A system composes of three components. These components have constant failure rates of 0.0004, 0.0005, 0.0003...

A machine has two independent cutting parts (Weibull Distribution). Any one of these cutting parts is...

A machine has two independent cutting parts (Weibull Distribution). Any one of these cutting parts is sufficient to operate the machine. The hazard rates for the two parts of this machine are constant and they are 0.001 and 0.0015 failures per hour. Calculate: 1. The survival probability of the machine at 300 hour of running time? 2. The mean time to failure for this machine?   

take yz =82 Failure data for a cutting tool insert (shown above) is as follows: hours...

take yz =82 Failure data for a cutting tool insert (shown above) is as follows: hours of machining until insert failure: (50+YZ/10), 68, 72, 79, 84, 84, 90, 92, 93, (100+YZ/10), (110 +YZ/10) Assuming that the cutting tool insert is at the constant failure rate phase: I Calculate the mean time to failure (i.e. average of times), and calculate the failure rate. (4) PROBLEM 2 (continued) III For these tool inserts, what is the 65 hour reliability? Compare this to...

An engineering system has a hazard rate of 0.01 failure per hour. (a) What is its...

An engineering system has a hazard rate of 0.01 failure per hour. (a) What is its MTBF ? If the same system has an MTBM of 60 hour, an MDT of 20 hours, and an MTTR of six hours, what are it (b) inherent availability and (c) operational availability?

Consider a system with one component that is subject to failure, and suppose that we have...

Consider a system with one component that is subject to failure, and suppose that we have 90 copies of the component. Suppose further that the lifespan of each copy is an independent exponential random variable with mean 30 days, and that we replace the component with a new copy immediately when it fails. (a) Approximate the probability that the system is still working after 3600 days. Probability ≈≈ (b) Now, suppose that the time to replace the component is a...

An electrical system consists of 2 components (C1 and C2) functioning independently and are set in...

An electrical system consists of 2 components (C1 and C2) functioning independently and are set in a parallel layout. The failure time of each component follows an exponential distribution with rate 2 every year. Identify the failure density and failure distribution of any component. Hence, calculate the probability of any component i) failing in less than 8 months. ii) surviving after 10 months.

Device of type A is working properly without failures on average 1300hours, the standard deviation being...

Device of type A is working properly without failures on average 1300hours, the standard deviation being 250 h. Time without failures is supposed to be normally distributed. The device is put to use at moment ?=0. a) Determine the reliability of the device at moment t=1050 h. Give the answer as a decimal number in interval [0,1] (not as a percentage) with accuracy of three decimal places. b) Determine the failure density and failure rate at moment t=1050h. Give the...

A certain single station automated system will be used to produce three different components (A, B...

A certain single station automated system will be used to produce three different components (A, B & C). The sales forecast for these components are A-33,000, B 68000 and C 73000 units per year. Production rates for the three products are 16, 20 and 6 pc/hr and scrap rates are 6%, 8% and 12%. The plant will operate 45 weeks per year, 6 shifts per week and 8 hr per shift. It is anticipated that production machines of this type...

1. Answer EITHER part (a) OR part (b). (a) A gas scrubber on an oilrig discharged...

1. Answer EITHER part (a) OR part (b). (a) A gas scrubber on an oilrig discharged gas periodically such that an accumulation of hydrocarbon gas nearby had occurred. A contractor welder was dispatched to a job immediately adjacent to the area and it being a shift change and personnel unavailable temporarily, the welder decided to commence welding. As a consequence, an incident occurred. Describe briefly: (i) what you imagine was the incident including any hazards existing prior to or during...

Customers arrive at a two server system at an exponential rate 10 customers per hour. However,...

Customers arrive at a two server system at an exponential rate 10 customers per hour. However, customers will only enter the resturant for food if there are no more than three people (including the two currently being attended to). Suppose that the amount of time required to service is exponential with a mean of five minutes for each server. (a) Write its transition diagram and balance equations. (b) What proportion of customers enter the resturant? (c) What is the average...

The Three Hills Power Company provides electricity to a large metropolitan area through a series of...

The Three Hills Power Company provides electricity to a large metropolitan area through a series of almost 200 hydroelectric generators. Management recognizes that even a well-maintained generator will have periodic failures or breakdowns. Energy demands over the past three years have been consistently high and the company is concerned over downtime of generators. It currently employs 4 highly skilled and highly paid ($30 per hour) repairpersons. Each works every fourth 8-hour shift, so there is a repairperson on duty 24...