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1 Dr. David McKirnan, Psychology 242 Introduction to Research Cranach, Tree of Knowledge [of Good and Evil] (1472) Click “slide show”

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1 1 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Cranach, Tree of Knowledge [of Good and Evil] (1472) Click “slide show” to start this presentation as a show. Remember: focus & think about each point; do not just passively click. Click “slide show” to start this presentation as a show. Remember: focus & think about each point; do not just passively click. © Dr. David J. McKirnan, 2014 The University of Illinois Chicago McKirnanUIC@gmail.com Do not use or reproduce without permission Statistics module 4: Calculating a t score

2 2 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Statistics module series This series has seven modules: 1. Introduction to statistics & number scales 2. The Z score and the normal distribution 5. Calculating a t score 6. Testing t: The Central Limit Theorem You are here © Dr. David J. McKirnan, 2014 The University of Illinois Chicago McKirnanUIC@gmail.com Do not use or reproduce without permission 4. Testing hypotheses: The critical ratio 7. Correlations: Measures of association 3. The logic of research; Plato's Allegory of the Cave

3 3 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Statistical Hypothesis Testing What is our (statistical) hypothesis? a.That the mean score (M) for the experimental group is greater than (or less than, depending upon our hypothesis…) the M for the control group… b.…by more than we might expect by chance alone. What is the “null” hypothesis? Any difference between the M for the experimental group and the M for the control group is by chance alone. M experimental – M control = 0, except for chance (error variance) The research question (in statistical terms) : In our study, is the difference between the group Means (M exp – M control ) greater than (or less than…) 0 by more than we would expect by chance alone?

4 4 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Statistical Hypothesis Testing For a t-test: The experimental effect is the difference between the Ms of the experimental & control groups The error variance is the square root of the summed variances of the groups, similar to a two-group standard deviation. = = t= t (M exp - M control ) - 0 The concept underlying the t test is the critical ratio : How strongly did the independent variable affect the outcome? How much error variance [“uncertainty”, “noise”] is there in the data

5 5 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research t-test Difference between groups standard error of M t = = (M group 1 - M group 2 ) - 0 t = (M group 1 - M group 2 ) - 0 t = ➔ How strong is the experimental effect? ➔ How much error variance is there ➔ How strong is the experimental effect? ➔ How much error variance is there

6 6 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research t-test Difference between groups standard error of M t = = (M group 1 - M group 2 ) - 0 t = Standard error: ➔ Calculate the variance for for group 1 ➔ Sum of squares ➔ Divided by degrees of freedom (n-1) ➔ Divide by n for group 1 ➔ Repeat for group 2 ➔ Add them together ➔ Take the square root Standard error: ➔ Calculate the variance for for group 1 ➔ Sum of squares ➔ Divided by degrees of freedom (n-1) ➔ Divide by n for group 1 ➔ Repeat for group 2 ➔ Add them together ➔ Take the square root

7 7 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research t-test Difference between groups standard error of M t = = (M group 1 - M group 2 ) - 0 t = (M group 1 - M group 2 ) - 0 t = The expanded version…

8 8 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Compute a t score (M group 1 - M group 2 ) - 0 t = Compute the Experimental Effect: Calculate the Mean for each group, subtract Mgroup 2 from Mgroup 1. Compute the Standard Error Calculate the variance for each group Calculate the variance

9 9 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Calculate the Variance using the box method: 2. Calculate the Mean. 3. Calculate Deviation scores:  Simple deviations: Σ (X – M) = 0  Square the deviations to create + values: Σ Squares = Σ(X - M) 2 = 52 4. Degrees of freedom: df = [n – 1] = [10 – 1] = 9 X7621417426X7621417426 M4444444444M4444444444 X - M 3 2 -2 -3 0 -3 3 0 -2 2 = 0 Σ = 0 (X - M) 2 9 4 9 0 9 0 4 = 52 Σ = 52 n = 10 Σ= 40 M = 40/10 = 4 1. Enter the Scores. 5. Apply the Variance formula:

10 10 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Compute a t score (M group 1 - M group 2 ) - 0 t = Compute the Experimental Effect: Calculate the Mean for each group, subtract group 2 M from group 1 M. Compute the Standard Error Calculate the variance for each group Calculate the variance Divide each variance by n for the group Add those computations Take the square root of that total Compute t Divide the Experimental Effect effect error by the Standard Error

11 11 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Examples of deriving t values M 1 – M 2 = 4 – 2.5 = 1.5 Standard error =.75 1.5.75 ==2t= M 1 – M 2 = 4 – 2.5 = 1.5 Standard error = 1.75 1.5 1.75 ==.86 t= M = 4 M = 2.5 M = 4 M = 2.5

12 12 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Clicker! Why does this have a t value = 2? a.The variance within each group is large relative to the difference between the group means. b.The M of the larger group = 4 and there are 2 groups c.The difference between the group means is large relative to the variance within each group d.t is a random number M = 4 M = 2.5

13 13 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Clicker! Why does this have a t value = 2? a.The variance within each group is large relative to the difference between the group means. b.The M of the larger group = 4 and there are 2 groups c.The difference between the group means is large relative to the variance within each group d.t is a random number M = 4 M = 2.5

14 14 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Clicker, 2 Why does this have a t value =.86? M = 4 M = 2.5 a.The variance within each group is large relative to the difference between the group means. b.The M of the larger group = 4 and there are 2 groups c.The difference between the group means is large relative to the variance within each group d.t is a random number

15 15 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Clicker, 2 Why does this have a t value =.86? M = 4 M = 2.5 a.The variance within each group is large relative to the difference between the group means. b.The M of the larger group = 4 and there are 2 groups c.The difference between the group means is large relative to the variance within each group d.t is a random number

16 16 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Sampling distribution of t scores Sampling distribution & statistical significance Any 2 group Ms differ at least slightly by chance. Any t score is therefore > 0 or < 0 by chance alone. We assume that a t score with less than 5% probability of occurring [p <.05] is not by chance alone We calculate the probability of a t score by comparing it to a sampling distribution

17 17 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research The Sampling Distribution -3 -2 -1 0 +1 +2 +3 Z or t Scores (standard deviation units) 34.13% of scores from Z = 0 to Z = +1 and from Z = 0 to Z = -1 34.13% of scores from Z = 0 to Z = +1 and from Z = 0 to Z = -1 13.59% of scores + 13.59% of scores + 13.59% of scores 2.25% of scores + 2.25% of scores + 2.25% of scores We can segment the population into standard deviation units from the mean. These are denoted as Z or t M = 0, We can segment the population into standard deviation units from the mean. These are denoted as Z or t M = 0, Each segment takes up a fixed % of cases (or “area under the curve”). each standard deviation represents Z = 1

18 18 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Sampling distribution of t scores t scores and statistical significance, 1 M 1 – M 2 = 4 – 2.5 Standard error 1.5.75 ==2t= t = 2.0 Comparing t to a sampling distribution: About 98% of t values are lower than 2.0 About 98% of t scores

19 19 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Sampling distribution of t scores t scores and statistical significance, 1 t =.88 About 81% of the distribution of t scores are below.88 (area under the curve =.81) About 81% of scores M 1 – M 2 = 4 – 2.5 Standard error 1.5 1.75 =.86 t= =

20 20 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Sampling distribution of t scores t =.86t = 2.0 Between v. within group variance: t-test logic About 98% of t scores; p <.05 About 81% of scores The difference between Ms is the same in the two data sets. Since the variances differ… We get different t values We make differ judgments about whether these t scores occurred by chance. Since the variances differ… We get different t values We make differ judgments about whether these t scores occurred by chance.

21 21 Dr. David McKirnan, mckirnanuic@gmail.com Psychology 242 Introduction to Research Continue… Continue this series by clicking on the module for The Central Limit Theorem.

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