Signals g₁ (t) = 10¹rect (10¹t) and 92 (t) = 8(t) are applied at the inputs of ideal low-pass filters H₁(f) = rect(f/10000) and H₂(f) = rect(f/20, 000) (shown in figure below). The outputs y₁ (t) and y2 (t) of these filters are multiplied to obtain the signal y(t) = y₁ (t)y2 (t). Find the Nyquist rate of y₁ (t), y2(t) and y(t). 8₁ (1) 8₂ (1) H(f) HG) ₂2 (1) y (1)=y₁ (1)y₂ (1)

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Signals 9₁ (t) = 10¹rect (10¹t) and 92 (t) = 8(t) are applied at the inputs of ideal low-pass
filters H₁(f) = rect(f/10000) and H₂(f) = rect(f/20, 000) (shown in figure below).
The outputs yı(t) and y2(t) of these filters are multiplied to obtain the signal y(t) =
y₁ (t)y2 (t). Find the Nyquist rate of y₁ (t), y2(t) and y(t).
8₁ (1)
8₂ (1)
HG)
₂2 (1)
y(t) = y₁ (1)y₂ (1)
Transcribed Image Text:Signals 9₁ (t) = 10¹rect (10¹t) and 92 (t) = 8(t) are applied at the inputs of ideal low-pass filters H₁(f) = rect(f/10000) and H₂(f) = rect(f/20, 000) (shown in figure below). The outputs yı(t) and y2(t) of these filters are multiplied to obtain the signal y(t) = y₁ (t)y2 (t). Find the Nyquist rate of y₁ (t), y2(t) and y(t). 8₁ (1) 8₂ (1) HG) ₂2 (1) y(t) = y₁ (1)y₂ (1)
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