1. Suppose that a category of world class runners are known to run a marathon (26...

Suppose that a category of world class runners are known to run a marathon (26 miles)...

Suppose that a category of world class runners are known to run a marathon (26 miles) in an average of 144 minutes with a standard deviation of 11 minutes. Consider 49 of the races. Let X = the average of the 49 races. Part (a) Give the distribution of X. (Round your standard deviation to two decimal places.) X B. Find the probability that the runner will average between 142 and 147 minutes in these 49 marathons. (Round your answer...

Suppose that a category of world class runners are known to run a marathon (26 miles)...

Suppose that a category of world class runners are known to run a marathon (26 miles) in an average of 141 minutes with a standard deviation of 15 minutes. Consider 49 of the races. Let X = the average of the 49 races. Part (a) Give the distribution of X. (Round your standard deviation to two decimal places.) X ~ ( , ) Part (b) Find the probability that the average of the sample will be between 139 and 142...

Suppose that a category of world class runners are known to run a marathon (26 miles)...

Suppose that a category of world class runners are known to run a marathon (26 miles) in an average of 144 minutes with a standard deviation of 11 minutes. Consider 49 of the races. Let X = the average of the 49 races. part a. Give the distribution of X. (Round your standard deviation to two decimal places.) part b. Find the probability that the average of the sample will be between 142 and 147 minutes in these 49 marathons....

Suppose that a category of world class runners are known to run a marathon (26 miles)...

Suppose that a category of world class runners are known to run a marathon (26 miles) in an average of 149 minutes with a standard deviation of 14 minutes. Consider 49 of the races. Let X = the average of the 49 races. Part (a) Give the distribution of X. (Round your standard deviation to two decimal places.) X ~     ,   Part (b) Find the probability that the average of the sample will be between 148 and 151 minutes in...

Suppose that a category of world class runners are known to run a marathon (26 miles)...

Suppose that a category of world class runners are known to run a marathon (26 miles) in an average of 146 minutes with a standard deviation of 14 minutes. Consider 49 of the races. Let X = the average of the 49 races. I. Give the distribution of X-bar. (Round your standard deviation to two decimal places.) X-bar ~ ____ ( ____ , ____ ). II. Find the probability that the runner will average between 143 and 148 minutes in...

Suppose that a category of world class runers are known t run a marathon (26 miles)...

Suppose that a category of world class runers are known t run a marathon (26 miles) in an average of 144 minutes with standard deviation of 11 minutes. Consider 49 of the races. Let x hat = average time of the 49 races a. Find the median of the average running times ..... minutes b. Find the slowest 10 % of the average running times (round to 2nd decimal place).... minutes c. Find the fastest 10% of the average running...

Answer the next two questions based on the following information. Winning times in 26 mile marathons...

Answer the next two questions based on the following information. Winning times in 26 mile marathons run by world-class runners average 145 minutes with a standard deviation of 14 minutes. A sample of the last ten marathon winning times is collected. Let X be the mean winning times for ten marathons. What is the probability that the mean waiting times for ten marathons is at least 145 minutes? 0.1 0.2 0.3 0.4 0.5

The average time to run the 5K fun run is 22 minutes and the standard deviation...

The average time to run the 5K fun run is 22 minutes and the standard deviation is 2.5 minutes. 49 runners are randomly selected to run the 5K fun run. Round all answers to 4 decimal places where possible and assume a normal distribution. For the 49 runners, find the probability that their average time is between 22.0643 and 22.4643 minutes. Find the probability that the randomly selected 49 person team will have a total time more than 1053.5. For...

Twelve world-class runners are asked to run a 10-kilometer race on each of two consecutive weeks....

Twelve world-class runners are asked to run a 10-kilometer race on each of two consecutive weeks. In one of the races the runners wear one brand of shoe and in the other a second brand. Which brand they wear in which race is determined at random. All runners are timed and are asked to run their best in each race. The results (in minutes) are given below: Runner Brand 1 Brand 2 Diff 1 31.23 32.02 –0.79 2 29.33 28.98...

The average time to run the 5K fun run is 22 minutes and the standard deviation...

The average time to run the 5K fun run is 22 minutes and the standard deviation is 2.2 minutes. 44 runners are randomly selected to run the 5K fun run. Round all answers to 4 decimal places where possible and assume a normal distribution. What is the distribution of XX? XX ~ N(,) What is the distribution of ¯xx¯? ¯xx¯ ~ N(,) What is the distribution of ∑x∑x? ∑x∑x ~ N(,) If one randomly selected runner is timed, find the...