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Consider the following hypothesis statement using a = 0.05 and the following data from two independent...
Consider the following hypothesis statement using α = 0.05 and the following data from two independent samples. Complete parts a and b below. Ho: P1-P2 0 H1 : p1-p2 #0 x1-18 1-90 X2-21 "2=110 Click here to view page 1 of the standard normal table. le a. Calculate the appropriate test statistic and interpret the result. What is the test statistic? (Round to two decimal places as needed.) What is/are the critical value(s)? (Round to two decimal places as needed....
Consider the following hypothesis statement using α 0.10 and the following data from two independent samples. Complete parts a and b below X2=57 2-120 Ho: P1-P220 X1-51 n1-125 Click here to view page 1 of the standard normal table. a. Calculate the appropriate test statistic and interpret the result What is the test statistic? (Round to two decimal places as needed.) What is/are the critical value(s)? (Round to two decimal places as needed. Use a comma to separate answers as...
Consider the following hypothesis statement using α-0.10 and the follo ing data from two independent sam les. Complete arts a and belov. x2 39 2120 Ho: P1-P2 20 x1-58 1-175 Click here to view page 1 of the standard normal table a. Calculate the appropriate test statistic and interpret the result. What is the test statistic? (Round to two decimal places as needed.) What is/are the critical value(s)? Round to two decimal places as needed. Use a comma to separate...
Consider the following hypothesis statement using α= 0.10 and the following data from two independent samples. Complete parts a and b below. X1 = 66 Ho P1-p2 20 x2 = 70 n2 = 130 H: P-P20 n1 = 125 Click here to view page 1 of the standard normal table Click here to view page 2 of the standard normal table. a. Calculate the appropriate test statistic and interpret the result. What is the test statistic? (Round to two decimal...
Consider the hypothesis statement shown below using a 0.05 and the data to the right from two independent samples. Х,-113 x2-129 ơ,-41 ơ,-33 40 2-55 a) Calculate the appropriate test statistic and interpret the result. b) Calculate the p-value and interpret the result. Click here to view page 1 of the standard normal table. Click here to view page 2 of the standard normal table a) The test statistic is Round to two decimal places as needed.) Determine the appropriate...
Consider the following hypothesis statement using 0.10 and the following data from two independent samples. Complete parts a and b below Ho P-P20 x 67 x2 72 H pi P20 n 150 n2 180 Click of the st ormal table, Click here to view page 2 of the standard normal table. a. Calculate thee appropriate test statistic and interpret the result What is the test statistic? Round to two decimal places as needed.) What is/are the critical value(s)? (Round to...
Consider the hypothesis statement shown below using alphaαequals=0.05 and the data to the right from two independent samples. Upper H 0 : mu 1 minus mu 2 equals 0H0: μ1−μ2=0 Upper H 1 : mu 1 minus mu 2 not equals 0H1: μ1−μ2≠0 a) Calculate the appropriate test statistic and interpret the result. b) Calculate the p-value and interpret the result. x overbarx1 equals= 190 x overbarx2 equals= 220 sigmaσ1 equals= 60 sigmaσ2 equals= 47 n1 equals= 50 n2 equals=...
Consider the hypothesis statement shown below using α = 0.01 and the data to the right from two independent samples. x1 = 207 x2 = 183 n1 48 n2-39 a) Calculate the appropriate test statistic and interpret the result. b) Calculate the p-value and interpret the result. Click here to view page 1 of the standard normal table, Click here to view page 2 of the a) The test statistic is (Round to two decimal places as needed.) Determine the...
Consider the hypothesis statement to the right using a = 0.01 and the data to the right from two independent samples. a) Calculate the appropriate test statistic and interpret the result. b) Calculate the p-value and interpret the result. Click here to view page 1 of the standard normal table. Click here to view page 2 of the standard normal table. Ho H1 H250 H:H1-H2> 0 X = 90 x2 = 83 02 = 20 0 = 23 n =...
Consider the following hypothesis statement using alpha =0.01and data from two independent samples. Assume the population variances are not equal and the populations are normally distributed. Complete parts a and b. Upper H 0 : mu1 - mu 2= 0 x overbar 1= 116.5 x overbar 2 = 121.0 Upper H 1 : mu 1 - mu 2 not equals 0 s 1 = 25.7 s 2 = 15.4 n 1 = 14 n 2 = 21 a. Calculate the...