The following observations are from two independent random samples, drawn from normally distributed populations. Sample 1...

The following observations are from two independent random samples, drawn from normally distributed populations. Sample 1...

The following observations are from two independent random samples, drawn from normally distributed populations. Sample 1 [59.79, 79.13, 61.82, 55.15, 73.43, 56.37] Sample 2 [66.05, 66.93, 60.02, 64.24, 60.1] Test the null hypothesis H0:σ21=σ22 against the alternative hypothesis HA:σ21≠σ22. a) Using the larger sample variance in the numerator, calculate the F test statistic. Round your response to at least 3 decimal places.

Independent random samples of 42 and 36 observations are drawn from two quantitative populations, 1 and...

Independent random samples of 42 and 36 observations are drawn from two quantitative populations, 1 and 2, respectively. The sample data summary is shown here. Sample 1 Sample 2 Sample Size 42 36 Sample Mean 1.34 1.29 Sample Variance 0.0510 0.0560 Do the data present sufficient evidence to indicate that the mean for population 1 is larger than the mean for population 2? Perform the hypothesis test for H0: (μ1 − μ2) = 0 versus Ha: (μ1 − μ2) >...

Independent random samples, each containing 80 observations, were selected from two populations. The samples from populations...

Independent random samples, each containing 80 observations, were selected from two populations. The samples from populations 1 and 2 produced 16 and 10 successes, respectively. Test H0:(p1−p2)=0 against Ha:(p1−p2)≠0. Use α=0.1 (a) The test statistic is (b) The P-value is (c) The final conclusion is A. There is not sufficient evidence to reject the null hypothesis that (p1−p2)=0 B. We can reject the null hypothesis that (p1−p2)=0 and accept that (p1−p2)≠0

Independent random samples, each containing 60 observations, were selected from two populations. The samples from populations...

Independent random samples, each containing 60 observations, were selected from two populations. The samples from populations 1 and 2 produced 42 and 30 successes, respectively. Test H0:(p1−p2)=0 against Ha:(p1−p2)≠0. Use α=0.09 (a) The test statistic is (b) The P-value is (c) The final conclusion is A. We can reject the null hypothesis that (p1−p2)=0(p1−p2)=0 and accept that (p1−p2)≠0(p1−p2)≠0. B. There is not sufficient evidence to reject the null hypothesis that (p1−p2)=0(p1−p2)=0.

Independent random samples, each containing 50 observations, were selected from two populations. The samples from populations...

Independent random samples, each containing 50 observations, were selected from two populations. The samples from populations 1 and 2 produced 31 and 25 successes, respectively. Test H0:(p1−p2)=0 against Ha:(p1−p2)≠0. Use α=0.05. (a) The test statistic is (b) The P-value is

Independent random samples, each containing 90 observations, were selected from two populations. The samples from populations...

Independent random samples, each containing 90 observations, were selected from two populations. The samples from populations 1 and 2 produced 73 and 64 successes, respectively. Test H0:(p1−p2)=0 against Ha:(p1−p2)≠0. Use α=0.09 The P-value is The final conclusion is A. There is not sufficient evidence to reject the null hypothesis that (p1−p2)=0 B. We can reject the null hypothesis that (p1−p2)=0 and accept that (p1−p2)≠0

Consider the following summary statistics, calculated from two independent random samples taken from normally distributed populations....

Consider the following summary statistics, calculated from two independent random samples taken from normally distributed populations. Sample 1 x¯1=20.87 s21=2.01 n1=16 Sample 2 x¯2=24.00 s22=3.36 n2=15 Test the null hypothesis H0:μ1=μ2against the alternative hypothesis HA:μ1<μ2. a) Calculate the test statistic for the Welch Approximate t procedure. Round your response to at least 3 decimal places. b) The Welch-Satterthwaite approximation to the degrees of freedom is given by df = 26.366427. Using this information, determine the range in which the p-value...

Independent random samples, each containing 90 observations, were selected from two populations. The samples from populations...

Independent random samples, each containing 90 observations, were selected from two populations. The samples from populations 1 and 2 produced 44 and 35 successes, respectively. Test H0:(p1?p2)=0H0:(p1?p2)=0 against Ha:(p1?p2)>0Ha:(p1?p2)>0. Use ?=0.02?=0.02 (a) The test statistic is: (b) The P-value is:

1 point) Independent random samples, each containing 80 observations, were selected from two populations. The samples...

1 point) Independent random samples, each containing 80 observations, were selected from two populations. The samples from populations 1 and 2 produced 30 and 23 successes, respectively. Test H0:(p1−p2)=0H0:(p1−p2)=0 against Ha:(p1−p2)≠0Ha:(p1−p2)≠0. Use α=0.01α=0.01. (a) The test statistic is (b) The P-value is (c) The final conclusion is A. We can reject the null hypothesis that (p1−p2)=0(p1−p2)=0 and accept that (p1−p2)≠0(p1−p2)≠0. B. There is not sufficient evidence to reject the null hypothesis that (p1−p2)=0(p1−p2)=0.

Independent random samples, each containing 70 observations, were selected from two populations. The samples from populations...

Independent random samples, each containing 70 observations, were selected from two populations. The samples from populations 1 and 2 produced 42 and 35 successes, respectively. Test H0:(p1−p2)=0 H 0 : ( p 1 − p 2 ) = 0 against Ha:(p1−p2)≠0 H a : ( p 1 − p 2 ) ≠ 0 . Use α=0.06 α = 0.06 . (a) The test statistic is (b) The P-value is (c) The final conclusion is A. There is not sufficient evidence...