H(z) Poles and zeros Given: y[n] = 1.674y[n-1]-0.81y[n-2]+x[n] a. Find H(z) b. Find poles and zeros...

For the system given by the difference equation below: Y(n) – (3/2).Y(n-1) – Y(n-2) = -(5/2)....

For the system given by the difference equation below: Y(n) – (3/2).Y(n-1) – Y(n-2) = -(5/2). X(n-1) Find the transfer function H(z). You will need to do this manually. Find the poles and zeros of H(z). You can do this manually or use MATLAB. Plot the poles and zeros in MATLAB Is the system stable? Plot the impulse response of the system using MATLAB Plot the Step Response of the system using MATLAB Plot the frequency response of the system...

find the poles and zeros of the following transfer function H(z)=((z^-1)-(z^-2)-(6z^-3))/(1+(z^-1)+(z^-2))

find the poles and zeros of the following transfer function H(z)=((z^-1)-(z^-2)-(6z^-3))/(1+(z^-1)+(z^-2))

consider the signal x(n)=x1(n)+x2(n) where z tarnsform of x1(n)= X1(z)=8/(1+.05z^-1) and ROC which includes the unit...

consider the signal x(n)=x1(n)+x2(n) where z tarnsform of x1(n)= X1(z)=8/(1+.05z^-1) and ROC which includes the unit circle and x2(n)? has a fourier transform given by X2(e^jw) = 6/(1-2e) a) determine and sketch x1(n) an9nd x2(n) and hence x(n) b) find X2(Z) and its ROC c) assuming y(n)= (1.5)^n x(n) find Y(z) and hence, the poles and zeros of the ROC d) plot the fourier transform of y(n) if it exists

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...

For an LTI system h[n], the output is given by y[n] = 2δ[n-1], given that x[n]...

For an LTI system h[n], the output is given by y[n] = 2δ[n-1], given that x[n] = δ[n]-2δ[n-1]+ 2δ[n-2]. a) Find the transfer function H(z) (7 Points). b) Find the difference equation of the overall system (8 Points). c) Given that the system is causal find h[n] (10 Points). d) Given that the system does not have Fourier Transform, find h[n] (10 Points).

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.

1. Consider x=h(y,z) as a parametrized surface in the natural way. Write the equation of the...

1. Consider x=h(y,z) as a parametrized surface in the natural way. Write the equation of the tangent plane to the surface at the point (5,3,−4) given that ∂h/∂y(3,−4)=1 and ∂h/∂z(3,−4)=0. 2. Find the equation of the tangent plane to the surface z=0y^2−9x^2 at the point (3,−1,−81). z=?

Using the Script: function EulerMethod1(n) X = 0 : 1/n : 1 ; Y = zeros(...

Using the Script: function EulerMethod1(n) X = 0 : 1/n : 1 ; Y = zeros( 1, n + 1 ) ; Y(1) = 1 ; for k = 1 : n m = Y(k) ; Y(k + 1) = Y(k) + m*( X(k + 1) - X(k) ) ; end clf plot( X, Y ) Create a new script, which defines the function EulerMethod2. The purpose of EulerMethod2 is to use Euler's Method to approximate the solution to the...

A. Find the real zeros of k(z) = z − z^3. z = ____ B.  Find the...

A. Find the real zeros of k(z) = z − z^3. z = ____ B.  Find the real zeros of f(x) = −2√x^2-25. (All under root). x = _____ C. Find the real zeros of w(x) = (5x^2 + 13x + 9) / (x + 2). x = _____ If there are multiple solutions, separate the answers with commas (,). If the answer is not an integer, enter it as a fraction in simplest form. If there is no real solution,...

1. Write a MATLAB function to determine the discrete-time Fourier Transform (H(?)) of the following sequence....

1. Write a MATLAB function to determine the discrete-time Fourier Transform (H(?)) of the following sequence. Plot its magnitude and phase. You can use the dtft command and use the abs, angle and plot commands to plot the results. x(n) = {4, 3, 2, 1, 2, 3, 4}. 2. Analytically determine H(z) and plot its magnitude and phase for the following system using freqz. y(n) = 2x(n) + x(n ? 1) ? 0.25y(n ? 1) + 0.25y(n ? 2). 3....