A bus comes by every 14 minutes. The times from when a person arives at the busstop until the bus arrives follows a Uniform distribution from 0 to 14 minutes. A person arrives at the bus stop at a...


A bus comes by every 14 minutes. The times from when a person arives at the busstop until the bus arrives follows a Uniform distribution from 0 to 14 minutes. A person arrives at the bus stop at a randomly selected time. Round to 4 decimal places where possible. (a-e)


A bus comes by every 14 minutes. The times from when a person arives at the busstop until the bus arrives<br>follows a Uniform distribution from 0 to 14 minutes. A person arrives at the bus stop at a randomly selected<br>time. Round to 4 decimal places where possible.<br>a. The mean of this distribution is<br>b. The standard deviation is<br>c. The probability that the person will wait more than 10 minutes is<br>d. Suppose that the person has already been waiting for 1.3 minutes. Find the probability that the<br>person's total waiting time will be between 2.8 and 5.7 minutes<br>e. 16% of all customers wait at least how long for the train?<br>minutes.<br>

Extracted text: A bus comes by every 14 minutes. The times from when a person arives at the busstop until the bus arrives follows a Uniform distribution from 0 to 14 minutes. A person arrives at the bus stop at a randomly selected time. Round to 4 decimal places where possible. a. The mean of this distribution is b. The standard deviation is c. The probability that the person will wait more than 10 minutes is d. Suppose that the person has already been waiting for 1.3 minutes. Find the probability that the person's total waiting time will be between 2.8 and 5.7 minutes e. 16% of all customers wait at least how long for the train? minutes.

Jun 08, 2022
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