Suppose that the lifetime (in weeks) of a transistor has a gamma distribution with parameters α...

Suppose that the lifetime (in weeks) of a transistor has a gamma distribution with parameters α...

Suppose that the lifetime (in weeks) of a transistor has a gamma distribution with parameters α = 4, β = 6. What is the probability that a random transistor will last longer than 30 weeks

Suppose the lifetime, in years, of a motherboard is modeled by a Gamma distribution with parameters...

Suppose the lifetime, in years, of a motherboard is modeled by a Gamma distribution with parameters α=80α=80 and λ=4λ=4. Use the Central Limit Theorem to approximate the probability that the motherboard of a new computer will last for at least the next 15 years.

Suppose that when a transistor of a certain type is subjected to an accelerated life test,...

Suppose that when a transistor of a certain type is subjected to an accelerated life test, the lifetime X (in weeks) has a gamma distribution with mean 20 weeks and standard deviation 10 weeks. (a) What is the probability that a transistor will last between 10 and 20 weeks? (Round your answer to three decimal places.) (b) What is the probability that a transistor will last at most 20 weeks? (Round your answer to three decimal places.) Is the median...

Suppose that when a transistor of a certain type is subjected to an accelerated life test,...

Suppose that when a transistor of a certain type is subjected to an accelerated life test, the lifetime X (in weeks) has a gamma distribution with mean 28 weeks and standard deviation 14 weeks. (a) What is the probability that a transistor will last between 14 and 28 weeks? (Round your answer to three decimal places.) (b) What is the probability that a transistor will last at most 28 weeks? (Round your answer to three decimal places.) (c) What is...

Suppose that the average lifetime of a transistor is 100 working hours and that the lifetime...

Suppose that the average lifetime of a transistor is 100 working hours and that the lifetime distribution is exponential. (a) Estimate the probability that the transistor will work at least 30 hours. (b) Given that the transistor has functioned for 30 hours, what is the chance that it fails in the next 25 hours. (c) Suppose that two transistors, one in active, the other in reserve (if the primary one malfunctions, the second will be used at once). What is...

Suppose that Y has a gamma distribution with α = n/2 for some positive integer n...

Suppose that Y has a gamma distribution with α = n/2 for some positive integer n and β equal to some specified value. Use the method of moment-generating functions to show that W = 2Y/β has a χ2 distribution with n degrees of freedom. (Please show all work, proof used, and logic to justify the answer. Thank, you)

The type of battery in Jim's laptop has a lifetime (in years) which follows a Weibull...

The type of battery in Jim's laptop has a lifetime (in years) which follows a Weibull distribution with parameters α = 2 and β = 4 . The type of battery in Jim's tablet has a lifetime (in years) which follows an exponential distribution with parameter λ = 1 / 4 . Find the probability that the lifetime of his laptop battery is less than 2.2 years and that the lifetime of his tablet battery is less than 3.1 years.

Suppose a car radiator useful lifetime has Weibull distribution with β = 1.5 and the mean...

Suppose a car radiator useful lifetime has Weibull distribution with β = 1.5 and the mean lifetime of 150,000 miles. John has just bought a used car with 180,000 miles and original radiator which is still good. What is the probability that it’s going to last at least 20,000 miles more before needing replacement?

3. Suppose a car radiator useful lifetime has Weibull distribution with β = 1.5 and the...

3. Suppose a car radiator useful lifetime has Weibull distribution with β = 1.5 and the mean lifetime of 150,000 miles. John has just bought a used car with 180,000 miles and original radiator which is still good. What is the probability that it’s going to last at least 20,000 miles more before needing replacement?

Suppose that the number of defects in a 1200-foot roll of magnetic recording tape has a...

Suppose that the number of defects in a 1200-foot roll of magnetic recording tape has a Poisson distribution for which the value of the mean θ is unknown and that the prior distribution of θ is the gamma distribution with parameters α = 3 and β = 1. When five rolls of this tape are selected at random and inspected, the numbers of defects found on the rolls are 2, 2, 6, 0, and 3. Determine the posterior distribution of...