A LTI system with input x(t) and output y(t) is described by the following differential equation. 3 d^3y(t)/dt^3 + 4 d^2y(t)/dt + 2 dy(t)/dt + y(t) = 2 dx(t)/dt + 5x(t) Find the magnitude and the phase of the frequency response function. Is the magnitude of H(j omega) an even function of omega? Is the phase of H(j omega) an odd function of omega? Are you surprised by your answers? Why or why not? If x(t) = 2sin(3t + pi/6);-infinity

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images - A LTI system with input x(t) and output y(t) is described by the following differential equation. 3 d^3y(t)/dt^3 + 4 d^2y(t)/dt + 2 dy(t)/dt + y(t) = 2 dx(t)/dt + 5x(t) Find the magnitude and the phase of the frequency response function. Is the magnitude of H(j omega) an even function of omega? Is the phase of H(j omega) an odd function of omega? Are you surprised by your answers? Why or why not? If x(t) = 2sin(3t + pi/6);-infinity

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