After filling in the # cases and population, compute the Incidence Rate (8 decimal places). Use the data in Tables below to test your hypothesis at the .05 level of significance. Use the P-value approach and show allsteps. In particular: Set up hypotheses (identifying claim); compute the test-statistic; find the P-value; run test/make decision; interpret your decision in the context of the claim. Do a separate test for each country. As part of your answer, be sure to check that the conditions necessary to do the test have been met Guinea Male Female Number of cases 1599 1747 population 14,340,602 Incidence rate .0002332 Liberia Male Female Number of cases 1911 1838 population 5,471,241 Incidence rate .00068522 Sierra Leone Male Female Number of cases 4823 5118 population 8,874,792 Incidence rate .00120139
After filling in the # cases and population, compute the Incidence Rate (8 decimal places). Use the data in Tables below to test your hypothesis at the .05 level of significance. Use the P-value approach and show allsteps. In particular: Set up hypotheses (identifying claim); compute the test-statistic; find the P-value; run test/make decision; interpret your decision in the context of the claim. Do a separate test for each country. As part of your answer, be sure to check that the conditions necessary to do the test have been met
Guinea
|
|
Male |
Female |
|
Number of cases |
1599 |
1747 |
|
population |
14,340,602 |
|
|
Incidence rate |
.0002332 |
|
Liberia
|
|
Male |
Female |
|
Number of cases |
1911 |
1838 |
|
population |
5,471,241 |
|
|
Incidence rate |
.00068522 |
|
Sierra Leone
|
|
Male |
Female |
|
Number of cases |
4823 |
5118 |
|
population |
8,874,792 |
|
|
Incidence rate |
.00120139 |
|
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