples) PSYC 6130, PROF. J. ELDER

  16. Better alternative: The matched t-test using the direct difference method PSYC 6130, PROF. J. ELDER

  17. Limitations of NHT • Criticisms of NHT date from the 1930s. • Null hypothesis is rarely true. • The real question is not about the existence of an effect, but about the nature of the effect: • What is the direction of the effect? • What is the size of the effect? • How important is it? • What are the underlying mechanisms (theory)? PSYC 6130, PROF. J. ELDER

  18. Magnitude of Effect • A problem with a point estimate is that it suggests a certainty we do not really have. • A more complete and useful description of the magnitude of the effect is provided by a confidence interval. PSYC 6130, PROF. J. ELDER

  19. Importance of Effect • However it is often more meaningful to compare the treatment effect to the overall variation in the measured variable: PSYC 6130, PROF. J. ELDER

  20. Example Effect Sizes Group 1 Group 2 PSYC 6130, PROF. J. ELDER

  21. Planning a Study • There are many considerations that go into planning an experiment or study. • Here we focus on the statistical considerations. • Some possible questions: • How many samples (e.g., subjects) will I need for my study? • I already know that I will only have access to n samples (subjects). Will this be enough? • Answering these questions depends on understanding the relationship between sample size, effect size, and statistical power. PSYC 6130, PROF. J. ELDER

  22. NHD AHD Standardized Distributions of the Difference of the Means 0.4 0.3 0.2 Probability p(t) 0.1 0 -4 -2 2 4 6 8 0 t PSYC 6130, PROF. J. ELDER

  23. Pr(t) Pr(t) Expected t value Estimating Power (Non-central t distribution) (Central t distribution) PSYC 6130, PROF. J. ELDER

  24. - + - + + Calculating Power from Sample Size and Effect Size PSYC 6130, PROF. J. ELDER

  25. Planning Experiments • Planning experiments may involve estimating any one of these variables given knowledge or assumptions about the other two: PSYC 6130, PROF. J. ELDER

  26. Correlation

  27. Standard Definition of Correlation (Sample) PSYC 6130, PROF. J. ELDER

  28. covariance unbiased covariance Computational Formula For a population: For a sample: PSYC 6130, PROF. J. ELDER

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