Apply the Partial Fraction Expansion to determine the time response y(t) of the system with transfer...

A system is characterized by a transfer function given by: H(s)=(9s+5)/(s^2+6s+5) what is the output response...

A system is characterized by a transfer function given by: H(s)=(9s+5)/(s^2+6s+5) what is the output response y(t), if the excitation is given by x(t)=u(t) pick from below: a- y(t)=[1+e^-t-2e^-5t]u(t) b- y(t)=[-2/3e^-t + 62/3e^-4t-20e^-5t]u(t) c- y(t)=[6/5+2t-2e^-t+4/5e^-5t]u(t) d- y(t)=[8/34e^-t-400/82e^-5t+5.51cos(4t-32.5)]u(t) e- y(t)=[2+2e^-t-4^e-5t]u(t)

A continuous-time system with impulse response h(t)=8(u(t-1)-u(t-9)) is excited by the signal x(t)=3(u(t-3)-u(t-7)) and the system...

A continuous-time system with impulse response h(t)=8(u(t-1)-u(t-9)) is excited by the signal x(t)=3(u(t-3)-u(t-7)) and the system response is y(t). Find the value of y(10).

Consider a causal LTI system described by the difference equation: y[n] = 0.5 y[n-1] + x[n]...

Consider a causal LTI system described by the difference equation: y[n] = 0.5 y[n-1] + x[n] – x[n-1] (a) Determine the system function H(z) and plot a pole-zero pattern in the complex z-plane. (b) Find the system response using partial fraction expansion when the input is x[n] = 2u[n]. Plot the result.

6. Consider a causal linear system whose (zero-state) response to an input signal, f(t) = e...

6. Consider a causal linear system whose (zero-state) response to an input signal, f(t) = e −3tu(t), is y(t) = (−e −t + 4e −2t − 3e −3t )u(t). ( a) Find the transfer function H(s) of the system. (b) Write the differential equation that describes the system. (c) Plot the pole-zero diagram of system. Is the system stable? (d) Plot the frequency response of the system, |H(w)|. (e) Whats the systems zero-state response to another input signal, f1(t) =...

A system is characterised by the equation Y(s) / U(s) = 20(4s +2) / s^2 +...

A system is characterised by the equation Y(s) / U(s) = 20(4s +2) / s^2 + 6s^2 + 8s +2, find the state and output equation and express the result in matrix form. B) Show that G(s) = [ C(SI - A) ^-1 *B +D] U(s)   The question has to do with state space representation for transfer function.

what is the systems steady state response with an input of f(t)=30sin(10t), with transfer function G(s)=(1/2)/s^2+7s+10....

what is the systems steady state response with an input of f(t)=30sin(10t), with transfer function G(s)=(1/2)/s^2+7s+10. estimate phase angle in degrees

A linear time invariant system has an impulse response given by ℎ[?] = 2(−0.5) ? ?[?]...

A linear time invariant system has an impulse response given by ℎ[?] = 2(−0.5) ? ?[?] − 3(0.5) 2? ?[?] where u[n] is the unit step function. a) Find the z-domain transfer function ?(?). b) Draw pole-zero plot of the system and indicate the region of convergence. c) Is the system stable? Explain. d) Is the system causal? Explain. e) Find the unit step response ?[?] of the system, that is, the response to the unit step input. f) Provide...

System 3 : Consider the discrete time system represented by the following difference equation: y(n) ?...

System 3 : Consider the discrete time system represented by the following difference equation: y(n) ? x(n) ? x(n ? 2) ? 0.8y(n ?1) ? 0.64 y(n ? 2) a) Draw the corresponding BLOCK DIAGRAM b) Obtain the TRANSFER FUNCTION, H(z) , for this system.   c) Calculate and plot the POLES and ZEROS of the transfer function. d) State the FREQUENCY RESPONSE Equation ,  H(ej? ) , for this system.    System 4 : Consider the discrete time system represented by...

Use partial fraction decomposition to find the inverse Laplace transform of the given function. (a) Y...

Use partial fraction decomposition to find the inverse Laplace transform of the given function. (a) Y (s) = 2 /(s 2+3s−4) (b) Y (s) = 1−2s /(s 2+4s+5) differential eq

find the steady state response for the following system: y(k)-0.2y(k-1)+0.26y(k-2)=2u(k-1)-u(k-2) The input u(t) is not given.

find the steady state response for the following system: y(k)-0.2y(k-1)+0.26y(k-2)=2u(k-1)-u(k-2) The input u(t) is not given.