An electrical component was studied in the laboratory, and it was determined that its hourly failure rate was approximately equal to 0,05. What is the reliability of such component at 10 hours?
An electrical component was studied in the laboratory, and it was determined that its hourly failure...
A certain component is critical to the operation of an electrical system and must be replaced immediately upon failure. If the mean life of this type of component is 90 hours and its standard deviation is 34 hours, find the minimum number of these components to stock so that the probability that the system is in continual operation for the next 2000 hours is at least 0.95
Problems 1. A hypothetical reaction of the type A + BC+D is studied to determined the reaction order for the different components. The following initial general rates of reaction were observed for the given concentrations of components. What is the reaction order for component A and component B? (10 points) initial rate M s initial [B initial [A Experiment 2.85 x 102 8.77 x 10 M 3.28 x 102 M 1 4.28 x 102 8.77 x 103M 4,92 x 102...
7 - 22 (page 365). Spacescope Inc. has an electronic component that has a failure rate of 0.0000165 units/hour. Find the mean time to failure (MTTF). What is the probability (assume an exponential distribution) that the component wil not have failed after 15,000 hours of operation? Calculate your answer using the appropriate mathematical formula, and verify your results using Excel.
In this lab, you prepared a buffer and then determined its pH, but in a laboratory setting it is usually the other way around – you need a buffer at a particular pH, and this dictates its preparation. Describe how you would prepare 500. mL of 0.1500M HEPES at pH = 7.80, given appropriate glassware, HEPES (mw = 238.3g/mol, pKa = 7.48) and HEPES sodium salt (mw = 260.3 g/mol) at 25°C. Your answer should include all relevant calculations. (Note:...
4. Reliability of Systems - Take n components to have failure times Ti, T2, ..., Tn If we construct a complex system out of these distribution of the failure time T of the entire svstem in terms of the distributions of Ti, T2, ..., Tn. There are two basic networks. In a series hookup, the system fails as soon as any one of the components fails. Hence T - min(T1, T2, ...,Tn). In a parallel hookup the system is operational...
Consider two medications, studied in a laboratory and, which are supposed to reduce the response time to a certain stimulus. The investigator is inclined to believe that the response times, after administering both drugs, follow a normal distribution with equal variances of 50. As part of the evaluation of the two drugs, medication A applies to 25 individuals and medication B it is administered to another 10. The researcher is interested in knowing between what values 95 percent central would...
An employee has a regular hourly rate equal to $10 and worked 45 hours within a period of 7 consecutive days. How much overtime pay will the employee earn? What is the TOTAL amount the employer should pay this employee for the 45 work hours?
#1 ArcSite Electrical, which produces generators, purchases a component that is used in its generators directly from the supplier. The generator production operation requires a constant 1,000 components per month. It costs S25 to place each order. The unit cost is S2.50 per component, and the quarterly per-component holding cost is 5% of the value of the component. ArcSite operates 250 working days per year and the component supplier has a lead time of 5 days. (a) What is the...
A projectile is fired at an angle such that the vertical component of its velocity and the horizontal component of its velocity are both equal to 15 m/s. (a) How long does it take for the ball to reach its high point? (b) What is the vertical distance at this time? (c) What is the horizontal distance at this time? Use g = 10 m/s
A projectile is fired at an angle such that the vertical component of its velocity and the horizontal component of its velocity are both equal to 15 m/s. (a) How long does it take for the ball to reach its high point? (b) What is the vertical distance at this time? (c) What is the horizontal distance at this time? Use g = 10 m/s