The failure time of a component is a random variable with an exponential distribution that has...

The failure time, in weeks, of a component is a random variable with a Weibull distribution...

The failure time, in weeks, of a component is a random variable with a Weibull distribution with parameters a=7.49 and b=1.28. What is the probability that the component will still be working after 1.0 weeks?

The failure time of a component is believed to be an Exponential random variable. A component...

The failure time of a component is believed to be an Exponential random variable. A component life test is performed, with the goal being to make inferences about the mean time to failure. One component is in operation at all times; in the event of failure, the failed component is immediately replaced by a new component. Observation begins at time T = 0 and ends at time T = 1,840 minutes, during which time 14 failures occur. Which is the...

Consider a system with one component that is subject to failure, and suppose that we have...

Consider a system with one component that is subject to failure, and suppose that we have 90 copies of the component. Suppose further that the lifespan of each copy is an independent exponential random variable with mean 30 days, and that we replace the component with a new copy immediately when it fails. (a) Approximate the probability that the system is still working after 3600 days. Probability ≈≈ (b) Now, suppose that the time to replace the component is a...

"SUPERCALIFRAGILISTICOEXPIALIDOSO" is a manufacturing company of resistors which are known to have an exponential failure rate...

"SUPERCALIFRAGILISTICOEXPIALIDOSO" is a manufacturing company of resistors which are known to have an exponential failure rate distribution. Failure rate = 9.09 x 10^-5 a) Given that a resistor has been working for 4,500 hours, what would be the probability that it would survive 2000 hours more of use? b) What is the probability any resistor will still be working after 6000 hours of use? c) At what point in time will 20% of these resistors be expected to still be...

5. A) A VCR has an exponential failure time distribution, with an average time of 20,000...

5. A) A VCR has an exponential failure time distribution, with an average time of 20,000 hours. If the VCR has lasted 20,000 hours, then the probability that it will fail at 30,000 hours or earlier is: B) Of the following normal curves, with the parameters indicated, the one that most closely resembles the curve with parameters ϻ = 10 and σ = 5 and it is: C) The service time at the window of a certain bank follows an...

"SUPERCALIFRAGILISTICOEXPIALIDOSO" is a manufacturing company of resistors which are known to have an exponential failure rate...

"SUPERCALIFRAGILISTICOEXPIALIDOSO" is a manufacturing company of resistors which are known to have an exponential failure rate distribution failure rate= 9.09 x10 -5 exponent A-what is the probability any resistor will still be working after 6000 hours of use B- given that a resistor has been working for 4,500 hours, what would be the probability that it would survive 2000 hours more of use C- what is the probability it will fail within 5,500 hours of use

The time for a failure to occur in a mechanic arm follows an exponential distribution, typically...

The time for a failure to occur in a mechanic arm follows an exponential distribution, typically a failure occurs every 500 hours. A. What is the probability that the mechanic arm doesn't fail during the first 150 hours? B. What is the probability of having 2 failures in less than 800 hours?

Suppose that a system has a component whose time in years until failure is nicely modeled...

Suppose that a system has a component whose time in years until failure is nicely modeled by an exponential distribution. Assume there is a 60% chance that the component will not fail for 5 years. a) Find the expected time until failure. b) Find the probability that the component will fail within 10 years. c) What is the probability that there will be 2 to 5 failures of the components in 10 years.

If we have a random variable T distributed according to exponential distribution with mean 1.9 hours....

If we have a random variable T distributed according to exponential distribution with mean 1.9 hours. What is the probability that T will be greater than 69 minutes?

Question7: The lifetime (hours) of an electronic device is a random variable with the exponential probability...

Question7: The lifetime (hours) of an electronic device is a random variable with the exponential probability density function: f (x) = 1/50 e^(-x/50) for x≥ 0 what is the mean lifetime of the device? what is the probability that the device fails in the first 25 hours of operation? what is the probability that the device operates 100 or more hours before failure?