Let x be a random variable that represents white bloodcell count per cubic milliliter of whole blood. Assume thatx has a distribution that is approximately normal, withmean μ = 6300 and estimated standard deviation σ= 2700. A test result of x < 3500 is an indication ofleukopenia. This indicates bone marrow depression that may be theresult of a viral infection.
(a) What is the probability that, on a single test, xis less than 3500? (Round your answer to four decimalplaces.)
(b) Suppose a doctor uses the average x for two teststaken about a week apart. What can we say about the probabilitydistribution of x?
-) The probability distribution of x is not normal.
-)The probability distribution of x is approximatelynormal with μx = 6300 andσx = 2700.  Â
-) The probability distribution of x is approximatelynormal with μx = 6300 andσx = 1909.19.
-) The probability distribution of x is approximatelynormal with μx = 6300 andσx = 1350.00.
What is the probability of x < 3500? (Round your answerto four decimal places.)
(c) Repeat part (b) for n = 3 tests taken a week apart.(Round your answer to four decimal places.)
(d) Compare your answers to parts (a), (b), and (c). How did theprobabilities change as n increased?
-) The probabilities increased as n increased.
-) The probabilities decreased as nincreased.   Â
-) The probabilities stayed the same as nincreased.
If a person had x < 3500 based on three tests, whatconclusion would you draw as a doctor or a nurse?
It would be an extremely rare event for a person to have two orthree tests below 3,500 purely by chance. The person probably doesnot have leukopenia)
It would be a common event for a person to have two or threetests below 3,500 purely by chance. The person probably does nothave leukopenia.
-It would be a common event for a person to have two or threetests below 3,500 purely by chance. The person probably hasleukopenia.
-) It would be an extremely rare event for a person to have twoor three tests below 3,500 purely by chance. The person probablyhas leukopenia.
