A remote control has 30 components in series. Each has a reliability of 0.995. What is...

A medical control system has three components in series with individual reliabilities: (R1, R2, and R3)...

A medical control system has three components in series with individual reliabilities: (R1, R2, and R3) as shown, and these components are working independently. In order for this medical control system to function properly in a given situation, each of the components must function. What is the reliability of this proposed system? (20 points) R1 R2 R3 0.80 ↓ 0.925 0.85 ↓ ↓ → 0.95 → 0.90 → 0.99

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].

An early warning security fence has three major components that each must perform in order for...

An early warning security fence has three major components that each must perform in order for the system to perform. Their reliabilities are 0.62, 0.61, and 0.45. The reliability of this system is not very good. To improve reliability a backup component is added for each of the three components. These new components have the same reliability as the existing component, e.g., Component 1 reliability is 0.62, Component 1 Backup reliability is also 0.62. Find the reliability of the New...

The following system has three components. Component 1 has 96.7% reliability, component 2 has 78% reliability...

The following system has three components. Component 1 has 96.7% reliability, component 2 has 78% reliability with a 70% reliable backup, and finally component 3 has 99.99% reliability. If the system costs $850 to fix every time it breaks down, what is the expected fixing cost if the system runs for 1000 times?

1. CyTykes Toy has spent $1.5 mil developing a remote control helicopter. The firm is now...

1. CyTykes Toy has spent $1.5 mil developing a remote control helicopter. The firm is now trying to decide whether to continue with production. What type of cost is this, and should it be considered? 2. CyTykes Toy forecasts that sales of a remote control helicopter would be $600,000/yr. However, the firm expects that offering a remote control helicopter will reduce sales of the firm's remote control cars by $150,000/yr. What is the loss in remote control car sales called?...

There is a system that has the following reliabilities for 3 components: 0.98, 0.97, and 0.98....

There is a system that has the following reliabilities for 3 components: 0.98, 0.97, and 0.98. Each component has a back-up with the same reliability and a switch with a reliability of 1.0. What is the reliability?

There is a system that has the following reliabilities for 3 components: 0.98, 0.97, and 0.98....

There is a system that has the following reliabilities for 3 components: 0.98, 0.97, and 0.98. Each component has a back-up with the same reliability and a switch with a reliability of 1.0. What is the reliability the same setup as b but now the switch has a reliability of .97. what is the reliability?

Imagine an electrical circuit with three components wired in series. This means that if any of...

Imagine an electrical circuit with three components wired in series. This means that if any of the components fails, then the circuit will fail. Suppose that each component has an exponentially distributed lifetime, with ?1=0.235,?2=0.129, and ?3=0.274 (units measured in years). Give your answers to three decimal places. What's the chance the circuit is still working after one year?   The circuit ended up working for the first year. What's the chance it will last another two years?   What's the expected...

Question: For a parallel structure of identical components, the system can succeed if at least one...

Question: For a parallel structure of identical components, the system can succeed if at least one of the components succeeds. Assume that components fail independently of each other and that each component has a 0.22 probability of failure. (A)Would it be unusual to observe one component fail? Would it be unusual to observe two components fail? (B)What is the probability that a parallel structure with 2 identical components will succeed? How many components would be needed in the structure so...

A electronics manufacturer has developed a new type of remote control button that is designed to...

A electronics manufacturer has developed a new type of remote control button that is designed to operate longer before failing to work consistently. A random sample of 19 of the new buttons is selected and each is tested in continuous operation until it fails to work consistently. The resulting lifetimes are found to have a sample mean of x¯x¯ = 1254.2 hours and a sample standard deviation of s = 104.3. Independent tests reveal that the mean lifetime of the...