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2.27 The time to failure T of a component is assumed to be uniformly distributed over...
The time to failure T of a component is assumed to be uniformly distributed over (a,...
The time to failure T of a component is assumed to be uniformly distributed over (a, b]. The probability density is thus for a<t< b Derive the corresponding survivor function R(t) and failure rate function z(t). Draw a sketch of z(t).
The time to failure T of a component has probability density f ( t ) as...
The time to failure T of a component has probability density f (
t ) as shown
(b) Derive the corresponding survivor function R ( t ) .
(c) Derive the corresponding failure rate function z ( t ) , and
make a sketch of z(t)
Note: The f(t) is a valid pdf (so we can obtain c or the height
of the triangle). Information are enough to solve this problem.
f(t) a -b a b Time t Fig. 2.27...
1. The time to failure X of a component is uniformly distributed on [0, al. Show...
1. The time to failure X of a component is uniformly distributed on [0, al. Show that the MGF of X, My(t) = E[etX], is My(t) = 607?. Use this to find E[X] and Var(X).
Question #2 The probability density function of the time to failure of a component is described...
Question #2 The probability density function of the time to failure of a component is described by the following equation where k is constant (t) kt,t is in year) elsewhere (a) Find the k value (b) Find MTTF (c) Find the failure rate function (d) Graph the failure rate function and draw a conclusion
1. The failure rate function of an item is z ( t ) = t^-1/2. Derive:...
1. The failure rate function of an item is z ( t ) = t^-1/2. Derive: The mean time to failure. 2. A component with time to failure T has failure rate function z ( t ) = kt fort > 0 and k > 0. Determine the probability that a component which is functioning after 200 hours is still functioning after 400 hours, when k = 2.*10^-6 (hours).
1. Consider the multiplicative regression model for the failure time: t-e%+ßız x e, where o and a...
1. Consider the multiplicative regression model for the failure time: t-e%+ßız x e, where o and are unknown constants (parameters), r is a known, observed constant, and eexp(1) (a) Derive the probability density function of t. Do it directly, not the way it was done in the lecture (b) Using the formula sheet, write down the slides i. Expected value of t. ii. Median of t. ii. Survival function of t. (c) Give the hazard function of t. Show some...
The arrival time t(in minutes) of a bus at a bus stop is uniformly distributed between 10:00 A.M. and 10:03 A.M.
The arrival time t(in minutes) of a bus at a bus stop is uniformly distributed between 10:00 A.M. and 10:03 A.M. (a) Find the probability density function for the random variable t. (Let t-0 represent 10:00 A.M.) (b) Find the mean and standard deviation of the the arrival times. (Round your standard deviation to three decimal places.) (с) what is the probability that you will miss the bus if you amve at the bus stop at 10:02 A M ? Round your answer...
It is assumed that the time customers spend in a record store is uniformly distributed between...
It is assumed that the time customers spend in a record store is uniformly distributed between 3 and 12 minutes. Based on this information, what is the probability that a customer will spend more than 9 minutes in the record store? A) 0.33 B) 0.1111 C) 0.25 D) 0.67 The price of a bond is uniformly distributed between $80 and $85. What is the probability that the bond price will be at least $83?
5. (15 Points) Let T be a random variable that is the time to failure (in...
5. (15 Points) Let T be a random variable that is the time to failure (in years) of certain type of electrical component. T has an exponential probability density function f(x,A) =e, if >0 10, otherwise. Compute the probability that a given component will fail in 5 years or less.
5. (15 Points) Let T be a random variable that is the time to failure (in years) of certain type of electrical component. T has an exponential probability density function...
Problem 6: 10 points Assume that X and Y are independent random variables uniformly distributed over...
Problem 6: 10 points Assume that X and Y are independent random variables uniformly distributed over the unit interval (0,1) 1. Define Z max (X. Y) as the larger of the two, Derive the C.DF. and density function for Z. 2. Define W min(X,Y) as the smaller of the two. Derive the C.D.F.and density function for W 3. Derive the joint density of the pair (W. Z). Specify where the density if positive and where it takes a zero value....
The time to failure T of a component is assumed to be uniformly distributed over (a, b]. The probability density is thus for a<t< b Derive the corresponding survivor function R(t) and failure rate function z(t). Draw a sketch of z(t).
The time to failure T of a component has probability density f (
t ) as shown
(b) Derive the corresponding survivor function R ( t ) .
(c) Derive the corresponding failure rate function z ( t ) , and
make a sketch of z(t)
Note: The f(t) is a valid pdf (so we can obtain c or the height
of the triangle). Information are enough to solve this problem.
f(t) a -b a b Time t Fig. 2.27...
1. The time to failure X of a component is uniformly distributed on [0, al. Show that the MGF of X, My(t) = E[etX], is My(t) = 607?. Use this to find E[X] and Var(X).
Question #2 The probability density function of the time to failure of a component is described by the following equation where k is constant (t) kt,t is in year) elsewhere (a) Find the k value (b) Find MTTF (c) Find the failure rate function (d) Graph the failure rate function and draw a conclusion
1. Consider the multiplicative regression model for the failure time: t-e%+ßız x e, where o and are unknown constants (parameters), r is a known, observed constant, and eexp(1) (a) Derive the probability density function of t. Do it directly, not the way it was done in the lecture (b) Using the formula sheet, write down the slides i. Expected value of t. ii. Median of t. ii. Survival function of t. (c) Give the hazard function of t. Show some...
5. (15 Points) Let T be a random variable that is the time to failure (in years) of certain type of electrical component. T has an exponential probability density function f(x,A) =e, if >0 10, otherwise. Compute the probability that a given component will fail in 5 years or less.
5. (15 Points) Let T be a random variable that is the time to failure (in years) of certain type of electrical component. T has an exponential probability density function...
Problem 6: 10 points Assume that X and Y are independent random variables uniformly distributed over the unit interval (0,1) 1. Define Z max (X. Y) as the larger of the two, Derive the C.DF. and density function for Z. 2. Define W min(X,Y) as the smaller of the two. Derive the C.D.F.and density function for W 3. Derive the joint density of the pair (W. Z). Specify where the density if positive and where it takes a zero value....
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