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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Similar questions

A certain discrete-time system with input x[n] and output y[n] is described by the difference equation yln] – 0.4y[n – 1] = 0.8x[n] a. Draw the block diagram to implement the given difference equation. b. Find the transfer function of the system. c. Given that x[n] = 0.4", find y[n].
please have step by step solution and explain along the way. also please no chatgpt or some sort it is always wrong
a. Write an equation for the transfer function of a second-order system that meets the conditions for overdamped. Explain the selection of parameter values as a condition of each of these systems.
Derive the transfer function of the system below using method: a. block diagram reduction b. signal flow graph Please answer in typing format please ASAP for
"Time domain representation is an ac signal representation considers the time-varying nature of the signal, specifically its sinusoidal form." O True O False
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..
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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