3. (25 pts) The life X, in hours, of a certain kind of electronic part has...
The life (in months) of a certain electronic computer part has a probability density function defined by f(t) = ke-Ź, for t in (0,00) (a). Find k that will make f(t) a probability density function. (b). Find the probability that randomly selected component will last at most 12 months. (c). Find the cumulative distribution function for this random variable? (d) Use the answer in part (c) to find the probability that a randomly selected com- ponent will last at most...
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1) Let X be the life (in hours) of a certain electronic device. The pdf of X is f(x)- e-100, for x ? 0 and 0 otherwise. What is the expected life of this device? 100 2) The density function of coded measurements of the pitch diameter of threads of a fitting is 4 0 elsewhere. Find the expected value of X
Assume the life of an electronic component in hours is a random variable with the following density function: 9. f(x)-(01 ge-./soo, elsewhere. Find the following: (a) The mean life of the electronic component, (b) Find E(X2), (c) Find the variance and standard deviation of the random variable X. (d)Demonstrate that Chebyshev's theorem holds for k = 2 and k = 3.
Assume the life of an electronic component in hours is a random variable with the following density function: 9....
Problem 4. The life X, in hours, of a certain device, has a pdf 100 , t 100 0, t< 100 (a) What are the probability that this device will survive 150 hours of operation? (b) Find the life expectancy of the device.
Problem 4. The life X, in hours, of a certain device, has a pdf 100 0, < 100 (a) What are the probability that this device will survive 150 hours of operation? (b) Find the life expectancy of the device.
2. A certain type of electronic component has a lifetime X (in hours) with probability density function given by otherwise. where θ 0. Let X1, . . . , Xn denote a simple random sample of n such electrical components. . Find an expression for the MLE of θ as a function of X1 Denote this MLE by θ ·Determine the expected value and variance of θ. » What is the MLE for the variance of X? Show that θ...
A certain type of electronic component has a lifetime Y (in hours) with probability density function given by That is, Y has a gamma distribution with parameters α = 2 and θ. Let denote the MLE of θ. Suppose that three such components, tested independently, had lifetimes of 120, 130, and 128 hours. a Find the MLE of θ. b Find E() and V(). c Suppose that actually equals 130. Give an approximate bound that you might expect for the error of estimation. d What...
1 The life (in years) of a certain machine is a random variable with probability density function defined by f(x) = 5 + 2 vx for x in (1, 25). 136 A. Find the mean life of this machine. The mean life is approximately years. (Round to two decimal places as needed.) B. Find the standard deviation of the distribution. The standard deviation is approximately years. (Round the final answer to two decimal places as needed. Use the expected value...
2) The lifetime in years of a certain type of electronic component has a probability density function given by: otherwise a) If the expected value of the random variable is 3/5 i.e. E(X)-3/5, find a and b. b) Show that the median lifetime is approximately 0.6501 years.
The life expectancy (in years) of a certain brand of
clock radio is a continuous random variable with the probability
density function below
f(X) =
otherwine
(A) Find the probability that a randomly selected clock lasts at
most 6 years
(B) Find the probability that a randomly selected clock radio lasts
from 6 to 10 years
(C) Graph y=f(x) for A, 10 and show the shaded region lor part
(A)
The expectancy in years) of a certain brand of clock...