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13 June, 20:31

Failures of a testing instrument from contamination particles on the product follow a Poisson process with a mean of 0.38 failures per an 8-hour shift. a) Find the probability that the instrument does not fail during a shift. b) Find the probability that there are more than 3 failures in a 48-hour period. c) Provided there is at least one failure in a 24-hour period, what is the probability that there are no more than 3 failures during that period.

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  1. 13 June, 20:56
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    (a) 0.62

    (b) 0.2244

    (c) 0.5097

    Step-by-step explanation:

    (a) The probability of a failure in a shift is : 0.38

    The probability of no failure during a shift will thus be: 1 - 0.38 = 0.62

    (b) Number of shifts in a 48 hour period = 48 / 8 = 6 shifts

    Number of ways 4 failures could occur in 6 shifts (permutations with similar objects) = 6! / (4!) = 24

    Probability of 4 shifts with failures and 2 shifts without:

    0.38 * 0.38 * 0.38 * 0.38 * 0.62 * 0.62 = 0.008

    This means there is a total probability of 0.008 * 24 = 0.192 probability of 4 failures occurring in 6 shifts.

    Similarly for 5 and 6 failures we calculate as follows:

    Number of ways 5 failures can occur = 6! / 5! = 6

    Probability of 5 failures = 0.38^5 * 0.62 = 0.0049

    Total probability of 5 failures = 6 * 0.0049 = 0.0294

    Number of ways 6 failures can occur = 1

    Probability of 6 failures = 0.38^6 = 0.003

    Adding probabilities of 4, 5 and 6 failures together we get the total probability for (b) = 0.192 + 0.0294 + 0.003 = 0.2244

    (c) Since there is at least one failure in a 24 hour period, the number of failures in a 48 hour period must be 2.

    Given this fact, let's calculate the probability of 3 failures. Here we will only consider the 4 shifts in which failure is not given already.

    Probability of exactly 1 failure in the 4 shifts = 0.38 * 0.62^3 = 0.0905

    We must also multiply this probability with the number of ways this can occur.

    Number of ways this can occur : 4! / 3! = 4

    So probability of 3 failures = 0.0905 * 4 = 0.362

    The probability of only two failures = 0.62 ^ 4 = 0.1477

    Total probability of no more than 3 failures given there are already two failures = 0.362 + 0.1477 = 0.5097
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Home » Mathematics » Failures of a testing instrument from contamination particles on the product follow a Poisson process with a mean of 0.38 failures per an 8-hour shift. a) Find the probability that the instrument does not fail during a shift.
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