Find the minimum number of redundant components, each having a reliability of 0.4, necessary to achieve...

A system consists of n identical components in parallel with each component having a reliability of...

A system consists of n identical components in parallel with each component having a reliability of p. The failure events of the components can be assumed to be independent. Compute the reliability of the system as functions of p and n. Plot system reliability as functions of p and n for the ranges of p = [0.9, 0.99, 0.999] and n = [3, 5, 10, 100, 1000].

A system is to be designed with an overall reliability of 0.999 using components having identical...

A system is to be designed with an overall reliability of 0.999 using components having identical reliability of 0.7. what is the minimum number of components that must be connected in parallel.

Reliability 1. A system has two failure modes, One mode is caused by external environmental events...

Reliability 1. A system has two failure modes, One mode is caused by external environmental events where the value of the failure value is a constant of -0.008 per year. The second failure mode is characterized by wearouts, which have a Weibull distribution with 10-year age characteristics and shape parameters - 1.8 The system life is designed for 5 years. a) Determine system reliability b). If Preventive Maintenance is used in wearout failure mode restoration to get good new conditions,...

The principle of redundancy is used when system reliability is improved through redundant or backup components....

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 5.7​% 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 fail on...

The principle of redundancy is used when system reliability is improved through redundant or backup components....

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 18.7 ​% 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? nothing ​(Round to three decimal places as​ needed.) b. If the student has two such alarm​ clocks, what is the probability that they both...

10. The principle of redundancy is used when system reliability is improved through redundant or backup...

10. The principle of redundancy is used when system reliability is improved through redundant or backup components. A​ region's government requires that commercial aircraft used for flying in hazardous conditions must have two independent radios instead of one. Assume that for a typical​ flight, the probability of a radio failure is 0.0037. What is the probability that a particular flight will be threatened with the failure of both​radios? Describe how the second independent radio increases safety in this case. What...

This problem demonstrates the concept of redundancy, the principle of improving reliability of systems by using...

This problem demonstrates the concept of redundancy, the principle of improving reliability of systems by using redundant or backup components. Suppose a hydraulic system on an airplane has a 5% probability of failing. a) What is the probability that the hydraulic system does not fail (that is, the flight is completed safely)? b) Now, suppose that the airplane has three independent hydraulic systems that each have a 5% probability of failure. What is the probability that all three systems fail?...

Suppose that a certain system contains three components that function independently of each other and are...

Suppose that a certain system contains three components that function independently of each other and are connected in series, so that the system fails as soon as one of the components fails. Suppose that the length of life of the first component, X1, measured in hours, has an exponential distribution with parameter λ = 0.01; the length of life of the second component, X2, has an exponential distribution with parameter λ = 0.03; and the length of life of the...

Q1. City K's home phone numbers have 6 digits. In a home phone number, each digit...

Q1. City K's home phone numbers have 6 digits. In a home phone number, each digit can be any number of 0,1,..., 9, except that a phone number many not start with the following sequences: a) reserved for emegency services: 110, 119, 120, 120. b) reserved for domestic and international dial prefixes: 0. At most how many distinct home phones can this system accommoodate? For Example 120193 and 018483 are invalid. Q2. In how many ways can we assign n...

1. Use the given values of n and p to find the minimum usual value muμminus−2sigmaσ...

1. Use the given values of n and p to find the minimum usual value muμminus−2sigmaσ and the maximum usual value muμplus+2sigmaσ. Round to the nearest hundredth unless otherwise noted. nequals=10141014​; pequals=0.860.86 Five males with an​ X-linked genetic disorder have one child each. The random variable x is the number of children among the five who inherit the​ X-linked genetic disorder. Determine whether a probability distribution is given. If a probability distribution is​ given, find its mean and standard deviation....