Data Set 9 in Appendix B lists measured cotinine levels from a sample of subjects who smoke, another sample of subjects who do not smoke but are exposed to environmental tobacco smoke, and a third sample of subjects who do not smoke and are not exposed to environmental tobacco smoke. Cotinine is produced when the body absorbs nicotine. Use a 0.01 significance level to test the claim that the three samples are from populations with the same median. What do the results suggest about a smoker who argues that he absorbs as much nicotine as people who don’t smoke? Use the Kruskal-Wallis test with the data set from Appendix B.
Answer to relevant QuestionsRefer to Data Set 10 in Appendix B and use the amounts of nicotine (mg per cigarette) in the king-size cigarettes, the 100-mm menthol cigarettes, and the 100-mm nonmenthol cigarettes. The king-size cigarettes are ...Refer to Table 13-2 in Section 13-1 and identify the efficiency of the rank cor-relation test. What does that value tell us about the test? Listed below are the overhead widths (in cm) of seals measured from photographs and the weights of the seals (in kg). The data are based on “Mass Estimation of Weddell Seals Using Techniques of Photogrammetry,” by R. ...If we use a 0.05 significance level to test for randomness of the sequence given in Exercise 2, we conclude that there is not sufficient evidence to reject randomness. a. Rearrange the sequence so that randomness is rejected ...a. Using all of the elements A, A, A, B, B, B, B, B, B, list the 84 different possible sequences. b. Find the number of runs for each of the 84 sequences. c. Use the results from parts (a) and (b) to find your own critical ...
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