1) You are testing to see if the population mean, $\displaystyle \mu$ is greater than 60. You sample and find your sample mean to be 67. Does this necessarily mean that $\displaystyle \mu$ is greater than 60?  Select an answer No Yes Unable to determine

2) You are testing to see if the population mean, $\displaystyle \mu,$ is greater than 60. You sample and find your sample mean to be 67. You run a right-tailed hypothesis test for the population mean, $\displaystyle \mu$ ,and you reject the null hypothesis. This means that you are:  Select an answer unable to show the sample mean is greater than 60 able to show the population mean is greater than 60 unable to show the population mean is greater than 60 able to show the sample mean is greater than 60

3) You are testing to see if the population mean, $\displaystyle \mu,$ is greater than 60. You sample and find your sample mean to be 67. You run a right-tailed hypothesis test for the population mean, $\displaystyle \mu$ ,and you do not reject the null hypothesis. This means that you are:  Select an answer unable to show the sample mean is greater than 60 able to show the population mean is greater than 60 able to show the sample mean is greater than 60 unable to show the population mean is greater than 60

4) You are testing to see if the population mean, $\displaystyle \mu$ is less than 67. You sample and find your sample mean to be 60. Does this necessarily mean that $\displaystyle \mu$ is less than 67?  Select an answer Yes No Unable to determine

5) You are testing to see if the population mean, $\displaystyle \mu,$ is less than 67. You sample and find your sample mean to be 60. You run a left-tailed hypothesis test for the population mean, $\displaystyle \mu$ ,and you reject the null hypothesis. This means that you are:  Select an answer unable to show the population mean is less than 67 able to show the sample mean is less than 67 able to show the population mean is less than 67 unable to show the sample mean is less than 67

6) You are testing to see if the population mean, $\displaystyle \mu,$ is less than 67. You sample and find your sample mean to be 60. You run a left-tailed hypothesis test for the population mean, $\displaystyle \mu$ ,and you do not reject the null hypothesis. This means that you are:  Select an answer able to show the sample mean is less than 67 unable to show the population mean is less than 67 unable to show the sample mean is less than 67 able to show the population mean is less than 67

7) You are testing to see if the population mean, $\displaystyle \mu$ is different than ($\displaystyle \ne$ ) 60. You sample and find your sample mean to be 67. Does this necessarily mean that $\displaystyle \mu$ $\displaystyle \ne$  60?  Select an answer Yes Unable to determine No

8) You are testing to see if the population mean, $\displaystyle \mu$ is different than ($\displaystyle \ne$ ) 60. You sample and find your sample mean to be 67. You run a two-tailed hypothesis test for the population mean, $\displaystyle \mu$ ,and you reject the null hypothesis. This means that you are:  Select an answer able to show the population mean is greater than 60 able to show the population mean is less than 60 able to show the population mean is different than 60 unable to show the population mean is greater than 60 unable to show the population mean is less than 60 unable to show the population mean is different than 60

9) You are testing to see if the population mean, $\displaystyle \mu$ is different than ($\displaystyle \ne$ ) 67. You sample and find your sample mean to be 60. You run a two-tailed hypothesis test for the population mean, $\displaystyle \mu$ ,and you reject the null hypothesis. This means that you are:  Select an answer able to show the population mean is greater than 67 unable to show the population mean is less than 67 unable to show the population mean is different than 67 able to show the population mean is different than 67 able to show the population mean is less than 67 unable to show the population mean is greater than 67

10) You are testing to see if the population mean, $\displaystyle \mu$ is different than ($\displaystyle \ne$ ) 67. You sample and find your sample mean to be 60. You run a two-tailed hypothesis test for the population mean, $\displaystyle \mu$ ,and you do not reject the null hypothesis. This means that you are:  Select an answer unable to show the population mean is greater than 67 unable to show the population mean is less than 67 unable to show the population mean is different than 67 able to show the population mean is greater than 67 able to show the population mean is different than 67 able to show the population mean is less than 67