We do not know the population standard deviations so this will be a t test. Also,
Degrees of freedom = n1 + n2 - 2 = 15 + 17 - 2 = 30
Hence,
Option B is correct.
5. We wish to conduct a hypothesis test of the form Ho : μ1-2-0 vs Ha...
Consider the following hypothesis test. H0: μ1 − μ2 = 0 Ha: μ1 − μ2 ≠ 0 The following results are from independent samples taken from two populations. Sample 1 Sample 2 n1 = 35 n2 = 40 x1 = 13.6 x2 = 10.1 s1 = 5.9 s2 = 8.5 (a) What is the value of the test statistic? (Use x1 − x2. Round your answer to three decimal places.) (b) What is the degrees of freedom for the t...
Consider the following hypothesis test. H0: μ1 − μ2 = 0 Ha: μ1 − μ2 ≠ 0 The following results are from independent samples taken from two populations assuming the variances are unequal. Sample 1 Sample 2 n1 = 35 n2 = 40 x1 = 13.6 x2 = 10.1 s1 = 5.3 s2 = 8.3 What is the value of the test statistic? (Use x1 − x2 .(Round your answer to three decimal places.) ________________. What is the degrees of...
Suppose that we want to test the null hypothesis that the mean of population 1 is equal to the mean of population 2. We select a random sample from population 1 and a random sample from population 2, and these two samples are independent. Circle the TRUE statements. A. We need to perform a two-sided test. B. If we know the variance of each population, even if they are different, we can use the Z test. That is, the test...
Consider the following hypothesis test. H₀: μ₁-μ₂=0Ha: μ₁-μ₂ ≠ 0The following results are from independent samples taken from two populations. Sample 1 Sample 2n1 = 35n2 = 40x̅1 = 13.6x̅2 = 10.1s1 = 5.5s2 = 8.6a. What is the value of the test statistic (to 2 decimals)? b. What is the degrees of freedom for the t distribution (to 1 decimal)?
(2 pts) Consider the test of the claims that the two samples described below come from two populations whose means are equal vs. the alternative that the population means are different. Assume that the samples are independent simple random samples and that both populations are approximately normal with equal variances. Use a significance level of α-0.01 Sample 1: ni - 17, x1- 21, s1 10 Sample 2: n2 -4, x2-29, s2 -5 (a) Degrees of freedom - (b) The test...
Two independent simple random samples are taken to test the difference between the means of two populations whose standard deviations are not known, but are assumed to be equal. The sample sizes are n 1 = 25 and n 2 = 30. The correct distribution to use is the t distribution with _____ degrees of freedom.
4.) Consider the hypothetical hypothesis test of: VS HA: H1-H2 < 0 Hot-H2 = 0 If we know that sample 1 has a mean of 4.7 with a variance of 4; and sample 2 has a mean of 7.8 and a variance of 6.25 and both samples are of size 16; we are also allowed to assume that both populations sampled from are normal and that the true deviations of each population are equal. Use a 1% level for this...
Consider the following hypothesis test. H0: μ1 − μ2 = 0 Ha: μ1 − μ2 ≠ 0 The following results are for two independent samples taken from the two populations. Sample 1 Sample 2 n1 = 80 n2 = 70 x1 = 104 x2 = 106 σ1 = 8.4 σ2 = 7.2 (a) What is the value of the test statistic? (Round your answer to two decimal places.) (b) What is the p-value? (Round your answer to four decimal places.)...
Consider the following hypothesis test. Ho:μ1-μ2=0 Hα:μ1-μ2 #0 The following results are from independent samples taken from two populations sample1 sample 2 n1-35 n2=40 x1=13.6 x2=10.1 s1=5.2 s2=8.5 a.What is the value of the test statistic? b.What is the value of the degrees of freedom for the distribution? c.What is the p-value? d.At α=.05, what is your conclusion?
Please solve 2.7, 2.8 and 2.9 problems.
2.7. Suppose that we are testing Ho : μ1 Ha versus Ho: > μ2 where the two sample sizes are ni n, 10. Both sample variances are unknown but assumed equal. Find bounds on the P-value for the following observed values of the test statistic. (a) to= 2.31 (b) toー3.60 (c) to-1.95 (d) 0-219 2.8. Consider the following sample data: 9.37, 13.04, 11.69, 8.21, 11.18, 10.41, 13.15, 11.51, 13.21, and 7.75. Is it...