Take 2 samples from the same population where each sample has 10 observations. (IT IS A...

The following 94% C.I.for u was obtained from a sample of 27 observations (the population variance...

The following 94% C.I.for u was obtained from a sample of 27 observations (the population variance is known); (-2290.1232, 259.6632) 1) What is xbar? 2) What is sigma? please explain in detail with step by step?

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 [61.43, 78.97, 61.63, 70.48, 66.46, 66.82] Sample 2 [68.41, 67.18, 65.01, 66.88, 64.06] 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.

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.

The results of inspection of DNA samples taken over the past 10 days are given below....

The results of inspection of DNA samples taken over the past 10 days are given below. Sample size is 100. Day 1 2 3 4 5 6 7 8 9 10 # of defectives 7 6 6 9 5 0 0 8 6 1 (a) Determine the fraction defective of the p chart. Please give the formula and at least one step of calculation for full credit. (6 points) (b) Determine the of the p chart. Please give the formula...

Independent random samples of 140 observations were randomly selected from binomial populations 1 and 2, respectively....

Independent random samples of 140 observations were randomly selected from binomial populations 1 and 2, respectively. Sample 1 had 82 successes, and sample 2 had 87 successes. Suppose that, for practical reasons, you know that p1 cannot be larger than p2. Test the appropriate hypothesis using α = 0.10. Find the test statistic. (Round your answer to two decimal places.) z = Find the rejection region. (Round your answers to two decimal places. If the test is one-tailed, enter NONE...

Independent random samples of 36 and 48 observations are drawn from two quantitative populations, 1 and...

Independent random samples of 36 and 48 observations are drawn from two quantitative populations, 1 and 2, respectively. The sample data summary is shown here. Sample 1 Sample 2 Sample Size 36 48 Sample Mean 1.28 1.32 Sample Variance 0.0570 0.0520 Do the data present sufficient evidence to indicate that the mean for population 1 is smaller than the mean for population 2? Use one of the two methods of testing presented in this section. (Round your answer to two...

Use the following to answer the next 2 questions. Do government employees take longer coffee breaks...

Use the following to answer the next 2 questions. Do government employees take longer coffee breaks than private sector workers? That is a question that interested a management consultant. To examine the issue, he took a random sample of ten government employees and another random sample of ten private sector workers and measured the amount of time (in minutes) they spent in coffee breaks during the day (the samples are assumed to be independent). PS: Relevant outputs are given below;...

Researchers A and B each have a random sample from the same population, which has mean...

Researchers A and B each have a random sample from the same population, which has mean and a finite variance. Here are their data: Researcher A        Researcher B Sample sizes                      nA   nB Sample means         Consider the following claims: Claim 1. If nA > nB, the estimator  puts too much weight on researcher A’s observations to be efficient. Claim 2. If nA ≠≠ nB, the estimator  is biased. Claim 3. If nA > nB, we can make the estimator  more efficient by...

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

1) Independent random samples, each containing 90 observations, were selected from two populations. The samples from populations 1 and 2 produced 21 and 14 successes, respectively. Test H0:(p1?p2)=0 against Ha:(p1?p2)?0. Use ?=0.07. (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 and accept that (p1?p2)?0. B. There is not sufficient evidence to reject the null hypothesis that (p1?p2)=0. 2)Two random samples are taken, one from among...

5. Consider a simple case with only four independently and identically distributed (iid) observations, X1, X2,...

5. Consider a simple case with only four independently and identically distributed (iid) observations, X1, X2, X3, X4, on a random variable X. Consider these two estimators: µˆ1 = 1/12 (2X1 + 4X2 + 4X3 + 2X4), µˆ2 = 1/12 (X1 + 5X2 + 5X3 + X4). a Show that each is unbiased, and that one is more efficient than the other. b Show that the usual sample mean is more efficient than either. Explain why the others given above...