when reliability deterioration of a system can be associated with independent and small multiplicative effects of...
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Answer)
The reliability deterioration of a system is known as the deterioration of a measure of structural performance which is normally defined by reliability index.
when reliability deterioration of a system is associated with independent and small multiplicative effects of its own components than the applicable time to failure distribution is longnormal.
This is because the reliability of a system which is composed of various parts and is functioning in the series is the product of the reliabilities of its respective components.
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when reliability deterioration of a system can be associated with
independent and small multiplicative effects of...
Question 3 20 pts A system has three components with reliability values A, B, and C....
Question 3 20 pts A system has three components with reliability values A, B, and C. The reliability of the system. R. can be calculated using the equation 1.R - A+B+C 2.R-AxBxC 3. Insufficient Information has been provided. 4. R = 1 - (1 - A)(1-B1-C)] 04 O 2 U Question 4 20 pts A system is made up of four independent components in series each having a failure rate of .005 failures per hour. If time to failure is...
A system is made up of four independent components in series each having a failure rate...
A system is made up of four independent components in series each having a failure rate of .005 failures per hour. If time to failure is exponential, then the reliability of the system at 10 hours is? (round to 4 decimal places)
Problem: 14 pointsl Given the Reliability Block Diagram below of a system with 3 different compon...
please solve only 1.2 and 1.3
dont solve 1.1
thanks
Problem: 14 pointsl Given the Reliability Block Diagram below of a system with 3 different components in series, each with a time to failure distribution and a baseline 3-year reliability, which is the current warranty period for the system Part A Weibull, shape β-2 R(3 years) 0.75 Part B Expon R(3 years) 0.70 Part C Exponential R(3 years) 0.80 1.1) Determine the system reliability at 3-year. Management wants to improve...
An aircraft system is modeled as being comprised of (3) independent subsystems - each critical -...
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10. The principle of redundancy is used when system reliability is improved through redundant or backup...
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A system consists of four components. If more than two of the components fail, the system...
A system consists of four components. If more than two of the components fail, the system fails. If the components have an exponential time-to-fail distribution with a failure rate of 0.000388, what is the reliability of the system at time = 300?
.LOLO The principle of redundancy is used when system reliability is improved through redundant or backup...
.LOLO The principle of redundancy is used when system reliability is improved through redundant or backup components. Assume that a student's alarm clock has a 7.8% daily failure rate. Complete parts (a) through (d) below. a. What is the probability that the student's alarm clock will not work on the morning of an important final exam? (Round to three decimal places as needed.)
Question Help The principle of redundancy is used when system reliability is improved through redundant or...
Question Help The principle of redundancy is used when system reliability is improved through redundant or backup components. Assume that a student's alarm clock has a 6.7% daily failure rate. Complete parts (a) through (d) below. a. What is the probability that the student's alarm clock will not work on the morning of an important final exam? (Round to three decimal places as needed) b. If the student has two such alarm clocks, what is the probability that they both...
Question Help The principle of redundancy is used when system reliability is improved through redundant or...
Question Help The principle of redundancy is used when system reliability is improved through redundant or backup components. Assume that a student's alarm clock has a 9.2% daily failure rate Complete parts (a) through (d) below. What is the probably that the student's alarm clock will not work on the morning of an important final exam? Round to three decimal places as needed) b. I the student has two suchalarm clocks, what is the probability that they both tall on...
Question Help The principle of redundancy is used when system reliability is improved through redundant or...
Question Help The principle of redundancy is used when system reliability is improved through redundant or backup components. Assume that a student's alarm clock has a 19.5% daily failure rate. Complete parts (a) through (d) below. a. What is the probability that the student's alarm clock will not work on the morning of an important final exam? (Round to three decimal places as needed.) b. If the student has two such alarm clocks, what is the probability that they both...
Question 3 20 pts A system has three components with reliability values A, B, and C. The reliability of the system. R. can be calculated using the equation 1.R - A+B+C 2.R-AxBxC 3. Insufficient Information has been provided. 4. R = 1 - (1 - A)(1-B1-C)] 04 O 2 U Question 4 20 pts A system is made up of four independent components in series each having a failure rate of .005 failures per hour. If time to failure is...
please solve only 1.2 and 1.3
dont solve 1.1
thanks
Problem: 14 pointsl Given the Reliability Block Diagram below of a system with 3 different components in series, each with a time to failure distribution and a baseline 3-year reliability, which is the current warranty period for the system Part A Weibull, shape β-2 R(3 years) 0.75 Part B Expon R(3 years) 0.70 Part C Exponential R(3 years) 0.80 1.1) Determine the system reliability at 3-year. Management wants to improve...
A system consists of four components. If more than two of the components fail, the system fails. If the components have an exponential time-to-fail distribution with a failure rate of 0.000388, what is the reliability of the system at time = 300?
.LOLO The principle of redundancy is used when system reliability is improved through redundant or backup components. Assume that a student's alarm clock has a 7.8% daily failure rate. Complete parts (a) through (d) below. a. What is the probability that the student's alarm clock will not work on the morning of an important final exam? (Round to three decimal places as needed.)
Question Help The principle of redundancy is used when system reliability is improved through redundant or backup components. Assume that a student's alarm clock has a 6.7% daily failure rate. Complete parts (a) through (d) below. a. What is the probability that the student's alarm clock will not work on the morning of an important final exam? (Round to three decimal places as needed) b. If the student has two such alarm clocks, what is the probability that they both...
Question Help The principle of redundancy is used when system reliability is improved through redundant or backup components. Assume that a student's alarm clock has a 9.2% daily failure rate Complete parts (a) through (d) below. What is the probably that the student's alarm clock will not work on the morning of an important final exam? Round to three decimal places as needed) b. I the student has two suchalarm clocks, what is the probability that they both tall on...
Question Help The principle of redundancy is used when system reliability is improved through redundant or backup components. Assume that a student's alarm clock has a 19.5% daily failure rate. Complete parts (a) through (d) below. a. What is the probability that the student's alarm clock will not work on the morning of an important final exam? (Round to three decimal places as needed.) b. If the student has two such alarm clocks, what is the probability that they both...
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