2.10 Functions x (t) and h(t) are both rectangular pulses, as shown in Fig. P2.10. Apply graphical convolution to determine y(t) = x(t) * h(t) given the following data. (a) A = 1, B = 1, T₁ = 2 s, (b) A = 2, B = 1, T₁ = 4 s, *(c) A = 1, B = 2, T₁ = 4 s, A 0 0 T₁ -t (s) B- 0 0 T₂ = 4 s T₂ = 2 s T₂ = 2 s. T2 Figure P2.10: Waveforms of x (t) and h(t). -t (s)
2.10 Functions x (t) and h(t) are both rectangular pulses, as shown in Fig. P2.10. Apply graphical convolution to determine y(t) = x(t) * h(t) given the following data. (a) A = 1, B = 1, T₁ = 2 s, (b) A = 2, B = 1, T₁ = 4 s, *(c) A = 1, B = 2, T₁ = 4 s, A 0 0 T₁ -t (s) B- 0 0 T₂ = 4 s T₂ = 2 s T₂ = 2 s. T2 Figure P2.10: Waveforms of x (t) and h(t). -t (s)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:2.10 Functions x (t) and h(t) are both rectangular pulses, as
shown in Fig. P2.10. Apply graphical convolution to determine
y(t) = x(t) * h(t) given the following data.
(a) A = 1, B = 1, T₁ = 2 s,
(b) A = 2, B = 1, T₁ = 4 s,
*(c) A = 1, B = 2, T₁ = 4 s,
A
0
0
T₁
-t (s)
B-
0
0
T₂ = 4 s
T₂ = 2 s
T₂ = 2 s.
T2
Figure P2.10: Waveforms of x (t) and h(t).
-t (s)
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