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A factory uses three production lines to manufacture cans of a certain type. The accompanying table...
A certain system can experience three different types of defects. Let A, i1,2,3) denote the event that the system has a defect of type i. Suppose that the following probabilities are true. p(A1)-0. 10 P(A2)-0.08 P(As)-0.06 (a) Given that the system has a type 1 defect, what is the probabilty that it has a type 2 defect? (Round your answer to four decimal places.) (b) Given that the system has a type 1 defect, what is the probability that it...
A certain system can experience three different types of defects. Let A, ( 1,2,3) denote the event that the system has a defect of type .Suppose that the following probabilities are true PA,) 0.11 PA2)-0.08 PA) -0.06 P(A, UA2) -0.13 PIA, UA) -0.1 (a) Given that the system has a type 1 defect, what is the probability that it has a type 2 defect? (Round your answer to four decimal places.) (b) Given that the system has a type 1...
A certain system can experience three different types of defects. Let A, (i 1,2,3) denote the event that the system has a defect of type i Suppose that the following probabilities are true. PLA,)-0.11 RA2)-0.07 pA,)-0.05 P(A, UA2)0.12 P(A, UA3) -0.13 P(A2 U A3) 0.10 PA, A A3)0.01 (a) Given that the system has a type 1 defect, what is the probability that it has a type 2 defect? (Round your answer to four decimal places.) 9300 (b) Given that...
A certain system can experience three different types of defects. Let A, (i-1,2,3) denote the event that the system has a defect of type i. Suppose that the following probabilities are true PA)-0.12 P(A2)-0.08 P(As)-0.05 (a) Given that the system has a type 1 defect, what is the probabilty that it has a type 2 defect? (Round your answer to four decimal places.) (b) Given that the system has a type 1 defect, what is the probability that it has...
A certain system can experience three different types of defects. Let A; (i - 1,2,3) denote the event that the system has a defect of type i. Suppose that the following probabilities are true P(A1) = 0.12 P(A2)-0.08 P(As) = 0.05 P(A1 U A2) 0.14 P(A U As)-0.14 P(A2 U As) = 0.11 P(A1 n A2 n As) = 0.01 (a) Given that the system has a type 1 defect, what is the probability that it has a type 2...
A certain system can experience three different types of defects. Let A; (i = 1,2,3) denote the event that the system has a defect of type i. Suppose that the following probabilities are true. P(A1) = 0.11 P(A2) = 0.08 P(A3) = 0.05 P(A1 U A2) = 0.13 = 0.13 P(A2 U A3) = 0.11 P(An Azn Az) = 0.01 P(A1 UA3) (a) Given that the system has a type 1 defect, what is the probability that it has a...
A case of 38 cans contains one can that is contaminated. Two cans are to be chosen randomly for testing. a. How many different combinations of two cans could be selected? Number of different combinations ? b. Of the two cans selected, what is the probability that the contaminated can is selected for testing? (Round the final answer to 4 decimal places.) Probability ?
A certain system can experience three different types of defects. Let A, (i-1,2,3) denote the event that the system has a defect of type i. Suppose that the following probabilities are true p(A1) = 0.12 p(%) = 0.08 p(A1) = 0.05 p(A1 UA2)-0.14 P(A1 u A3)-0.14 PA2 UAs)-0.11 P(A1 n A2 n A3)-0.01 (a) Given that the system has a type 1 defect, what is the probability that it has a type 2 defect? (Round your answer to four decimal...
Suppose that only 0.1% of all computers of a certain type experience CPU failure during the warranty period. Consider a sample of 2,000 computers. (a) What are the expected value and standard deviation of the number of computers in the sample that have the defect? (Round your standard deviation to two decimal places.) expected value computers standard deviation computers (b) What is the (approximate) probability that more than 4 sampled computers have the defect? (Round your answer to three decimal...
A company produces a single product on three production lines that use different equipment. The production manager is considering changing the layouts of the lines and would like to know what effects different layouts would have on production output. Suppose that the manager measured the average output for each line over three randomly selected weeks using each of the three layouts under consideration. The output (in hundreds of units produced) was measured for each line for each of the four...