An automobile tire is rated to last for 55,000 miles. Estimate the number of revolutions the...

An automobile tire is rated to last for 55,000 miles. To an order of magnitude, through...

An automobile tire is rated to last for 55,000 miles. To an order of magnitude, through how many revolutions will it turn? Answer: ______ revolutions

Tire lifetimes: The lifetime of a certain type of automobile tire (in thousands of miles) is...

Tire lifetimes: The lifetime of a certain type of automobile tire (in thousands of miles) is normally distributed with mean of 40 and a standard deviation of 5. (a) Find the 14th percentile of tire lifetimes. (b) Find the 66th percentile of tire lifetimes. (c) Find the third quartile of the tire lifetimes. (d) The tire company wants to guarantee that its tires will last at least a certain number of miles. What number of miles (in thousands) should the...

Tire lifetimes: The lifetime of a certain type of automobile tire (in thousands of miles) is...

Tire lifetimes: The lifetime of a certain type of automobile tire (in thousands of miles) is normally distributed with mean =μ41 and a standard deviation =σ4 . (a) Find the 13th percentile of tire lifetimes. (b) Find the 65th percentile of tire lifetimes. (c) Find the first quartile of the tire lifetimes. (d) The tire company wants to guarantee that its tires will last at least a certain number of miles. What number of miles (in thousands) should the company...

The lifetime of a certain automobile tire is normally distributed with mean 40 (thousand miles) and...

The lifetime of a certain automobile tire is normally distributed with mean 40 (thousand miles) and standard deviation 5 ( thousand miles). if 8 tires are randomly selected, there would be an 83% probability that the mean tire lifetime would fall between what two values.

1.) The lifetime of a certain type of automobile tire (in thousands of miles) is normally...

1.) The lifetime of a certain type of automobile tire (in thousands of miles) is normally distributed with mean 42 and standard deviation 8. Find the percentile corresponding to p = 36% of the tire lifetimes. Write only a number as your answer. Round to 2 decimal places. 2.) Electricity bills in a certain city have mean $98.09. Assume bills are normally distributed with standard deviation $17.94. Find the value that seperates the lower 40% of the bills from the...

The top-selling Red and Voss tire is rated 70000 miles, which means nothing. In fact, the...

The top-selling Red and Voss tire is rated 70000 miles, which means nothing. In fact, the distance the tires can run until wear-out is a normally distributed random variable with a mean of 83000 miles and a standard deviation of 5000 miles. A. What is the probability that the tire wears out before 70000 miles? Probability = B. What is the probability that a tire lasts more than 91000 miles? Probability =

The top-selling Red and Voss tire is rated 60000 miles, which means nothing. In fact, the...

The top-selling Red and Voss tire is rated 60000 miles, which means nothing. In fact, the distance the tires can run until wear-out is a normally distributed random variable with a mean of 72000 miles and a standard deviation of 4000 miles. A. What is the probability that the tire wears out before 60000 miles? Probability = B. What is the probability that a tire lasts more than 80000 miles? Probability =

It is necessary for an automobile producer to estimate the number of miles per gallon achieved...

It is necessary for an automobile producer to estimate the number of miles per gallon achieved by its cars. Suppose that the sample mean for a random sample of 110 cars is 27.5 miles and assume the standard deviation is 3.3 miles. Now suppose the car producer wants to test the hypothesis that μ, the mean number of miles per gallon, is 24.7 against the alternative hypothesis that it is not 24.7. Conduct a test using α=.05 by giving the...

It is necessary for an automobile producer to estimate the number of miles per gallon achieved...

It is necessary for an automobile producer to estimate the number of miles per gallon achieved by its cars. Suppose that the sample mean for a random sample of 130130 cars is 28.528.5 miles and assume the standard deviation is 3.13.1 miles. Now suppose the car producer wants to test the hypothesis that ?μ, the mean number of miles per gallon, is 30.830.8 against the alternative hypothesis that it is not 30.830.8. Conduct a test using ?=.05α=.05 by giving the...

It is necessary for an automobile producer to estimate the number of miles per gallon achieved...

It is necessary for an automobile producer to estimate the number of miles per gallon achieved by its cars. Suppose that the sample mean for a random sample of 100 cars is 28.6 miles and assume the standard deviation is 3.9 miles. Now suppose the car producer wants to test the hypothesis that ?, the mean number of miles per gallon, is 27 against the alternative hypothesis that it is not 27. Conduct a test using ?=.05 by giving the...