Calculate the UMP test of H0:θ≤1 versus H1:θ >1 for a random sample of 40 from...

1. In order to test H0: µ=40 versus H1: µ > 40, a random sample of...

1. In order to test H0: µ=40 versus H1: µ > 40, a random sample of size n=25 is obtained from a population that is known to be normally distributed with sigma=6. . The researcher decides to test this hypothesis at the α =0.1 level of significance, determine the critical value. b. The sample mean is determined to be x-bar=42.3, compute the test statistic z=??? c. Draw a normal curve that depicts the critical region and declare if the null...

To test H0: σ=70 versus H1: σ<70​, a random sample of size n equals 25 is...

To test H0: σ=70 versus H1: σ<70​, a random sample of size n equals 25 is obtained from a population that is known to be normally distributed. ​(a) If the sample standard deviation is determined to be s equals = 46.5​, compute the test statistic. ​(b) If the researcher decides to test this hypothesis at α=0.05 level of​ significance, use technology to determine the​ P-value. ​(c) Will the researcher reject the null​ hypothesis? What is the P-Value?

In order to test HO: µ0 = 40 versus H1: µ ≠ 40, a random sample...

In order to test HO: µ0 = 40 versus H1: µ ≠ 40, a random sample of size n = 25 is obtained from a normal population with a known σ = 6. My x-BAR mean is 42.3 from my sample. Using a TI 83/84 calculator, calculate my P-value with the appropriate Hypothesis Test.                                   Use a critical level α = 0.10 and decide to Accept or Reject HO with the valid reason for the decision. Group of answer choices My...

To test H0: σ=2.2 versus H1: σ>2.2​, a random sample of size n=15 is obtained from...

To test H0: σ=2.2 versus H1: σ>2.2​, a random sample of size n=15 is obtained from a population that is known to be normally distributed. Complete parts​ (a) through​ (d). (a) If the sample standard deviation is determined to be s=2.3​, compute the test statistic. χ^2_0=____ ​(Round to three decimal places as​ needed.) ​(b) If the researcher decides to test this hypothesis at the α=0.01 level of​ significance, determine the critical value. χ^2_0.01=____ ​(Round to three decimal places as​ needed.)...

Suppose that we wish to test H0: µ = 20 versus H1: µ ≠ 20, where...

Suppose that we wish to test H0: µ = 20 versus H1: µ ≠ 20, where σ is known to equal 7. Also, suppose that a sample of n = 49 measurements randomly selected from the population has a mean of 18. Calculate the value of the test statistic Z. By comparing Z with a critical value, test H0 versus H1 at α = 0.05. Calculate the p-value for testing H0 versus H1. Use the p-value to test H0 versus...

To test Upper H0: σ=50 versus Upper H 1 : sigma < 50​, a random sample...

To test Upper H0: σ=50 versus Upper H 1 : sigma < 50​, a random sample of size n = 28 is obtained from a population that is known to be normally distributed. (a) If the sample standard deviation is determined to be s = 35.6​, compute the test statistic. (Round to three decimal places as needed.) (b) If the researcher decides to test this hypothesis at the α=0.01 level of​ significance, use technology to determine the ​P-value. The P-value...

To test Ho: p = 0.38 versus H1: p < 0.38, a simple random sample of...

To test Ho: p = 0.38 versus H1: p < 0.38, a simple random sample of n = 1122 individuals is obtained. The researcher decides to test this hypothesis atα = 0.10 level of significance. Compute the power of the test if the true population proportion is 0.35.

Calculate the test statistic and p-value for each sample. Use Appendix C-2 to calculate the p-value....

Calculate the test statistic and p-value for each sample. Use Appendix C-2 to calculate the p-value. (Negative values should be indicated by a minus sign. Round your test statistic to 3 decimal places and p-value to 4 decimal places.) Test Statistic p-value (a) H0: ππ ≤ .65 versus H1: ππ > .65, α = .05, x = 63, n = 84 (b) H0: ππ = .30 versus H1: ππ ≠ .30, α = .05, x = 16, n = 35...

Calculate the test statistic and p-value for each sample. Use Appendix C-2 to calculate the p-value....

Calculate the test statistic and p-value for each sample. Use Appendix C-2 to calculate the p-value. (Negative values should be indicated by a minus sign. Round your test statistic to 3 decimal places and p-value to 4 decimal places.) Test Statistic p-value (a) H0: ππ ≤ .55 versus H1: ππ > .55, α = .05, x = 56, n = 86 (b) H0: ππ = .30 versus H1: ππ ≠ .30, α = .05, x = 20, n = 39...

Let X ∼ Bin(2,p). Suppose we want to test H0 : p = p_0 versus H1...

Let X ∼ Bin(2,p). Suppose we want to test H0 : p = p_0 versus H1 : p = p_1, with p_0 < p_1. For each of the following values of significance level α: (a) α = 0 (b) α = (p_0)^2 (c) α=(p_0)^2 +2p_0(1−p_0) (d) α = 1 use the Neyman-Pearson Test to construct the most powerful α-level test. In other words, to receive full credit you need to write down the rejection region in terms of X for...