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29 October, 18:26

The life times of light bulbs produced by a particular manufacturer have a mean of 1,200 hours and a standard deviation of 400 hours. The population distribution is normal. Suppose that you purchase nine bulbs, which can be regarded as a random sample from the manufacturer's output.

a) What is the mean of the sample mean lifetime?

b) What is the variance of the sample mean?

c) What is the standard error of the sample mean?

d) What is the probability that, on average, those ninelightbulbs have lives of fewer than 1,050 hours?

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  1. 29 October, 18:39
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    a. 1200hours

    b. σ² = 400² = 160000hour

    c. standard error = 133.33

    d. for 9 lightbulb it is likely that 9*0.146 = 1.31 bulbs will have lives of fewer than 1,050 hours?

    Step-by-step explanation:

    mean of 1,200 hours

    σ, a standard deviation of 400 hours.

    Sample size, N = nine bulbs,

    a) mean of the sample mean lifetime: is given as 1,200 hours

    b) variance of the sample mean is the square of the σ, a standard deviation of 400 hours.

    σ² = 400² = 160000hours

    c) What is the standard error of the sample mean?

    The standard deviation of a sampling distribution of mean values is called the standard error of the means,

    standard error of the means, σx = σ √N

    The formula for the standard error of the means is true for all values infinite number of sample, N.

    σx = σ √N

    =400 √9 = 400/3 = 133.3333

    d) the probability that, on average, those nine lightbulbs have lives of fewer than 1,050 hours

    The area under part of a normal probability curve is directly proportional to probability and the value is calculated as

    z = (x₁-x) / σ

    where z = propability of normal curve

    x₁ = variate mean = 1050hours

    x = mean of 1200hours

    σ = standard deviation = 400

    applying the formula,

    z = (1050-1200) / 400

    z = 150/400 = 0.375

    Using a table of partial areas beneath the standardized normal curve (see Table of normal curve, a z-value of 0.375 corresponds to an area of 0.1460 between the mean value.

    Thus the probability of a lightbulbs having lives of fewer than 1,050 hours is 0.1460.

    for 9 lightbulb it is likely that 9*0.146 i. e. 1.31 bulbs will have lives of fewer than 1,050 hours?
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