Q6) Signals 1(t) = 10*rect(10*t)and 2(t) = 8(t) are applied at the input of ideal low-pass filters H1(@) = rect(@/40,000T) and H2(@) = rect(@/ 20,000n). The output y1(t) and y2(t) of these filters are multiplied to obtain the signal y(t) = y1(t)y2(t). a- Sketch G1(aw)and G2(@). b- Sketch H1(@)and H2(@). c- Sketch Y1(@)and Y2(@).

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Q6) Signals 1(t) = 10*rect(10*t)and2(t) = 8(t) are applied at the input
of ideal low-pass filters H1(@) =rect(@/40,000nT) and H2(@) = rect(@/
20,000). The output y1 (t) and y2(t) of these filters are multiplied to obtain
the signal y(t) = y1(t)y2(t).
a- Sketch G1(@)and G2(w).
b- Sketch H1(w)and H2(@).
c- Sketch Y1(@)and Y2(@).
d- Find the bandwidth of y1(t), y2(t)and y(t).
%3D
%3D
%3D
Transcribed Image Text:Q6) Signals 1(t) = 10*rect(10*t)and2(t) = 8(t) are applied at the input of ideal low-pass filters H1(@) =rect(@/40,000nT) and H2(@) = rect(@/ 20,000). The output y1 (t) and y2(t) of these filters are multiplied to obtain the signal y(t) = y1(t)y2(t). a- Sketch G1(@)and G2(w). b- Sketch H1(w)and H2(@). c- Sketch Y1(@)and Y2(@). d- Find the bandwidth of y1(t), y2(t)and y(t). %3D %3D %3D
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