Consider the following hypotheses tests involving the χ2-distribution. (a) Determine the p-value for Ho: P(1) =...

Consider the following hypothesis tests. (Give your answer bounds exactly.) (a) Calculate the p-value for Ha:...

Consider the following hypothesis tests. (Give your answer bounds exactly.) (a) Calculate the p-value for Ha: σ2 ≠ 21, n = 29, χ2 = 28.7. < p <   (b) Calculate the p-value for Ha: σ2 > 28, n = 10, χ2 = 32.9. < p <   (c) Calculate the p-value for Ha: σ2 ≠ 41, df = 22, χ2 = 38.2. < p <   (d) Calculate the p-value for Ha: σ2 < 10, df = 43, χ2 = 25.5.

Consider the following hypothesis tests. (Give your answer bounds exactly.) (a) Calculate the p-value for Ha:...

Consider the following hypothesis tests. (Give your answer bounds exactly.) (a) Calculate the p-value for Ha: σ2 ≠ 20, n = 18, χ2 = 27.4. < p < (b) Calculate the p-value for Ha: σ2 > 32, n = 14, χ2 = 33.7. < p < (c) Calculate the p-value for Ha: σ2 ≠ 42, df = 23, χ2 = 39. < p < (d) Calculate the p-value for Ha: σ2 < 13, df = 44, χ2 = 25. <...

Consider the following hypothesis tests. (Give your answer bounds exactly.) (a) Calculate the p-value for Ha:...

Consider the following hypothesis tests. (Give your answer bounds exactly.) (a) Calculate the p-value for Ha: σ2 ≠ 18, n = 17, χ2 = 27.9. _____< p < _______ (b) Calculate the p-value for Ha: σ2 > 31, n = 30, χ2 = 33. ______< p < ______ (c) Calculate the p-value for Ha: σ2 ≠ 40, df = 25, χ2 = 38.2. ______ < p < ______ (d) Calculate the p-value for Ha: σ2 < 14, df = 42,...

Consider the following hypothesis test for the mean difference. (Give your answers correct to four decimal...

Consider the following hypothesis test for the mean difference. (Give your answers correct to four decimal places.) (a) Determine the p-value for Ho: μd = 0 and Ha: μd > 0, with n = 19 and t = 1.97. (b) Determine the p-value for Ho: μd = 0 and Ha: μd ≠ 0, with n = 22 and t = -1.81. (c) Determine the p-value for Ho: μd = 0 and Ha: μd < 0, with n = 26 and...

Consider the following. (Give your answer bounds exactly.) (a) Find the p-value for F = 3.92,...

Consider the following. (Give your answer bounds exactly.) (a) Find the p-value for F = 3.92, df(factor) = 3, df(error) = 23. < p < (b) Find the p-value for F = 4.35, df(factor) = 3, df(error) = 22. < p < (c) Find the p-value for F = 4.99, df(factor) = 5, df(error) = 18. < p <

Consider the following. (Give your answer bounds exactly.) (a) Find the p-value for F = 3.8,...

Consider the following. (Give your answer bounds exactly.) (a) Find the p-value for F = 3.8, df(factor) = 3, df(error) = 12. < p < (b) Find the p-value for F = 4.29, df(factor) = 5, df(error) = 21. < p < (c) Find the p-value for F = 4.83, df(factor) = 3, df(error) = 12. < p <

Consider the following hypotheses. Upper H 0​: p=0.44 Upper H 1​: pnot =0.44 Given that p...

Consider the following hypotheses. Upper H 0​: p=0.44 Upper H 1​: pnot =0.44 Given that p overbar=0.35​, n=160​, and alpha=0.10​, answer the following questions. a. What conclusion should be​ drawn? b. Determine the​ p-value for this test. a. Determine the critical​ value(s) of the test statistic. z α= ​(Use a comma to separate answers as needed. Round to three decimal places as​ needed.)

Determine the p-value for each of the following situations. (Give your answer bounds exactly.) (a) Ha:...

Determine the p-value for each of the following situations. (Give your answer bounds exactly.) (a) Ha: β1 > 0, with n = 25 and t = 1.2 < p < (b) Ha: β1 ≠ 0, with n = 22, b1 = 0.22, and sb1 = 0.08 < p < (c) Ha: β1 < 0, with n = 22, b1 = -1.46, and sb1 = 0.79 < p <

Determine the p-value for each of the following situations. (Give your answer bounds exactly.) (a) Ha:...

Determine the p-value for each of the following situations. (Give your answer bounds exactly.) (a) Ha: β1 > 0, with n = 29 and t = 1.76 < p < (b) Ha: β1 ≠ 0, with n = 15, b1 = 0.23, and sb1 = 0.11 < p < (c) Ha: β1 < 0, with n = 25, b1 = -1.53, and sb1 = 0.71

You may need to use the appropriate technology to answer this question. Test the following hypotheses...

You may need to use the appropriate technology to answer this question. Test the following hypotheses by using the χ2 goodness of fit test. H0: pA = 0.40, pB = 0.40, and pC = 0.20 Ha: The population proportions are not pA = 0.40, pB = 0.40, and pC = 0.20. A sample of size 200 yielded 80 in category A, 20 in category B, and 100 in category C. Use α = 0.01 and test to see whether the...