An athletics coach states that the distribution of player run times (in seconds) for a 100-meter...
An athletics coach states that the distribution of player run times (in seconds) for a 100-meter dash are normally distributed with a mean equal to 15.00 and a standard deviation equal to 0.2 seconds. What percentage of players on the team runs the 100-meter dash in faster than 15.48 seconds? (Round your answer to two decimal places.)
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An athletics coach states that the distribution of player run
times (in seconds) for a 100-meter...
An athletics coach states that the distribution of player run times (in seconds) for a 100-meter...
An athletics coach states that the distribution of player run
times (in seconds) for a 100-meter dash is normally distributed
with a mean equal to 15.00 and a standard deviation equal to 0.2
seconds. What percentage of players on the team run the 100-meter
dash in 15.28 seconds or faster? (Round your answer to two decimal
places.)
%
An athletics coach states that the distribution of player run times (in seconds) for a 100-meter...
An athletics coach states that the distribution of player run times (in seconds) for a 100-meter dash is normally distributed with a mean equal to 15.00 and a standard deviation equal to 0.2 seconds. What percentage of players on the team run the 100-meter dash in 15.46 seconds or faster? (Round your answer to two decimal places.)
At a large track meet, times in the 100-meter race follow a normal distribution with mean...
At a large track meet, times in the 100-meter race follow a normal distribution with mean 11.23 seconds and standard deviation 0.46 seconds. Times in the 200-meter race follow a normal distribution with mean 20.85 seconds and standard deviation 0.87 seconds. One runner had a time of 10.67 seconds in the 100-meter race. What must his 200-meter race time be in order for him to be at the same percentile as the 100-meter race?
The 100-meter race times at a state track meet are normally distributed with a mean of...
The 100-meter race times at a state track meet are normally distributed with a mean of 14.62 seconds and a standard deviation of 2.13 seconds. Using the Standard Normal Probabilities table, what is the approximate probability that a runner chosen at random will have a 100-meter time less than 15.5 seconds? 1. 0.1894 2. 0.3409 3. 0.6591 4. 0.7910
Yuki and Zana are on a swimming team. They often compete against each other in the...
Yuki and Zana are on a swimming team. They often compete against each other in the 100 meter freestyle race. Yuki's times in this race are normally distributed with a mean of 80 seconds and a standard deviation of 4.2 seconds. Zana's times are also normally distributed with a mean of 85 seconds and a standard deviation of 5.6 seconds. We can assume that their times are independent. Suppose we choose a random 100 meter freestyle race and calculate the...
The mean time for a 100 meter race at a college track meet is 13.2 seconds,...
The mean time for a 100 meter race at a college track meet is 13.2 seconds, with a standard deviation of 0.9 seconds. To win, the net sprinter needs to run the race in 12.5 seconds or less. Assuming this random variable is normally distributed, what is the probability of thee sprinter running the race in a short enough time to take the lead? **PLEASE SHOW ALL CALULATIONS SO I CAN HAVE A BETTER UNDERSTANDING**
Let X model the racing times for local high school track athletes in the 400-meter dash....
Let X model the racing times for local high school track athletes in the 400-meter dash. Assume that X is normally distributed with a mean of 60 seconds and a standard deviation of 4.7 seconds. To go to the State Competition, a runner must have a 400-meter race time in the bottom 8% of times. If an athlete wants to go to the State Competition, what time must she/he beat? Please show how you get the z-score.
As reported in "Runner's World" magazine, the times of the finishers in the New York City...
As reported in "Runner's World" magazine, the times of the finishers in the New York City 10 km run are normally distributed with a mean of 61 minutes and a standard deviation of 9 minutes. Let X denote finishing time for the finishers. a) The distribution of the variable X has mean __________ and standard deviation _____________. b) The distribution of the standardized variable Z has mean ____________ and standard deviation ______________. c) The percentage of finishers with times between...
6.5 6. (10 points) The football coach randomly selected ten players and timed how long each...
6.5 6. (10 points) The football coach randomly selected ten players and timed how long each player took to perform a certain drill. The times in minutes) were: 12.9 13.3 13.3 7.7 11.7 9.9 125 10.8 12.2 Assume that the population is normally distributed. a) Check assumptions and choose an appropriate interval procedure b) Use 1-var-stats to find the sample mean and the sample standard deviation c) Find a 95% confidence interval for the mean time for all players. Please...
5. The mean time for a 100 meter race at a college track meet is 13.2...
5. The mean time for a 100 meter race at a college track meet is 13.2 seconds, with a standard deviation of 0.9 seconds. To win, the next sprinter needs to run the race in 12.5 seconds or less Assuming this random variable is normally distributed, what is the probability of the sprinter running the race in a short enough time to take the lead? 6) A denim company sells its jeans both online and at a retail store. Assume...
An athletics coach states that the distribution of player run
times (in seconds) for a 100-meter dash is normally distributed
with a mean equal to 15.00 and a standard deviation equal to 0.2
seconds. What percentage of players on the team run the 100-meter
dash in 15.28 seconds or faster? (Round your answer to two decimal
places.)
%
6.5 6. (10 points) The football coach randomly selected ten players and timed how long each player took to perform a certain drill. The times in minutes) were: 12.9 13.3 13.3 7.7 11.7 9.9 125 10.8 12.2 Assume that the population is normally distributed. a) Check assumptions and choose an appropriate interval procedure b) Use 1-var-stats to find the sample mean and the sample standard deviation c) Find a 95% confidence interval for the mean time for all players. Please...
5. The mean time for a 100 meter race at a college track meet is 13.2 seconds, with a standard deviation of 0.9 seconds. To win, the next sprinter needs to run the race in 12.5 seconds or less Assuming this random variable is normally distributed, what is the probability of the sprinter running the race in a short enough time to take the lead? 6) A denim company sells its jeans both online and at a retail store. Assume...
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