1. Let U and T be two stopping times with respect to the filtration {Fn}. Verify...

Anaccelerometerhasthenaturalfrequency fn =25Hzanddampingratioζ =60%. Writean equation for the response u(t) of the instrument as a function...

Anaccelerometerhasthenaturalfrequency fn =25Hzanddampingratioζ =60%. Writean equation for the response u(t) of the instrument as a function of time if the input acceleration is ¨ ug(t) =¨ ugo sin2πft. Sketch the ratio ω2 nuo/¨ ugo as a function of f / fn. The accelerometer is calibrated to read the input acceleration correctly at very low values of the excitation frequency. Determine the range of frequencies for which the acceleration amplitude can be measured with an accuracy of ±1%. Identify this frequency...

(b) For a given function u(t), explain how the derivative of u(t) with respect to t...

(b) For a given function u(t), explain how the derivative of u(t) with respect to t can be approximated on a uniform grid with grid spacing ∆t, using the one-sided forward difference approximation du/dt ≈ ui+1 − ui/∆t , where ui = u(ti). You should include a suitable diagram explaining your answer. (c) Using the one-sided forward difference approximation from part (b) and Euler’s method, calculate the approximate solution to the initial value problem du/dt + t cos(u) = 0,...

Let T be a linear transformation that is one-to-one, and u, v be two vectors that...

Let T be a linear transformation that is one-to-one, and u, v be two vectors that are linearly independent. Is it true that the image vectors T(u), T(v) are linearly independent? Explain why or why not.

Let U1, U2, . . . , Un be independent U(0, 1) random variables. (a) Find...

Let U1, U2, . . . , Un be independent U(0, 1) random variables. (a) Find the marginal CDFs and then the marginal PDFs of X = min(U1, U2, . . . , Un) and Y = max(U1, U2, . . . , Un). (b) Find the joint PDF of X and Y .

Let u=(-1, 2, 4)T and v=(4, a, 1)T . For what value of "a" are these...

Let u=(-1, 2, 4)T and v=(4, a, 1)T . For what value of "a" are these vectors linearly independent?   Insert the value of "a".

Let A be the matrix below and define a transformation T:ℝ3→ℝ3 by T(U) = AU. For...

Let A be the matrix below and define a transformation T:ℝ3→ℝ3 by T(U) = AU. For the vector B below, find a vector U such that T maps U to B, if possible. Otherwise state that there is no such U. A = 2 6 6 −1 −3 −2 −1 −3 −1 B = −22 6 1 < Select an answer >

Let X, Y ∼ U[0, 1], be independent and let Z = max{X, Y }. (a)...

Let X, Y ∼ U[0, 1], be independent and let Z = max{X, Y }. (a) (10 points) Calculate Pr[Z ≤ a]. (b) (10 points) Calculate the density function of Z. (c) (5 points) Calculate V ar(Z).

1. Let S = {a, b, c}. Find a set T such that S ∈ T...

1. Let S = {a, b, c}. Find a set T such that S ∈ T and S ⊂ T. 2. Let A = {1, 2, ..., 10}. Give an example of two sets S and B such that S ⊂ P(A), |S| = 4, B ∈ S and |B| = 2. 3. Let U = {1, 2, 3} be the universal set and let A = {1, 2}, B = {2, 3} and C = {1, 3}. Determine the...

Let y1 and y2 be two solutions of the equation y'' + a(t)y' + b(t)y =...

Let y1 and y2 be two solutions of the equation y'' + a(t)y' + b(t)y = 0 and let W(t) = W(y1, y2)(t) be the Wronskian. Determine an expression for the derivative of the Wronskian with respect to t as a function of the Wronskian itself.

There are two balls with different qualities in a black box, a red ball and a...

There are two balls with different qualities in a black box, a red ball and a purple ball. If you randomly pick one ball from this black box and denote the result using x variable, let x=1 if you get a red ball, and x=0 if you get a purple ball, further suppose the probability to get a red ball is α. You play this game of choosing a ball N times independently, i=1,2,3,...N, denote the joint result of this...