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GOSSET, William Sealy 1876-1937 How shall I deal with these small batches of brew?

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Presentation on theme: "GOSSET, William Sealy 1876-1937 How shall I deal with these small batches of brew?"— Presentation transcript:

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2 GOSSET, William Sealy 1876-1937 How shall I deal with these small batches of brew?

3 GOSSET, William Sealy 1876-1937 A series of distributions of sample means drawn from a population of standardized scores (therefore the mean of mean is 0 and sd=1), in which the shape of the distribution varies systematically, depending on the size of the sample. The larger the sample, the more it matches a normal distribution; and the smaller the sample, the fatter the tails.

4 Jeremy Jimenez A T distribution is derived by approximating the mean of a normally distributed population, particularly useful with an unknown standard deviation and a small sample size. To visualize how it functions, imagine an inverted letter T placed under this standard probability distribution, where the Two Tails of this inverted T are nestled within the Two Tails of the standard probability distribution, thus making the Two Tails Thicker than a Typical distribution. As the sample size rises, the range of potential outlier sample means derived from the population shortens; therefore, the Two Tails of the probability distribution shorten (along with the standard deviation) and Thus Thrust into the Two Tails of the inverted T, also causing the inverted T to rise and create a greater kurTosis

5 ρ XY

6 Population Sample A Sample B Sample E Sample D Sample C _  XY r XY

7 The t distribution, at N-2 degrees of freedom, can be used to test the probability that the statistic r was drawn from a population with  = 0. Table C. H 0 :  XY = 0 H 1 :  XY  0 where r N - 2 1 - r 2 t =

8 Monday, November 7 Independent samples t-test for the difference between two means.

9 Monday, November 7 Independent samples t-test for the difference between two means. signal-to-noise ratio

10 Monday, November 7 Independent samples t-test for the difference between two means. signal-to-noise ratiosafety in numbers

11 μ 1 - μ 2 X 1 -X 2 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

12 H 0 :  1 -  2 = 0 H 1 :  1 -  2  0

13

14 X boys =53.75 _ X girls =51.16 _ How do we know if the difference between these means, of 53.75 - 51.16 = 2.59, is reliably different from zero?

15 X boys =53.75 _ X girls =51.16 _ 95CI: 52.07   boys  55.43 95CI: 49.64   girls  52.68 We could find confidence intervals around each mean...

16 H 0 :  1 -  2 = 0 H 1 :  1 -  2  0 But we can directly test this hypothesis...

17 H 0 :  1 -  2 = 0 H 1 :  1 -  2  0 To test this hypothesis, you need to know … …the sampling distribution of the difference between means.  X 1 -X 2 --

18 H 0 :  1 -  2 = 0 H 1 :  1 -  2  0 To test this hypothesis, you need to know … …the sampling distribution of the difference between means.  X 1 -X 2 -- …which can be used as the error term in the test statistic.

19  X 1 -X 2 =    2 X 1 +  2 X 2 The sampling distribution of the difference between means. This reflects the fact that two independent variances contribute to the variance in the difference between the means. ----

20  X 1 -X 2 =    2 X 1 +  2 X 2 The sampling distribution of the difference between means. This reflects the fact that two independent variances contribute to the variance in the difference between the means. ---- Your intuition should tell you that the variance in the differences between two means is larger than the variance in either of the means separately.

21 The sampling distribution of the difference between means, at n = , would be: z = (X 1 - X 2 )  X 1 -X 2 -- --

22 The sampling distribution of the difference between means. Since we don’t know , we must estimate it with the sample statistic s.  X 1 -X 2 =   2 1   2 2 n 1 n 2 + --

23 The sampling distribution of the difference between means. Rather than using s 2 1 to estimate  2 1 and s 2 2 to estimate  2 2, we pool the two sample estimates to create a more stable estimate of  2 1 and  2 2 by assuming that the variances in the two samples are equal, that is,  2 1 =  2 2.  X 1 -X 2 =  s 2 1  s 2 2 n 1 n 2 + --

24 s X1-X2 = s p 2 s p 2 N 1 N 2 +

25 s X1-X2 = s p 2 s p 2 N 1 N 2 +

26 s X1-X2 = s p 2 s p 2 N 1 N 2 + s p 2 = SS w SS 1 + SS 2 N-2 =

27 Because we are making estimates that vary by degrees of freedom, we use the t-distribution to test the hypothesis. t = (X 1 - X 2 ) - (  1 -  2 )  s X 1 -X 2 …at (n 1 - 1) + (n 2 - 1) degrees of freedom (or N-2)

28 Assumptions X 1 and X 2 are normally distributed. Homogeneity of variance. Samples are randomly drawn from their respective populations. Samples are independent.

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