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The t Test for Two Related Samples

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Chapter 11 Power Points for Essentials of Statistics for the Behavioral Sciences, Gravetter & Wallnau, 8th ed

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Chapter 11 The t-Test for Two Related Samples PowerPoint Lecture Slides Essentials of Statistics for the Behavioral Sciences Eighth Edition by Frederick J Gravetter and Larry B. Wallnau
Chapter 11 Learning Outcomes • Understand structure of research study appropriate for repeated-measures t hypothesis test1 • Test mean difference between two treatment conditions using repeated-measures t statistic2 • Evaluate effect size using Cohen’s d, r2, and/or a confidence interval3 • Explain pros and cons of repeated-measures and independent measures studies4
Tools You Will Need • Introduction to the t Statistic (Chapter 9) – Estimated standard error – Degrees of freedom – t Distribution – Hypothesis test with t statistic • Independent-Measures Design (Chapter 10)
11.1 Introduction to Repeated- Measures Designs • Repeated-measures design – Also known as within-subjects design – Two separate scores are obtained for each individual in the sample • Same subjects are used in both treatment conditions • No risk of the participants in each treatment group differing significantly from each other
Matched-Subjects Design • Approximates the advantages of a repeated- measures design • Two separate samples are used – Each individual in a sample is matched one-to-one with an individual in the other sample. – Matched on relevant variables • Participants are not identical to their match – Ensures that the samples are equivalent with respect to some specific variables
Related-Samples Designs • Related (or correlated) sample designs – Repeated-measures – Matched samples • Statistically equivalent methods • Use different number of subjects – Matched sample has twice as many subjects as a repeated-measures design
11.2 t Statistic for Repeated- Measures Research Design • Structurally similar to the other t statistics – Essentially the same as the single-sample t – Based on difference scores (D) rather than raw scores (X) • Difference score = D = X2—X1 • Mean Difference n D MD 
Hypotheses for Related-Samples t Test • H0: μD = 0 • H1: μD ≠ 0
Figure 11.1 Populations of Difference Scores
t- Statistic for Related Samples DM DD s M t   n s s df SS s DM 2 2 Dofvariance  
Figure 11.2 Difference Scores for 4 People Measured Twice
Learning Check • For which of the following would a repeated- measures study be appropriate? A matched-subjects study? • A group of twins is tested for IQA • Comparing boys and girls strength at age 3B • Evaluating the difference in self-esteem between athletes and non-athletesC • Students’ knowledge is tested in September and December D
Learning Check - Answer • For which of the following would a repeated- measures study be appropriate? A matched-subjects study? • A group of twins is tested for IQ (matched)A • Comparing boys and girls strength at age 3B • Evaluating the difference in self-esteem between athletes and non-athletesC • Students’ knowledge is tested in September and December (repeated-measures)D
Learning Check • Decide if each of the following statements is True or False • A matched-samples study requires only 20 participants to obtain 20 scores in each of the conditions being compared T/F • As the variance of the difference scores increases, the magnitude of the t statistic decreases T/F
Learning Check - Answers • Matched sample would require 20 subjects matched to 20 additional subjects False • Increasing the variance increases the denominator and decreases the t statistic True
11.3 Repeated-Measures Design Hypothesis Tests and Effect Size • Numerator of t statistic measures actual difference between the data MD and the hypothesis μD • Denominator measures the standard difference that is expected if H0 is true • Same four-step process as other tests
Figure 11.3 Critical region for t df = 8 and α = .05
Effect size for Related Samples s M dsCohen'estimated D  dft t r   2 2 2 DMDD stMIC   :)1.(.
In The Literature • Report means and standard deviation in a statement or table • Report a concise version of test results – Report t values with df – Report significance level – Report effect size • E.g., t(9) = 2.43, p<.05, r2 = .697
Factors That Influence Hypothesis Test Outcome • Size of the sample mean difference (larger mean difference  larger numerator so increases t • Sample size (larger sample size  smaller standard error—denominator—so larger t) • Larger sample variance  larger standard error—denominator—so larger t)
Variability as measure of consistency • When treatment has consistent effect – Difference scores cluster together – Variability is low • When treatment effect is inconsistent – Difference scores are more scattered – Variability is high • Treatment effect may be significant when variability is low, but not significant when variability is high
Figure 11.4 Example 11.1 Consistent Difference Scores
Figure 11.5 A Sample of Inconsistent Difference Scores
Directional Hypotheses and One-Tailed Tests • Researchers often have specific predictions for related-samples designs • Null hypothesis and research hypothesis are stated directionally, e.g. – H0: μD ≤ 0 – H1: μD > 0 • Critical region is located in one tail
11.4 Related-Samples Vs. Independent-Samples t Tests • Advantages of repeated-measures design – Requires fewer subjects – Able to study changes over time – Reduces or eliminates influence of individual differences – Substantially less variability in scores
11.4 Related-Samples Vs. Independent-Samples t Tests • Disadvantages of repeated-measures design – Factors besides treatment may cause subject’s score to change during the time between measurements – Participation in first treatment may influence score in the second treatment (order effects) • Counterbalancing is a way to control time- related or order effects
Related-Samples t Test Assumptions • Observations within each treatment condition must be independent • Population distribution of difference scores (D values) must be normally distributed – This assumption is not typically a serious concern unless the sample size is small. – With relatively large samples (n > 30) this assumption can be ignored
Learning Check • Assuming that the sample mean difference remains the same, which of the following sets of data is most likely to produce a significant t statistic? • n = 15 and SS = 10A • n = 15 and SS = 100B • n = 30 and SS = 10C • n = 30 and SS = 100D
Learning Check - Answer • Assuming that the sample mean difference remains the same, which of the following sets of data is most likely to produce a significant t statistic? • n = 15 and SS = 10A • n = 15 and SS = 100B • n = 30 and SS = 10C • n = 30 and SS = 100D
Learning Check • Decide if each of the following statements is True or False • Compared to independent-measures designs, repeated-measures studies reduce the variance by removing individual differences T/F • The repeated-measures t statistic can be used with either a repeated-measures or a matched-subjects design T/F
Learning Check - Answers • Using the same subjects in both treatments removes individual differences across treatments True • Both of these related-samples tests reduce individual differences across treatments True
Figure 11.6 Example 11.1 SPSS Repeated-Measures Test Output
Any Questions ? Concepts ? Equations?

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The t Test for Two Related Samples

  • 1. Chapter 11 The t-Test for Two Related Samples PowerPoint Lecture Slides Essentials of Statistics for the Behavioral Sciences Eighth Edition by Frederick J Gravetter and Larry B. Wallnau
  • 2. Chapter 11 Learning Outcomes • Understand structure of research study appropriate for repeated-measures t hypothesis test1 • Test mean difference between two treatment conditions using repeated-measures t statistic2 • Evaluate effect size using Cohen’s d, r2, and/or a confidence interval3 • Explain pros and cons of repeated-measures and independent measures studies4
  • 3. Tools You Will Need • Introduction to the t Statistic (Chapter 9) – Estimated standard error – Degrees of freedom – t Distribution – Hypothesis test with t statistic • Independent-Measures Design (Chapter 10)
  • 4. 11.1 Introduction to Repeated- Measures Designs • Repeated-measures design – Also known as within-subjects design – Two separate scores are obtained for each individual in the sample • Same subjects are used in both treatment conditions • No risk of the participants in each treatment group differing significantly from each other
  • 5. Matched-Subjects Design • Approximates the advantages of a repeated- measures design • Two separate samples are used – Each individual in a sample is matched one-to-one with an individual in the other sample. – Matched on relevant variables • Participants are not identical to their match – Ensures that the samples are equivalent with respect to some specific variables
  • 6. Related-Samples Designs • Related (or correlated) sample designs – Repeated-measures – Matched samples • Statistically equivalent methods • Use different number of subjects – Matched sample has twice as many subjects as a repeated-measures design
  • 7. 11.2 t Statistic for Repeated- Measures Research Design • Structurally similar to the other t statistics – Essentially the same as the single-sample t – Based on difference scores (D) rather than raw scores (X) • Difference score = D = X2—X1 • Mean Difference n D MD 
  • 8. Hypotheses for Related-Samples t Test • H0: μD = 0 • H1: μD ≠ 0
  • 9. Figure 11.1 Populations of Difference Scores
  • 10. t- Statistic for Related Samples DM DD s M t   n s s df SS s DM 2 2 Dofvariance  
  • 11. Figure 11.2 Difference Scores for 4 People Measured Twice
  • 12. Learning Check • For which of the following would a repeated- measures study be appropriate? A matched-subjects study? • A group of twins is tested for IQA • Comparing boys and girls strength at age 3B • Evaluating the difference in self-esteem between athletes and non-athletesC • Students’ knowledge is tested in September and December D
  • 13. Learning Check - Answer • For which of the following would a repeated- measures study be appropriate? A matched-subjects study? • A group of twins is tested for IQ (matched)A • Comparing boys and girls strength at age 3B • Evaluating the difference in self-esteem between athletes and non-athletesC • Students’ knowledge is tested in September and December (repeated-measures)D
  • 14. Learning Check • Decide if each of the following statements is True or False • A matched-samples study requires only 20 participants to obtain 20 scores in each of the conditions being compared T/F • As the variance of the difference scores increases, the magnitude of the t statistic decreases T/F
  • 15. Learning Check - Answers • Matched sample would require 20 subjects matched to 20 additional subjects False • Increasing the variance increases the denominator and decreases the t statistic True
  • 16. 11.3 Repeated-Measures Design Hypothesis Tests and Effect Size • Numerator of t statistic measures actual difference between the data MD and the hypothesis μD • Denominator measures the standard difference that is expected if H0 is true • Same four-step process as other tests
  • 17. Figure 11.3 Critical region for t df = 8 and α = .05
  • 18. Effect size for Related Samples s M dsCohen'estimated D  dft t r   2 2 2 DMDD stMIC   :)1.(.
  • 19. In The Literature • Report means and standard deviation in a statement or table • Report a concise version of test results – Report t values with df – Report significance level – Report effect size • E.g., t(9) = 2.43, p<.05, r2 = .697
  • 20. Factors That Influence Hypothesis Test Outcome • Size of the sample mean difference (larger mean difference  larger numerator so increases t • Sample size (larger sample size  smaller standard error—denominator—so larger t) • Larger sample variance  larger standard error—denominator—so larger t)
  • 21. Variability as measure of consistency • When treatment has consistent effect – Difference scores cluster together – Variability is low • When treatment effect is inconsistent – Difference scores are more scattered – Variability is high • Treatment effect may be significant when variability is low, but not significant when variability is high
  • 22. Figure 11.4 Example 11.1 Consistent Difference Scores
  • 23. Figure 11.5 A Sample of Inconsistent Difference Scores
  • 24. Directional Hypotheses and One-Tailed Tests • Researchers often have specific predictions for related-samples designs • Null hypothesis and research hypothesis are stated directionally, e.g. – H0: μD ≤ 0 – H1: μD > 0 • Critical region is located in one tail
  • 25. 11.4 Related-Samples Vs. Independent-Samples t Tests • Advantages of repeated-measures design – Requires fewer subjects – Able to study changes over time – Reduces or eliminates influence of individual differences – Substantially less variability in scores
  • 26. 11.4 Related-Samples Vs. Independent-Samples t Tests • Disadvantages of repeated-measures design – Factors besides treatment may cause subject’s score to change during the time between measurements – Participation in first treatment may influence score in the second treatment (order effects) • Counterbalancing is a way to control time- related or order effects
  • 27. Related-Samples t Test Assumptions • Observations within each treatment condition must be independent • Population distribution of difference scores (D values) must be normally distributed – This assumption is not typically a serious concern unless the sample size is small. – With relatively large samples (n > 30) this assumption can be ignored
  • 28. Learning Check • Assuming that the sample mean difference remains the same, which of the following sets of data is most likely to produce a significant t statistic? • n = 15 and SS = 10A • n = 15 and SS = 100B • n = 30 and SS = 10C • n = 30 and SS = 100D
  • 29. Learning Check - Answer • Assuming that the sample mean difference remains the same, which of the following sets of data is most likely to produce a significant t statistic? • n = 15 and SS = 10A • n = 15 and SS = 100B • n = 30 and SS = 10C • n = 30 and SS = 100D
  • 30. Learning Check • Decide if each of the following statements is True or False • Compared to independent-measures designs, repeated-measures studies reduce the variance by removing individual differences T/F • The repeated-measures t statistic can be used with either a repeated-measures or a matched-subjects design T/F
  • 31. Learning Check - Answers • Using the same subjects in both treatments removes individual differences across treatments True • Both of these related-samples tests reduce individual differences across treatments True
  • 32. Figure 11.6 Example 11.1 SPSS Repeated-Measures Test Output

Notes de l'éditeur

  1. FIGURE 11.1 (a) A population of difference scores for which the mean is μD = 0. Note that the typical difference score (D value) is not equal to zero. (b) A population of difference scores for which the mean is greater than zero. Note that most of the difference scores are also greater than zero.
  2. FIGURE 11.2 A sample of n = 4 people is selected from the population. Each individual is measured twice, once in treatment I and once in treatment II, and a difference score, D, is computed for each individual. This sample of difference scores is intended to represent the population. Note that we are using a sample of difference scores to represent a population of difference scores. Note also that the mean for the population of difference scores is unknown. The null hypothesis states that, for the general population, there is no consistent or systematic difference between the two treatments, so the population mean difference is μD = 0.
  3. FIGURE 11.3 The critical region for the t distribution with df = 8 and α = .05.
  4. FIGURE 11.4 The sample of difference scores from Example 11.1. The mean is MD = -2 and the standard deviation is s = 2. The difference scores are consistently negative, indicating a decrease in perceived pain, suggesting that μD = 0 (no effect) is not a reasonable hypothesis.
  5. FIGURE 11.5 A sample of difference scores with a mean of MD = -2 and a standard deviation of s = 6. The data do not show a consistent increase or decrease in scores. Because there is no consistent treatment effect, μD = 0 is a reasonable hypothesis.
  6. FIGURE 11.6 The SPSS output for the repeated-measures hypothesis test in Example 11.1.