Let Z[n]=x[n]+y[n-no], where X[n] and y[n] are shown below and no can be adjusted. 4. x[n]3 -1 y[n]3 4 6. 7 Does there exist a value of no such that Z(w) is real ? If so, what is the value of Z[ – 1] in this case. No, Z(w) cannot be real, regardless of no. O Zlw). can be real with a single value ofno, in which case Z[ - 1]= 0. Z(w) can be real with a single value of no, in which case Z[ - 1]= 1. O Z(w) can be real with a single value of no, in which case Z[ – 1]=2. o Zw) can be real with a single value of no, in which case Z[ - 1]=3. O Z(W) can be real with a single value of no, in which case Z[ - 1]=4. o Z(w) can be real with a single value of no, in which case Z[ – 1]= 5. o Z(W) can be real with more than one value ofno, and the value of Z[ – 1] is always 1. ZW) can be real with more than one value ofno, and the value of Z[ – 1] depends on no.

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Let z[n]=x[n]+y[n-nol, where X[n] and y[n] are shown below and no can be adjusted. x[n]3 -1 5 y[n]3 1 4 5 Does there exist a value of no such that Z() is real ? If so, what is the value of Z[ – 1] in this case. No, Z(W) cannot be real, regardless of no. ZW) can be real with a single value of no, in which case Z[ -1]=0. Z(w) can be real with a single value of no, in which case Z[ – 1]= 1. o Z(w) can be real with a single value of no, in which case Z[ - 1]=2. O Zw) can be real with a single value of no, in which case Z[ - 1]=3. o Z(w) can be real with a single value of no, in which case Z[ - 1]=4. Z(W) can be real with a single value of n, in which case Z[ - 1]=5. Z(W) can be real with more than one value of no, and the value of Z[ – 1]is always 1. O Z(w) can be real with more than one value ofno, and the value of Z[ – 1] depends on no.