Mattel Corporation produces a remote-controlled car that requires three AA batteries. The mean life of these batteries in this product is 34 hours. The distribution of the battery lives closely follows the normal probability distribution with a standard deviation of 5.5 hours. As a part of their testing program Sony tests samples of 25 batteries.What can you say about the shape of the distribution of sample mean?What is the standard error of the distribution of the sample mean? (Round your answer to 4 decimal place.)What proportion of the samples will have a mean useful life of more than 36 hours? (Round your answer to 4 decimal place.)What proportion of the sample will have a mean useful life greater than 33.5 hours? (Round your answer to 4 decimal place.)What proportion of the sample will have a mean useful life between 33.5 and 36 hours? (Round your answer to 4 decimal place.)

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Answer:

Answer:0.0406, 0.8284,0.7887Step-by-step explanation:Given that Mattel Corporation produces a remote-controlled car that requires three AA batteriesX is N(34, 5.5)Hence sample size of 25 would follow a t distribution with df = 24This is because sample size <30t distribution with df 24 would be bell shaped symmetrical about the mean and unimodal.Std error of sample mean = std dev /sqrt n=[tex]\frac{5.5}{5} \\=1.1[/tex]Prob (X>36) = [tex]P(t>\frac{36-34}{1.1} ) = P(t>1.82)\\= 0.04063[/tex]i.e nearly 4.1% of the sample would have a mean useful life of more than 36 hoursX>33.5 implies [tex]t>-0.45[/tex]=0.82837=0.8284 proportion will have a mean useful life greater than 33.5 hoursProportion between 33.5 and 36 hours = [tex]0.3284+0.4593=0.7887[/tex]

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general 5 months ago 2018