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A linear system is governed by the given initial value problem. Find the transfer function How)...
A linear system is governed by the given initial value problem. Find the transfer function H(s) for the system and the impulse response function h(t) and give a formula for the solution to the initial value problem. y" - 6y' +34y = g(t); y(O)= 0, y' (O) = 5 Find the transfer function. H(s) = Use the convolution theorem to obtain a formula for the solution to the given initial value problem, where g(t) is piecewise continuous on (0,00) and...
6.[10] Find the solution to the vibrating string problem governed by the given initial-boundary value problem: 9uxx = Utt 0<x< 1, t> 0 u(0,t) = 0) = u(tt,t), t> 0 u(x,0) = sin 4x + 7 sin 5x, 0<x< 1 uz (3,0) = { X, 0 < x < 1/2 r/2 < x <
b) The transfer function of a causal linear time-invariant (LTI) discrete-time system is given by: 1+0.6z1-0.5z1 i Does the system have a finite impulse response (FIR) or infinite 3 impulse response (IIR)? Explain why. ii Determine the impulse response h[n] of the above system iii) Suppose that the system above was designed using the bilinear transformation method with sampling period T-0.5 s. Determine its original analogue transfer function.
b) The transfer function of a causal linear time-invariant (LTI) discrete-time system...
2. Consider a linear time-invariant system with transfer function H(s)Find the (s + α)(s + β) impulse response, h(t), of the system
2. Consider a linear time-invariant system with transfer function H(s)Find the (s + α)(s + β) impulse response, h(t), of the system
Consider the initial value problem for function y given by,
Consider the initial value problem for function y given by, (a) Find the Laplace Transform of the source function, F(s) = L[-3 F(s) = (b) Find the Laplace Transform of the solution, Y(s) Lt) Y(s) - (c) Find the solution y(t) of the initial value problem above. s(t) Recall: If needed, the step function at c is denoted as u(t - c) -1] Help Entering Answers Preview My Anawers Submit...
Solve the given symbolic initial value problem and sketch a graph of the solution y" + 2y =60(1-4): y0)=0, y(0) = 2 Solve the given symbolic initial value problem. y(t) =
Find the zero-state response of the linear system with transfer function with an > 0 and 0 <くく1, when the input u(t) is the unit step, that is, u(t)-1(t), for 12 o, using both 1) the transfer function approach and 2) the convolution approach
Find the zero-state response of the linear system with transfer function with an > 0 and 0
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Find the poles of transfer function given by system dʻy(t) _ dyſt) + y(t) – $* < (t) dt = 2 (t) dt2 dt A=0, 0.7 +0.466 B = 0, 2.5 + 0.866 C=0, 0.5 +0.866 D=0, 1.5 +0.876 0 0 0 0
A causal,d following difference equation linear, time-invariant system is governed by the (a) Determine the transfer function, H(2), of the system and its region of (b) Determine the output yi[n] of the system in response to the input (c) Determine the output y2fn] of the system in response to the input convergence. r2n (2). Note that z2n] does not have a z-transform.
5.3.1 Convert the given initial value problem into an initial value problem for a system in normal form. y"(t) - 4y'(t) + 58+ y(t) = 7t y(0) = 3, y'(0) = - 3 Let xy = y and X2 = y'. Complete the differential equation and initial condition for X (Type an expression using t, xy, and X2 as the variables.) x'= X (0)=