The life span of a battery is the amount of time the battery will last. The...

The life of a particular battery is known to follow a normal distribution , with a...

The life of a particular battery is known to follow a normal distribution , with a mean of 1264 hours and a standard deviation of 116 hours. a. What percent of batteries last less than 1511 hours? 0.98341425 b. The 95 th percentile is represented by what number of hours of battery life? c. What is the probability that a randomly selected battery will last more than 1154 hours? 0.17156471 Incorrect

A company makes batteries with an average life span of 300 hours with a standard deviation...

A company makes batteries with an average life span of 300 hours with a standard deviation of 75 hours. Assuming the distribution is approximated by a normal curve fine the probability that the battery will last:(give 4 decimal places for each answer) a. Less than 250 hours b. Between 225 and 375 hours c. More than 400 hours

battery life follows a normal continuous probability distribution with a population mean = 300 hours and...

battery life follows a normal continuous probability distribution with a population mean = 300 hours and a population standard deviation of 30 hours. What is probability that a battery tested will last for less than 270 hours? What is probability that a battery tested will last between 270 and 330 hours? The weakest 10% of the population will not exceed what battery life?

Battery life follows a normal continuous probability distribution with a population mean = 300 hours and...

Battery life follows a normal continuous probability distribution with a population mean = 300 hours and a population standard deviation of 30 hours. a. What is probability that a battery tested will last for less than 270 hours? b. What is probability that a battery tested will last between 270 and 330 hours?

An particular model of smartphone was advertised to have a battery life of 12 hours. The...

An particular model of smartphone was advertised to have a battery life of 12 hours. The manufacturer claims that the battery life for this model actually follows a Normal distribution with a mean of 11.63 hours and a standard deviation of 2.7 hours. In a simple random sample of 11 phone of this model, the probability that the average battery life is less than 12 hours is:

The battery life of a certain fire alarm, denoted by X, follows an exponential distribution with...

The battery life of a certain fire alarm, denoted by X, follows an exponential distribution with mean 3 hours. Suppose we take a random sample of 36 fire alarms. Answer the following questions. A. Find the probability that a single fire alarm will operate for at least 6 hours. B. Find the probability that the total battery lifetime based on the 36 fire alarms will be more than 126 hours. C. If the sample mean was 3.5, find a 95%...

Suppose the life of a particular brand of calculator battery is approximately normally distributed with a...

Suppose the life of a particular brand of calculator battery is approximately normally distributed with a mean of 75 hours and a standard deviation of 9 hours. a. What is the probability that a single battery randomly selected from the population will have a life between 70 and 80 ​hours? ​P(70less than or equalsx overbarless than or equals80​)equals nothing ​(Round to four decimal places as​ needed.)

Suppose that the average time a fully charged​ 6-volt laptop battery will operate a computer is...

Suppose that the average time a fully charged​ 6-volt laptop battery will operate a computer is 2.8 hours and follows the exponential probability distribution. Determine the following probabilities. ​a) Determine the probability that the next charge will last less than 2.1 hours. ​b) Determine the probability that the next charge will last between 2. ]and 5 hours. ​c) Determine the probability that the next charge will last more than 3.1 hours.

2.Suppose the life of a particular brand of calculator battery is approximately normally distributed with a...

2.Suppose the life of a particular brand of calculator battery is approximately normally distributed with a mean of 75 hours and a standard deviation of 9 hours. Complete parts a through c. a. What is the probability that a single battery randomly selected from the population will have a life between 65 and 85​hours? ​P(65≤ overbar x≤85​)= (Round to four decimal places as​ needed.)

Monitors manufactured by TSI Electronics have life spans that have a normal distribution with a variance...

Monitors manufactured by TSI Electronics have life spans that have a normal distribution with a variance of 4,000,000 and a mean life span of 16,000 hours. If a monitor is selected at random, find the probability that the life span of the monitor will be more than 14,800 hours. Round your answer to four decimal places.