On average is the younger sibling's IQ different from the older sibling's IQ? Ten sibling pairs were given IQ tests. The data are shown below. IQ Scores Younger 103 102 95 90 98 92 108 86 105 95 Sibling Older 99 Sibling 85 72 95 89 110 75 108 91 86 Assume a Normal distribution. What can be concluded at the the a = 0.01 level of significance? For this study, we should use Select an answer a. The null and alternative hypotheses would be: Но: Select an answer ? Select an answer O (please enter a decimal) H1: Select an answer ? Select an answer (Please enter a decimal) b. The test statistic ? C (please show your answer to 3 decimal places.) c. The p-value (Please show your answer to 4 decimal places.)

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On average is the younger sibling's IQ different from the older sibling's IQ? Ten sibling pairs were given IQ tests. The data are shown below. IQ Scores Younger 103 102 9590 98 92 108 86 105 95 Sibling Older 99 Sibling 86 85 72 95 89 110 75 108 91 Assume a Normal distribution. What can be concluded at the the a = 0.01 level of significance? For this study, we should use Select an answer a. The null and alternative hypotheses would be: Ho: O (please enter a decimal) Select an answer ? Select an answer H1: Select an answer ? Select an answer O (Please enter a decimal) b. The test statistic ? (please show your answer to 3 decimal places.) || с. The p-value %3 d. The p-value is ? (Please show your answer to 4 decimal places.) e. Based on this, we should Select an answer O the null hypothesis. f. Thus, the final conclusion is that ... The results are statistically significant at a = 0.01, so there is sufficient evidence to conclude that the population mean IQ score for younger siblings is not the same as the population mean IQ score for older siblings The results are statistically insignificant at a = 0.01, so there is statistically significant evidence to conclude that the population mean IQ score for younger siblings is equal to the population mean IQ

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e. Based on this, we should Select an answer O the null hypothesis. f. Thus, the final conclusion is that ... The results are statistically significant at a = 0.01, so there is sufficient evidence to conclude that the population mean IQ score for younger siblings is not the same as the population mean IQ score for older siblings The results are statistically insignificant at a = 0.01, so there is statistically significant evidence to conclude that the population mean IQ score for younger siblings is equal to the population mean IQ score for older siblings. The results are statistically insignificant at a = 0.01, so there is insufficient evidence to conclude that the population mean IQ score for younger siblings is not the same as the population mean IQ score for older siblings. OThe results are statistically significant at a = 0.01, so there is sufficient evidence to conclude that the ten younger siblings' IQ scores are not the same on average than the ten older siblings' IQ scores. g. Interpret the p-value in the context of the study. OIf the sample mean IQ score for the 10 younger siblings is the same as the sample mean IQ score for the 10 older siblings and if another 10 sibling pairs are given an IQ test then there would be a 1.92% chance of concluding that the mean IQ score for the 10 younger siblings differs by at least 6.4 points from the mean IQ score for the 10 older siblings. OThere is a 1.92% chance that the mean IQ score for the 10 younger siblings differs by at least 6.4 points from the mean IQ score for the 10 older siblings. OThere is a 1.92% chance of a Type I error. OIf the population mean IQ score for younger siblings is the same as the population mean IQ score for older siblings and if another 10 sibling pairs are given an IQ test then there would be a 1.92% chance that the mean IQ score for the 10 younger siblings would differ by at least 6.4 points from the mean IQ score for the 10 older siblings.