An athlete who is three standard deviations above the mean would weigh 217 pounds. (Type a whole number.) Is it unusual to observe athletes who weigh this much or more? Why or why not? O A. Yes. Very few, if any, athletes will have a weight that falls 3 or more standard deviations above the mean under a bell shaped distribution. O B. No. Most, if not all, athletes will have a weight that falls 3 or more standard deviations above the mean under a bell shaped distribution. OC. No. Most, if not all, athletes will have a weight that falls fewer than 3 standard deviations above the mean under a bell shaped distribution. O D. Yes. Very few, if any, athletes will have a weight that falls fewer than standard deviations above the mean under a bell shaped distribution.

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Data for 64 male college athletes was collected. The data on weight (in pounds) are roughly bell shaped with x = 151 and s= 22. Complete parts a and b below. a. Give an interval within which about 68% of the weights fall. (129, 173) (Type a whole number.) b. Identify the weight of an athlete who is three standard deviations above the mean in this sample. Is it unusual to observe athletes who weigh this much or more? Why or why not? An athlete who is three standard deviations above the mean would weigh 217 pounds. (Type a whole number.) Is it unusual to observe athletes who weigh this much or more? Why or why not? A. Yes. Very few, if any, athletes will have a weight that falls 3 or more standard deviations above the mean under a bell shaped distribution. B. No. Most, if not all, athletes will have a weight that falls 3 or more standard deviations above the mean under a bell shaped distribution. C. No. Most, if not all, athletes will have a weight that falls fewer than 3 standard deviations above the mean under a bell shaped distribution. D. Yes. Very few, if any, athletes will have a weight that falls fewer than 3 standard deviations above the mean under a bell shaped distribution.