Please answer all the way through g.
Time to failure of a household refrigerator. The time to failure of a particular refrigerator type is represented by the following pdf: , which is valid within 0 ≤ t ≤ 10 yr, and f(t) = 0 elsewhere. a) Write the expression for R(t), integrate over t from t to infinity (which here is 10), and obtain the cumulative Reliability function, R(t). Then calculate the reliability for the first year, t = 1. Round your calculated value to 2 sd (significant digits). b) Assuming that 0.90 reliability is required, calculate the refrigerator Design Life corresponding to 0.90 reliability. Round your calculated value to 2 sd. c) Write the expression for and obtain the conditional failure rate (hazard rate) function, λ(t), and state whether it is increasing or decreasing as t approaches infinity for this case. d) To evaluate the reliability of this refrigerator, write the expression for and calculate the MTTF, mean time to failure to two sd. e) Obtain the probability and thereby the % units, or relative frequency of occurrence, of this refrigerator that are expected to survive its MTTF. f) The refrigerator company has a 1-month warranty program. Write the expression for and obtain the probability that the refrigerator will fail during the first month. F(1/12) = g) Write the expression for and calculate the probability that the refrigerator will survive the 1-month warranty program. Then write the expression for and calculate the (A B) B) f(t) = 0.003(10 − t) 2 4 conditional probability that the refrigerator will survive the rest of the first year given the probability that it will survive its warranty period of one month. Round your final result to 2 sd. R(1/12) = R(11/12|1/12) =
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Please answer all the way through g.
Time to failure of a household refrigerator. The time...
Time to failure of a household refrigerator. The time to failure of a particular refrigerator type...
Time to failure of a household refrigerator. The time to failure
of a particular refrigerator type is represented by the following
pdf: , which is valid within 0 ≤ t ≤ 10 yr, and f(t) = 0 elsewhere.
a) Write the expression for R(t), integrate over t from t to
infinity (which here is 10), and obtain the cumulative Reliability
function, R(t). Then calculate the reliability for the first year,
t = 1. Round your calculated value to 2 sd...
5. Time to failure of a household refrigerator. The time to failure of a particular refrigerator...
5. Time to failure of a household refrigerator. The time to
failure of a particular refrigerator type is represented by the
following pdf: , which iObtain the probability and thereby the %
units, or relative frequency of occurrence, of this refrigerator
that are expected to survive its MTTF. f) The refrigerator company
has a 1-month warranty program. Write the expression for and obtain
the probability that the refrigerator will fail during the first
month. F(1/12) = g) Write the expression...
5.7 Seven pumps have failure times (in months) of 15.1, 10.7, 8.8, 11.3, 12.6, 14.4 and...
5.7 Seven pumps have failure times (in months) of 15.1, 10.7, 8.8, 11.3, 12.6, 14.4 and 8.7 Assume an exponential distribution. Assume the dataset is complete and all units have been operated to failure a) Find a point estimate of the MTTF b) Estimate the reliability of a pump for t 12 months c) Calculate the 95% two-sided confidence interval for λ, using the X2 distribution. Note: s,if the distribution is exponential, the 2T 2T distribution of the MTTF can...
Refer to the transient L-R circuit below. Answer / calculate the following, showing ALL steps R1...
Refer to the transient L-R circuit below. Answer / calculate the following, showing ALL steps R1 65Ω S1 R4 600Ω 20V 1.2k2 1.2k R3 L1 50Ω 30uH a) Deduce the mathematical expression for the current through L1 if the charging process starts at t: 0.005 us (Approx. 0.00 μs) b) Assume switch S1 is switched over at t 0.3 us to stop the charging and start the discharging process. Calculate the magnitude of the current through the inductor L1 at...
I need these questions all solved please. (11) Let f(x) x3 - 1 and g(x) =...
I need these questions all solved please.
(11) Let f(x) x3 - 1 and g(x) = 25 sin 3r (a) What is the range of g(f(x))? Justify your answer (b) If h(r) f(g(x)) compute h'(x) (c) If t(x) ef(r) compute t'(x). (d) Obtain f'() from first principles 6 marks 6 marks 6 marks 6 marks 3. (e) Obtain the equation of the line tangent to the curve y [6 marks f(x) at (12) In this question, f(x)= r+2)2 2r (a)...
If the number is a decimal please include 4 digits past the decimal point if available....
If the number is a decimal
please include 4 digits past the decimal point if available.
1. -12 points PSE6 4.P.002. My Notes A golf ball is hit off a tee at the edge of a cliff. Its x and y coordinates as functions of time are given by the following expressions. x (20.0 m/s)t y (4.90 m/s)t -(4.76 m/s2)t2 (a) Write a vector expression for the ball's position as a function of time, using the unit vectors i and...
11 Consider the one-dimensional oscillator defined on page 6. At time t function (r, t is...
11 Consider the one-dimensional oscillator defined on page 6. At time t function (r, t is given by 0, its wave (a, 0) N{(2+3i)óo(a) - V/5¢2(x) + (2 - i/3)()} (a) Choose N such that Į is normalised to 1. [2] (b) What are the allowed energies, and with what probabilities? (c) What is the wave function at time t? [] What is the probability for even parity to be measured? Briefly explain (d) [I] explicit expression for a_ V...
HI, PLEASE ANSWER ALL PARTS AND PLEASE SHOW ALL WORKINGS STEP BY STEP. THANK YOU. a)...
HI, PLEASE ANSWER ALL PARTS AND PLEASE SHOW ALL WORKINGS STEP BY STEP. THANK YOU. a) Show from first principles that the Laplace transform of the function (0)=1, a 20 is f(3) = Make a note of any conditions imposed on the transform variable "s" to ensure the transform exists. (8 Marks) b) Find, using the appropriate theorem, the Laplace transform of a function f(t): f(t) = e-3t.sin(4t) OR Find the inverse Laplace transform of the following: ses f(s) =...
#1, 2, 3 о Problem 1 Denote the owl and wood rat populations at time k...
#1, 2, 3
о Problem 1 Denote the owl and wood rat populations at time k by x = where k RA is the time in months, O, is the number of owls in the region studies, and Rt is the number of rats (measured in thousands). Suppose Ox+1 0.50 +0.4R Rx+1 -0.1040x + 1.1R In the first equation, the term 0.50x says that with no wood rats for food, only 50% of the owls will survive each month, and...
a, b & c ONLY (already calculated the probability) here is the probability 1. A particle,...
a, b & c ONLY (already calculated the probability)
here is the probability
1. A particle, initially (t +-00) in its ground state in an infinite potential well whose walls are located at x = 0 and x = a, is subject at time t = 0 to a time-dependent perturbation Û (x, t) = € îe-“, where e is a small real number. Calculate the probability that the par- ticle will be found in its first excited state after...
Time to failure of a household refrigerator. The time to failure
of a particular refrigerator type is represented by the following
pdf: , which is valid within 0 ≤ t ≤ 10 yr, and f(t) = 0 elsewhere.
a) Write the expression for R(t), integrate over t from t to
infinity (which here is 10), and obtain the cumulative Reliability
function, R(t). Then calculate the reliability for the first year,
t = 1. Round your calculated value to 2 sd...
5. Time to failure of a household refrigerator. The time to
failure of a particular refrigerator type is represented by the
following pdf: , which iObtain the probability and thereby the %
units, or relative frequency of occurrence, of this refrigerator
that are expected to survive its MTTF. f) The refrigerator company
has a 1-month warranty program. Write the expression for and obtain
the probability that the refrigerator will fail during the first
month. F(1/12) = g) Write the expression...
5.7 Seven pumps have failure times (in months) of 15.1, 10.7, 8.8, 11.3, 12.6, 14.4 and 8.7 Assume an exponential distribution. Assume the dataset is complete and all units have been operated to failure a) Find a point estimate of the MTTF b) Estimate the reliability of a pump for t 12 months c) Calculate the 95% two-sided confidence interval for λ, using the X2 distribution. Note: s,if the distribution is exponential, the 2T 2T distribution of the MTTF can...
Refer to the transient L-R circuit below. Answer / calculate the following, showing ALL steps R1 65Ω S1 R4 600Ω 20V 1.2k2 1.2k R3 L1 50Ω 30uH a) Deduce the mathematical expression for the current through L1 if the charging process starts at t: 0.005 us (Approx. 0.00 μs) b) Assume switch S1 is switched over at t 0.3 us to stop the charging and start the discharging process. Calculate the magnitude of the current through the inductor L1 at...
I need these questions all solved please.
(11) Let f(x) x3 - 1 and g(x) = 25 sin 3r (a) What is the range of g(f(x))? Justify your answer (b) If h(r) f(g(x)) compute h'(x) (c) If t(x) ef(r) compute t'(x). (d) Obtain f'() from first principles 6 marks 6 marks 6 marks 6 marks 3. (e) Obtain the equation of the line tangent to the curve y [6 marks f(x) at (12) In this question, f(x)= r+2)2 2r (a)...
If the number is a decimal
please include 4 digits past the decimal point if available.
1. -12 points PSE6 4.P.002. My Notes A golf ball is hit off a tee at the edge of a cliff. Its x and y coordinates as functions of time are given by the following expressions. x (20.0 m/s)t y (4.90 m/s)t -(4.76 m/s2)t2 (a) Write a vector expression for the ball's position as a function of time, using the unit vectors i and...
11 Consider the one-dimensional oscillator defined on page 6. At time t function (r, t is given by 0, its wave (a, 0) N{(2+3i)óo(a) - V/5¢2(x) + (2 - i/3)()} (a) Choose N such that Į is normalised to 1. [2] (b) What are the allowed energies, and with what probabilities? (c) What is the wave function at time t? [] What is the probability for even parity to be measured? Briefly explain (d) [I] explicit expression for a_ V...
HI, PLEASE ANSWER ALL PARTS AND PLEASE SHOW ALL WORKINGS STEP BY STEP. THANK YOU. a) Show from first principles that the Laplace transform of the function (0)=1, a 20 is f(3) = Make a note of any conditions imposed on the transform variable "s" to ensure the transform exists. (8 Marks) b) Find, using the appropriate theorem, the Laplace transform of a function f(t): f(t) = e-3t.sin(4t) OR Find the inverse Laplace transform of the following: ses f(s) =...
#1, 2, 3
о Problem 1 Denote the owl and wood rat populations at time k by x = where k RA is the time in months, O, is the number of owls in the region studies, and Rt is the number of rats (measured in thousands). Suppose Ox+1 0.50 +0.4R Rx+1 -0.1040x + 1.1R In the first equation, the term 0.50x says that with no wood rats for food, only 50% of the owls will survive each month, and...
a, b & c ONLY (already calculated the probability)
here is the probability
1. A particle, initially (t +-00) in its ground state in an infinite potential well whose walls are located at x = 0 and x = a, is subject at time t = 0 to a time-dependent perturbation Û (x, t) = € îe-“, where e is a small real number. Calculate the probability that the par- ticle will be found in its first excited state after...
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