[7] 1. Draw a scatter plot and compute the correlation coefficient for the following data. What do you conclude?
|
Subject: |
1 |
2 |
3 |
4 |
5 |
|
% reticulytes: |
3.6 |
2.0 |
0.3 |
0.3 |
0.2 |
|
Lymphocytes /mm2: |
1700 |
3078 |
1820 |
2706 |
2086 |
[8] 2. A tree has 263 peaches and their diameters are independently Normal with mean 3 inches and standard deviation 0.2 inches. If only peaches with diameter greater than 2.5 inches can be marketed, how many peaches would you expect to market from this tree? What is the probability that all 263 peaches will exceed the minimum diameter?
[9] 3. In Assignment 1, you found the following table for children age 2 or younger, with a single infected ear; 13 had been assigned to Antibiotic #1 and 12 to Antibiotic #2. Use the hypergeometric distribution to compute the probability of the infection clearing in at most 2 of the 12 children on Antibiotic #2, given that 6 children did clear and 19 didn't, and assuming that clearance is independent of antibiotic. Compute an odds ratio and risk ratio for the table. What can you conclude?
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|
|
Antibiotic |
|
|
|
|
|
|
|
14-day clearance |
No |
|
|
|
|
Yes |
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|
[6] 4. Suppose that an influenza epidemic strikes a city. In 8% of families the mother has influenza; in 8% of families the father has influenza; and in 2% of families both the mother and the father have influenza. Are the mother and father independent with respect to influenza? Suppose there is a 20% chance that any one child will get influenza, whereas in 12% of two-child families, both children will get the disease. What is the probability that at least one child in a two-child family will get the disease?