Consider the systemdxax+u.dtCompute the exponential response of the system and use this to derive the transferfunction from u to x. Show that when s = a, a pole of the transfer function, theresponse to the exponential input u(t) = est is x(t) = eat x(0) + teat.For solving the system with u = eateat you can't use thetransfer function because the denominator is zero. Tryusing the convolution integral solution with initialconditions set as x(t) =eat x (0) + fo g(t − T)u(T)dT-g(t) is the impulse response of the system.

The system we are dealing with is given by the equation: dtdx=ax+u where u(t)=eat is the…

Answered: Consider the system dx ax+u. dt Compute…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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In the system shown in the figure, the input is the force fand the output is the displacement x4 of point A. When x= xA, the spring is at its free length. H m C Derive the transfer function of the system. Show all work.
Derive the transfer function R(s) Suppose the equations given as X2-g21X1+923X3] X3-931X1+g32X2tg33X3 X4-G42X2+&43X3 There are four nodes X1, X2. X3 and X4 we shall now draw the signal flow graph using above equations: 931 942 933 932 943 1 oC(s) 921 X2 R(s)o- X1 923
"Time domain representation is an ac signal representation considers the time-varying nature of the signal, specifically its sinusoidal form." O True O False
Affempt all Questions. A discrete-time signal x(n) is defined as x(n) = 0sns4 elsewhere (a) Determine its values and sketch the signal x(n). (b) Sketch the signals that result if we: (1) First fold x(n) and then delay the resulting signal by three samples. (2) First delay x(n) by three samples and then fold the resulting signal. A BI !!
Please help with this problem and explain the steps to solve
1. Sketch the following discrete-time signals. a. xn] = u[n– 5]–uln – 6] b. x[n]=10u[-n + 2]– Su[n – 2] x[»] = 48[n + 5]+ (n+5)u[n + 3]– mu[n] c.
Consider the following process transfer functions. Determine the characteristic parameters (not the poles and zeros) of each process. Describe the dynamic response that would be expected for a unit step change input, and identify any special features of the response. 8e-3s 15 (b) G(s) = 18 (a) G(s) = 16s+4 3s+1 4s+1
Please assist with this with details on how to do it. Thank you.
x(+)= t(uC+) -uct-1) -4-1)uCt-1) + e act-i) uct-1) Closed fom expression of sc +) act-1) is x (4) = ēact fon t othorwise setting a =1 ,woite that plots the output Signal by evaluating e MATLA B soript a the closed fonm expression between t=0 and t=5 seconds blw the data points ; .e at t=0,0.01,0.02,0.03-.Seconds evaluating
Please answer all subpart either dislike is ready please all subpart is compulsory please..
For the system shown:a. Get the equationsb. Simplify and determine C / Rc. Draw the signal flow diagram for this system.
Find the transfer function, X1(s)/F(s) For the system show in the figure. r3(1) Syy = 4 N-s/m f(t) fvz = 4 N-s/m K= 5 N/m fvz = 4N-s/m M1 = 4 kg0000 M2 = 4 kg Sv4= 4 N-s/m

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