Question

In: Statistics and Probability

We want to test whether short people differ with respect to their leadership qualities (Genghis Khan,...

We want to test whether short people differ with respect to their leadership qualities
(Genghis Khan, Adolf Hitler and Napoleon were all stature-deprived, and how many midget
MP's are there?) The following table shows the frequencies with which 43 short people and
52 tall people were categorized as "leaders", "followers" or as "unclassifiable". Is there a
relationship between height and leadership qualities?
[Chi-Square = 10.71, with 2 df: ? < 0.01].

## Height
Short
Tall
Leader 12 32
Follower 22 14
Unclassified 9 6

Solutions

Expert Solution

orchestra answered 1 year ago
Next > < Previous

Related Solutions

We want to test whether proportions of cancer differ between a group exposed to estrogen (Group1)...
We want to test whether proportions of cancer differ between a group exposed to estrogen (Group1) and a placebo group (Group2) (two-sided). Let n1=8506 and n2=8102. After a five year follow up, Group 1 had 751 incidents while the Group 2 had 623 incidents. State null and alternative hypotheses. Calculate the proportions of incidents in both samples combined, π^. (Report up to 4 decimal places.) Compute the test statistics, Z. (Round up to 2 decimal places). Compute the p-value (two-sided)....
Suppose we want to test whether or not three means are equal. We want to perform...
Suppose we want to test whether or not three means are equal. We want to perform this test with a 2% significance level. If we perform an ANOVA test, what is the probability of the test producing accurate results (avoiding a Type I error)? Suppose we, instead, run three separate hypothesis tests (t-tests), each with 2% significance level. Mean 1 = Mean 2 Mean 1 = Mean 3 Mean 2 = Mean 3 What is the probability that all three...
Suppose we want to test whether or not three means are equal. We want to perform...
Suppose we want to test whether or not three means are equal. We want to perform this test with a 2% significance level. If we perform an ANOVA test, what is the probability of the test producing accurate results (avoiding a Type I error)? Suppose we, instead, run three separate hypothesis tests (t-tests), each with 2% significance level. Mean 1 = Mean 2 Mean 1 = Mean 3 Mean 2 = Mean 3 What is the probability that all three...
Suppose we want to test whether or not three means are equal. We want to perform...
Suppose we want to test whether or not three means are equal. We want to perform this test with a 10% significance level. If we perform an ANOVA test, what is the probability of the test producing accurate results (avoiding a Type I error)? Suppose we, instead, run three separate hypothesis tests (t-tests), each with 10% significance level. Mean 1 = Mean 2 Mean 1 = Mean 3 Mean 2 = Mean 3 What is the probability that all three...
Suppose we want to test whether or not three means are equal. We want to perform...
Suppose we want to test whether or not three means are equal. We want to perform this test with a 2% significance level. If we perform an ANOVA test, what is the probability of the test producing accurate results (avoiding a Type I error)? Suppose we, instead, run three separate hypothesis tests (t-tests), each with 2% significance level. Mean 1 = Mean 2 Mean 1 = Mean 3 Mean 2 = Mean 3 What is the probability that all three...
Suppose we want to test whether or not three means are equal. We want to perform...
Suppose we want to test whether or not three means are equal. We want to perform this test with a 7% significance level. If we perform an ANOVA test, what is the probability of the test producing accurate results (avoiding a Type I error)? Suppose we, instead, run three separate hypothesis tests (t-tests), each with 7% significance level. Mean 1 = Mean 2 Mean 1 = Mean 3 Mean 2 = Mean 3 What is the probability that all three...
AM -vs- PM Height: We want to test the claim that people are taller in the...
AM -vs- PM Height: We want to test the claim that people are taller in the morning than in the evening. Morning height and evening height were measured for 33 randomly selected adults and the difference (morning height) − (evening height) for each adult was recorded. The mean difference was 0.21 cm with a standard deviation of 0.39 cm. Use this information to test the claim that on average people are taller in the morning than in the evening. Test...
AM -vs- PM Height: We want to test the claim that people are taller in the...
AM -vs- PM Height: We want to test the claim that people are taller in the morning than in the evening. Morning height and evening height were measured for 32 randomly selected adults and the difference (morning height) − (evening height) for each adult was recorded. The mean difference was 0.22 cm with a standard deviation of 0.41 cm. Use this information to test the claim that on average people are taller in the morning than in the evening. Test...
We want to test to see whether average SAT scores for science majors equals the average...
We want to test to see whether average SAT scores for science majors equals the average SAT scores for non-science majors. We collect the following sample SAT scores: Science            Non-Science 440                  1000 1550                1010 1400                970 370                  1020 600                  980 800                  1000 1390                1080 1100    1500    1480    450      1430 Use Excel to test this hypothesis at the 0.05 level by first testing variances (at the 0.05 level) and then means
We want to test to see whether average SAT scores for science majors equals the average...
We want to test to see whether average SAT scores for science majors equals the average SAT scores for non-science majors. We collect the following sample SAT scores: Science            Non-Science 440                  1000 1550                1010 1400                970 370                  1020 600                  980 800                  1000 1390                1080 1100    1500    1480    450      1430    Use Excel to test this hypothesis at the 0.05 level by first testing variances (at the 0.05 level) and then means. Submit your Excel...
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT