The mean number of eggs per person eaten in the United States is 273. Do college students eat a different number of eggs than the average American? The 55 college students surveyed averaged 284 eggs per person and their standard deviation was 65.3. What can be concluded at the a = 0.01 level of significance? a. For this study, we should use Select an answer b. The null and alternative hypotheses would be: Ho: ? v Select an answer V Hj: ? v | Select an answer v c. The test statistic ? v = (please show your answer to 3 decimal places.) d. The p-value = (Please show your answer to 4 decimal places.) e. The p-value is ? v a f. Based on this, we should Select an answer g. Thus, the final conclusion is that ... the null hypothesis. O The data suggest that the populaton mean is significantly different from 273 at a = 0.01, so there is statistically significant evidence to conclude that the population mean number of eggs consumed by college students per year is different from 273. O The data suggest that the population mean is not significantly different from 273 at a = 0.01, so there is statistically insignificant evidence to conclude that the population mean number of eggs consumed by college students per year is different from 273. O The data suggest that the sample mean is not significantly different from 273 at a = 0.01, so there is statistically insignificant evidence to conclude that the sample mean number of eggs consumed by college students per year is different from 284. h. Interpret the p-value in the context of the study. O There is a 21.69497314% chance of a Type I error. O There is a 21.69497314% chance that the population mean number of eggs consumed by college students per year is not equal to 273. O If the population mean number of eggs consumed by college students per year is 273 and if another 55 college students are surveyed then there would be a 21.69497314% chance that the sample mean for these 55 students surveyed would either be less than 262 or greater than 284. O If the population mean number of eggs consumed by college students per year is 273 and if another 55 college students are surveyed then there would be a 21.69497314% chance that the population mean would either be less than 262 or greater than 284. i. Interpret the level of significance in the context of the study. O If the population mean number of eggs consumed by college students per year is 273 and if another 55 college students are surveyed then there would be a 1% chance that we would end up falsely concluding that the population mean number of eggs consumed by college students per year is different from 273. O If the population population mean number of eggs consumed by college students per year is different from 273 and if another 55 college students are surveyed then there would be a 1% chance that we would end up falsely concluding that the population mean number of eggs consumed by college students per year is equal to 273. O There is a 1% chance that the population mean number of eggs consumed by college students per year is different from 273. O There is a 1% chance that you will find the chicken that lavs the golden eggs.

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The mean number of eggs per person eaten in the United States is 273. Do college students eat a different number of eggs than the average American? The 55 college students surveyed averaged 284 eggs per person and their standard deviation was 65.3. What can be concluded at the a = 0.01 level of significance? a. For this study, we should use Select an answer b. The null and alternative hypotheses would be: Ho: ? v Select an answer V H: ? v Select an answer V c. The test statistic ? V = (please show your answer to 3 decimal places.) d. The p-value = (Please show your answer to 4 decimal places.) e. The p-value is ? va f. Based on this, we should Select an answer v the null hypothesis. g. Thus, the final conclusion is that ... O The data suggest that the populaton mean is significantly different from 273 at a = 0.01, so there is statistically significant evidence to conclude that the population mean number of eggs consumed by college students per year is different from 273. O The data suggest that the population mean is not significantly different from 273 at a = 0.01, so there is statistically insignificant evidence to conclude that the population mean number of eggs consumed by college students per year is different from 273. O The data suggest that the sample mean is not significantly different from 273 at a = 0.01, so there is statistically insignificant evidence to conclude that the sample mean number of eggs consumed by college students per year is different from 284. h. Interpret the p-value in the context of the study. O There is a 21.69497314% chance of a Type I error. O There is a 21.69497314% chance that the population mean number of eggs consumed by college students per year is not equal to 273. O If the population mean number of eggs consumed by college students per year is 273 and if another 55 college students are surveyed then there would be a 21.69497314% chance that the sample mean for these 55 students surveyed would either be less than 262 or greater than 284. O If the population mean number of eggs consumed by college students per year is 273 and if another 55 college students are surveyed then there would be a 21.69497314% chance that the population mean would either be less than 262 or greater than 284. i. Interpret the level of significance in the context of the study. O If the population mean number of eggs consumed by college students per year is 273 and if another 55 college students are surveyed then there would be a 1% chance that we would end up falsely concluding that the population mean number of eggs consumed by college students per year is different from 273. O If the population population mean number of eggs consumed by college students per year is different from 273 and if another 55 college students are surveyed then there would be a 1% chance that we would end up falsely concluding that the population mean number of eggs consumed by college students per year is equal to 273. O There is a 1% chance that the population mean number of eggs consumed by college students per year is different from 273. O There is a 1% chance that you will find the chicken that lays the golden eggs.