Solve the following defective rate problem using the concepts learned about the geometric distribution. A machine that produces a special type of transistor (a component of computers) has a 2% defective rate. The production is considered a random process where each transistor is independent of the others. (1) What is the probability that the 10th transistor produced is the first with a defect? (2) What is the probability that the machine produces no defective transistors in a batch of 100? (3) On average, how many transistors would you expect to be produced until the first with a defect? What is the standard deviation? (4) Another machine that also produces transistors has a 5% defective rate where each transistor is produced independent of the others. On average how many transistors would you expect to be produced with this machine before the first with a defect? What is the standard deviation? (5) Based on your answers to parts (c) and (d), how does increasing the probability of an event affect the mean and standard deviation of the wait time until success?
Solve the following defective rate problem using the concepts learned about the geometric distribution.
A machine that produces a special type of transistor (a component of computers) has a 2% defective rate. The production is considered a random process where each transistor is independent of the others.
(1) What is the
(2) What is the probability that the machine produces no defective transistors in a batch of 100?
(3) On average, how many transistors would you expect to be produced until the first with a defect? What is the standard deviation?
(4) Another machine that also produces transistors has a 5% defective rate where each transistor is produced independent of the others. On average how many transistors would you expect to be produced with this machine before the first with a defect? What is the standard deviation?
(5) Based on your answers to parts (c) and (d), how does increasing the probability of an
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