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(d) x₂(t) in (b) is reconstructed using a zero-order hold (ZOH) interpolator. Will the reconstructed signal differ from x(t) ? If no, so state and justify your answer. If yes, sketch the reconstructed signal x,o(t) for the same timespan as (a). (e) Sketch X(jw), the spectrum of x(t). This is the spectrum of the original CT signal. (f) Sketch X₂(jw), the spectrum of the sampled signal x₂(t) as given in (b). Include at least 3 replicas.
(g) Will the spectrum X(jw) of the ideally reconstructed signal x₁(t) as given in (c) differ from the spectrum X(jw) of the original signal as sketched in (e)? If no, so state and justify your answer. If yes, sketch the spectrum of the ideally reconstructed signal X(jw). (h) Will the spectrum X,o(jw) of the ZOH reconstructed signal xo(t) as given in (d) differ from the spectrum X(jw) of the original signal as sketched in (e)? If no, so state and justify your answer. If yes, sketch the spectrum of the ZOH reconstructed signal X, (jo). You should evaluate the areas for the spectral replicas. (i) You should have noticed that the reconstructed spectrum Xro(jo) in (h) has "extra" high frequencies compared to the spectrum X(jo) in (e). This is due to the non-ideal nature of the ZOH reconstruction filter. If these extra high frequencies can be seen in the frequency domain, they must manifest in the time domain. Where do you see these extra high frequencies in the time domain plot of X,o(t) in (d)?