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Two Population Means Hypothesis Testing and Confidence Intervals For Matched Pairs

Two Population Means Hypothesis Testing and Confidence Intervals For Matched Pairs. Matched Pairs.

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Two Population Means Hypothesis Testing and Confidence Intervals For Matched Pairs

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  1. Two Population Means Hypothesis Testing and Confidence Intervals For Matched Pairs

  2. Matched Pairs • Sometimes experiments are conducted in such a way that samples from two populations are matchedwith something in common so that the i-th sample taken from the first population has something in common with the i-th sample of the second population. • It is the “common element” (same date, same weight, etc.) that is chosen at random and dictates the corresponding observations from each population. • Differences between the sample values (dictated by the “common element”) from each population are computed. • If it can be assumed that the differences have a normal distribution, t-tests can then be performed or t-intervals constructed for the average value of the differences. • Pairing, in general, reduces the variability in the problem.

  3. Hypothesis Tests and Confidence Intervals for Matched Pairs • Suppose there a random sample of nD elements is taken. For each a corresponding sample from each population is observed. The difference is denoted di. So there are nD observations of differences, di’s. • Statistics calculated:

  4. Hypothesis Tests and Confidence Intervals for Matched Pairs • Hypothesis Test: H0: D = d HA: D > d Test statistic: • Confidence Interval: Both the hypothesis test and the confidence interval have nD-1 degrees of freedom.

  5. Example Objective: Compare sales at two branch stores, one in Anaheim, the other in Irvine. • Can it be concluded that average daily sales in Anaheim is at least $200 greater than average daily sales in Irvine? • Construct a 95% confidence interval for the average difference in daily sales between the Anaheim and Irvine branches.

  6. Approach 1 • Records of sales on seven random dates in Anaheim are selected and seven random dates in Irvine are selected. • There is nothing in common between the Anaheim and Irvine samples. Would have to use Difference in Means approach. Probably not the best approach.

  7. Approach 2 Calculate Differences _ Calculate statistics: d =400 sD = 258.2 • Do not choose the receipts at random, but choose the dates at random and observe the sales at the Anaheim and Irvine branch stores on these dates. These data are paired by the random dates.

  8. Hypothesis Test H0: D = 200 HA: D > 200 • Select α = .05. • Reject H0 (Accept HA) if t > t.05,6 = 1.943 2.049 > 1.943; thus it can be concluded that average daily sales in Anaheim > $200 more than average daily sales in Irvine.

  9. 95% Confidence Interval 400 ± 238.8 161.2  638.8

  10. Excel For Matched Pairs • Hypothesis Tests • Go to Tools/Data Analysis and select t-Test Paired Two Sample for Means. • Look at p-value for the test. • Confidence Intervals • Create a column of differences. • Go to Tools/Data Analysis and select Descriptive Statistics: Mean ± Confidence

  11. Excel - Hypothesis Test Go Tools Select Data Analysis Select t-Test: Paired Two Sample for Means

  12. Excel: t-Test for Matched Pairs Since HA is D > 200, enter Column B for Range 1 Column C for Range 2 200 for Hypothesized Mean Difference Check Labels Designate first cell for output.

  13. Hypothesis Test (Cont’d) p-value for one-tail test p-value for at two-tail “” test Low p-value for 1-tail test (compared to α =.05)! Can conclude average daily sales in Anaheim exceed those in Irvine by > $200

  14. 95% Confidence Interval for Matched Pairs Go to Tools/Data Analysis Descriptive Statistics On Column D. Store output beginning in cell H1. =B2-C2 Drag to D3:D8 =I3-I16 =I3+I16

  15. Review • What constitutes “matched pairs” • Matched pairs normally reduces variability from difference in means tests • Create a set of differences • Hypothesis Tests/Confidence Intervals for average difference • By hand • By Excel Summary

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