Question 3 20 pts A system has three components with reliability values A, B, and C....
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)
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...
Question 1 20 pts Given components with the following reliabilities A-0.99,B-0.98, and C=0.97. assume the components are connected in parallel What is the reliability of the system? (round to 6 decimal places) O 0.9998 O 0.999940 O 0.999400 0.999994 Question 2 20 pts What is the reliability of a five-component parallel system when the reliabilities of each component are 0.707 (round to 4 decimal places) O 0.9919 O 0.9976 0.9813 O 0.1681
Question 5 20 pts Given components with the following reliabilities, A-0.99,-0.98, and C0.97. The components A, B, and are connected in series. What is the reliability of the system? (round to 2 decimal places) O 0.94 O 0.96 O 0.97 O 0.93
[3] (25 pts : (a) 10 pts (b) 10 pts (c) 5 pts) Let X1, X2, ..., X. (n > 2) denote a random sample from a shifted exponential population E(Mo) with pdf f(1; 4,0) = o-'exp(-(x -- }/)||4,00) (1) where - < < oo and a > 0 are unknown. o(a) Find the MLE (AMLE,GMLE) of 0 =(1,0). (b) Find the MLE of MLE of n = Puc (X1 > a) = exp{-(a – 4)+/o} the reliability at a,...
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...
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 4. (20 pts.) a) In the following system of linear equations, find k such that the system Has unique solution Has infinitely many solutions Has no solution x+z=0 x + 2y + 2z = 3 (x + kk + 1)y + z = k Question 5. (20 pts.) a)Find Eigenvalues and Eigenvectors of the following matrix 13 2 6 1 -2 3 16 4 12 b) Find the Fourier series representation of the function with period 21 given by...
Question 2 1 pts If two equal value capacitors (each of capacitance = C) are connected in series, the resulting capacitance will be: O2c Ос C/2 Question 3 1 pts If two equal value resistors (each of resistance = R) are connected in series, the resulting resistance will be: OR12 OR © 2R D Question 4 2 pts In an R-C Circuit, if the resistance is 20 Q and Capacitance is 5 pF. what will be the time constant? O...