211 Apply graphical convolution to the waveforms of x (t) and h(t) shown in Fig. P2.11 to determine y(t) = x(t) *h(t). x(1) 0 0 2 t (s) h(t) 2- 0 + 0 1 2 34 t (s)
211 Apply graphical convolution to the waveforms of x (t) and h(t) shown in Fig. P2.11 to determine y(t) = x(t) *h(t). x(1) 0 0 2 t (s) h(t) 2- 0 + 0 1 2 34 t (s)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Question
![211 Apply graphical convolution to the waveforms of x (t)
and h(t) shown in Fig. P2.11 to determine y(t) = x(t) *h(t).
x(1)
0
0
2
t (s)
h(t)
2-
0
+
0 1 2
34
t (s)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F55ae2c3d-db8a-4868-8838-b7d4cd87465a%2Fbadd5c64-3d79-4563-8080-b0e6993cad61%2Frg1w84y_processed.png&w=3840&q=75)
Transcribed Image Text:211 Apply graphical convolution to the waveforms of x (t)
and h(t) shown in Fig. P2.11 to determine y(t) = x(t) *h(t).
x(1)
0
0
2
t (s)
h(t)
2-
0
+
0 1 2
34
t (s)
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Step 1: State the given data.
VIEWStep 2: Defining the convolution and drawing the graphs of x(t-T), h(T) vs T.
VIEWSolution
VIEWStep 3: Finding the output, y(t) for t<=0.
VIEWStep 4: Finding the output, y(t) for 0<t<=1.
VIEWStep 5: Finding the output, y(t) for 1<t<=2.
VIEWStep 6: Finding the output, y(t) for 2<t<=3.
VIEWStep 7: Finding the output, y(t) for 3<t<=4.
VIEWStep 8: Finding the output, y(t) for 4<t<=5.
VIEWStep 9: Finding the output, y(t) for 5<t<=6.
VIEWStep 10: Finding the output, y(t) for t>6.
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