The life of an automotive component can bemodelled by Weibull distributiona = 6.2x105 6.2x105(a) Calculate the cumulative densityfunction, F (t)and ß =1.3.b) Calculate the reliability function, R (t)and the hazard function, h (t) at the end ofthe rotating period of 36000 miles.

weibull distribution α=6.2 ×105 6.2×105 ; β=1.3

The life of an automotive component can be modelled by Weibull distribution a = 6.2x105 6.2x10° (a) Calculate the cumulative density function, F (t) and B =1.3. b) Calculate the reliability function, R (t) and the hazard function, h (t) at the end of the rotating period of 36000 miles.

The life of an automotive component can be modelled by Weibull distribution a = 6.2x105 6.2x10° (a) Calculate the cumulative density function, F (t) and B =1.3. b) Calculate the reliability function, R (t) and the hazard function, h (t) at the end of the rotating period of 36000 miles.

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter6: Power Flows

Section: Chapter Questions

Problem 6.58P

See similar textbooks

Related questions

Q: (A) Determine the steady state error for the following system shown in Fig.1 for unit- ramp input.…

Q: Q1/ Consider the system with: = 0.65 , wn = 5.3 rad/sec. Let us obtain the rise time t,, peak time…

A: Given data ∈=0.65ωn=5.3 rad/secTo find a) Peak timetp=πωn1-∈tp=π0.51-(0.65)2tp=9.82 sec Overshoot…

Q: 8. Is the system whose characteristic equation is y -1.5y –1=0 asymptotically stable, marginally…

A: Given characteristic equation of the system is

Q: A: Under same conditions (all the variables are equal) of air density factor ( 8), irregularity…

A: In this question we need to prove mathematically that visual critical voltage is greater than…

Q: Q/ Sketch the root locus with respect to K for the equation 1+ KL(s) = 0 and the listed choices for…

A: Given Transfer function

A: In this question, We need to determine the type of the system, error constant with the type of the…

Q: Two identical loudspeakers are located at points (−10, 0, 0) and (0, 0, 10) of our coordinate…

A: Given, f = 170 Hz v = 340 m/s

Q: 2. a) Determine whether the following systems are (i) Stable/Unstable, (i) Causal/Noncausal, (iii)…

A: a..>> y(t)=ex(t) This function will give exponential output. And exponential function gives…

Q: 2.3 Calculate the maximum width of the depletion region for an ideal MOS capacitor on p- type Si…

Q: 6. For the system shown in figure sketch the roots-locus and find the followings. i)Break away/break…

Q: A coaxial cable of 105 N impedance is used to connect a satellite receiving antenna to the decoder.…

A: Given, the impedance of the coaxial cable is 105Ω. capacitance (C)=75pF/m = 75*10-12 F/m diameter of…

Q: A system has the following characteristic equation: s^4+ s^3+ 3s^2+ 2s + 2 = 0 Using the…

Q: Problem 1: The density function of a continuous random variable X is shown below. Find (a) the mode.…

A: For a continuous random variable X - The density function is given below, f(x) = 0.9391…

Q: 24230° v, z, = 2 + j2 2, z = 4 - j3 0, j10 2, and z, %3D For the circuit below, E, 10 j12 Q.…

A: Given

Q: The electric field intensity is given as E = 5e-2x (sin2ya, – cos2ya, ) v/m. Find the equation of…

Q: b) Let A r cos0 a, +rz2 sino a,, transform A into rectangular coordinates and calculate its…

A: A=rcosθar+rz2sinφaz AXAYAZ=cosθ-sinφ0sinφcosθ0001rcosθ0rz2sinφAXAYAZ=rcos2θrcosθsinφrz2sinφ…

Q: 3. For the system given below, design a lag compensator of the form C(s) = (1+sT) for (1+csT)…

A: The open loop transfer function is,G(s)=K(4s+1)(0.5s+1)The peak overshoot…

Q: For each of the following characteristic equations, a) Sketch the root locus plot for 0 < K< b) Find…

A: "Since you have posted a question with multiple sub parts we will solve first three subpart for you…

Q: 12–7. A particle moves along a straight line such that its position is defined by s = (² – 6t + 5)…

Q: Question 17 The relaxation time of mica (o = 10 mho/m, ɛ, = 3) is 7.36 hrs 4.912 hrs 2.456 hrs 9.82…

Q: A particle travels along a straight-line path (y = 1.7 x). If the x component of the particles…

A: Given Y=1.7X and Vx=8t^3 m/s

Q: 1. The product of two numbers is 24. Find the numbers if (a) the sum of the two numbers is minimum,…

A: The solution is given below

Q: In the system given in the coming years, t=0 candidate election chance, F(t) candidates x(t) at the…

Q: 5:36 Classroom A docs.google.com the code of transforming point p(6,4,2) into spherical form is…

A: Need to find true or false type

Q: The system finction of a discrete-time system is given by: 1+32 3 H(z) = 1- / Find the poles and…

Q: A permanent magnet loudspeaker is equipped with a10 ohm voice coil wound on a tube 1 inch in…

A: It is given that: P'=0.005WPdB=20dBR=10 ohmd=1inchβ=10,000linesin2Assuming,N=10

Q: Q7: The Jordanian transmission system has a transmission line between buses 5 and 2 with self…

A: in the case of the Y bus matrix we have:- the size of the y bus matrix is equal to the number of…

Q: 3. A Maxwell bridge uses a standard capacitor of C1 = 0. I µF and operates at a supply frequency of…

Q: The characteristic equation of a system is given as s^3+25s^2+10s+50=D0. What is the number of the…

Q: Longitudinal Submarine Dynamics Velocity The dynamics of a controlled submarine are significantly…

A: Control systems

Q: Determine the quality factor for Maxwell's inductance capacitance bridge given below, when the…

A: A Maxwell Inductance Capacitance Bridge (known as a Maxwell Bridge) is an adjusted adaptation of a…

Q: A 1 H choke has a resistance of 50 Ω. This choke is supplied with an a.c. voltage given by e = 141…

A: Given data : The value of inductor L=1H The resistance of choke R=50Ω

Q: Step Response 10 9. 8. 6. 1 20 40 60 80 100 120 140 160 180 Time (seconds) 4. 2. Amplitude

A: In this question we need to find a system having time constant 20sec from the given system response…

Q: Electrical Engineering In a free field environment, the acoustic pressure P is estimated as one…

A: Given: P=acoustic pressure=414 Ns/m3 Z=acoustic impedance=101.3×103 pa Distance=1000 meter Here We…

Q: A coaxial cable of 105 Q impedance is used to connect a satellite receiving antenna to the decoder.…

A: Given, The impedance of the coaxial cable is 105Ω. Capacitance (C)=75 pF/m = 75×10-12 F/m Diameter…

Q: Discrete-Time Systems:Examples M-point moving-average system - M-1 y[n] = M Ex[n-k] k=0

A: Given

Q: A satellite weighing 311.4 kN is at a 113 km perigee with a velocity of 11 km/sec. Calculate its…

A: Satellite weight = 311.4 kN at 113 km Velocity, V= 11 km/sec Total time is given = 240hr

Q: Use Routh-Hurwitz method, how many roots are on the jw axis by the polynomial equation: P(s) = 35 +…

A: By Routh Hurwitz criteria we will find number of roots lies on jw axis

Q: Transform 4ax – 3ay – 3az, at A(x = 3, y = 5, z = 5) to cylindrical coordinates at the point…

Q: Determine the characteristic equation and its roots. Determine the form of the homogeneous solution,…

Q: 1. Write the state space equation for the system below! The output of the system is the current…

A: Considering the circuit, Current through the inductor and voltage across the capacitor are the…

Q: A manufacturing robot arm that operates using 240V, 60HZ frequency uses a thermal resistor with…

A: A manufacturing robot arm that operates using 240 V, 60 Hz uses a thermal resistor with a rating 40…

Q: The intrinsic impedance of the medium whose, σ = 0, ε, = 4, μ, =1 40 ΠΩ 120 ΠΩ 60 ΠΩ

A: Given a medium with its parameters, σ=0εr=4μr=1

Q: A causal LTID system is characterized by the following difference equation: y[n] - y[n-1] + 0.16…

A: A.y[n] - y[n-1] + 0.16 y[n-2] = x[n]. Taking z transform on both sides Y[Z] - Z^-1 Y[Z] + 0.16Z^-2…

Q: Decide the stability of the system, whose characteristic equation is given by S5 +254 +5S³ + 10s² +…

Q: MCа 8.3.1 A coaxial-cable with an inner diameter of 1 mm and outer diameter of 2.4 r filled with a…

Question

The life of an automotive component can be
modelled by Weibull distribution
a = 6.2x105 6.2x105
(a) Calculate the cumulative density
function, F (t)
and ß =1.3.
b) Calculate the reliability function, R (t)
and the hazard function, h (t) at the end of
the rotating period of 36000 miles.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1: given datas

VIEW

Step 2: solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Find I using TEC
The angle at which a wind turbine generator rotates is called its pitch. Select one: True False
The value of d28/dt2 for a synchronous machine, rated 50MVA, 60HZ, M = 1.06MJ.s/degree, and Pa = 2.5MW, machine is %3D a. 0.424 rad/s2 O b. 3.356 rad/s2 c. 2.358 rad/s2 d. 0.4.356 rad/s2
Which of the ff given below is the eddy current loss not proportional to? Square of the frequency Square of the flux density Square of the load current of the laminated core Square of the thickness
The Cathode Ray Oscilloscope (CRO) may be used in the observation of waveforms to do the measurements of voltage, current, phase and periodic time. Due to increased armature m.m.f, the armature reaction during load condition will decrease and hence the field flux will be increased. Select one: O True O False
The RMS value of current, if the value of armature current is 14 A, a = 51 degrees, and B = 160 degrees is Ia a+T B+T a O 10.89 O 2.91 O 5.16 O 82.46
Synchronous generator can operate at any speed since the number of poles and the frequency is fixed for any given machine Select one: True False
A synchronous generator can be represented by a voltage source of 1,7 p.u. in series with an impedance of 2 p.u., which are connected to an ideal voltage source of 1 p.u. Impedance of the synchronous generator has a X/R ratio of 10 and the angle difference between the two voltage sources is 30°. a) Calculate the active power generated by the generator. b) Calculate the active power supplied by the voltage source.
A 40kW induction motor with a lagging power factor of 0.76 is supplied by a 120Vrms 60Hz sinusoidal voltage source. find the capacitance needed in parallel with the motor to raise the power factor to (a) 0.9 lagging and (b) 1.0
Ql: Derive the porimitive flow table for the following asynchronous ciricut. X1 X2
Determine the minimum diameter of the rotor required to generate 500kW of wind energyfor a standard wind turbine. Assume the average wind speed of the site is 12 m/s and thepower coefficient of the turbine is 0.4.
Given the complex number A 10253.13°, calculate A". A+ A". and A-A.