Select the correct answer (write the solution with the selection) wa 2 sin 1- Given that F{^\₂(t)} = (³) b) 8(t) , the result of F. c) 2πɅ₂(t) {(n)} is: a) 2πД(t) 2- If the system frequency response is H(w) 1 = 1w+2 the input x(t) == 8(t-n) is: n=0 a) = e-te-int b) Σ²=0 1 e-int j2n+2 d) 2πɅ(-t) then the output response for =0 d) Σete-int u(t) n=0 c)²= e-²te-In 3- The ROC of Laplace transform of x(t) = −e²tu(−t) + eº.2tu(t) + e0.1tu(t) is a) 0.1 << 2 b) 0.1< < 0.2 c) 0.2 << 2 d) σ > 0.2 4- The system T[x(t)] = cos(2x(t)) is a) nonlinear-time invariant b) linear-time variant c) nonlinear-time variant d) linear-time invariant
Select the correct answer (write the solution with the selection) wa 2 sin 1- Given that F{^\₂(t)} = (³) b) 8(t) , the result of F. c) 2πɅ₂(t) {(n)} is: a) 2πД(t) 2- If the system frequency response is H(w) 1 = 1w+2 the input x(t) == 8(t-n) is: n=0 a) = e-te-int b) Σ²=0 1 e-int j2n+2 d) 2πɅ(-t) then the output response for =0 d) Σete-int u(t) n=0 c)²= e-²te-In 3- The ROC of Laplace transform of x(t) = −e²tu(−t) + eº.2tu(t) + e0.1tu(t) is a) 0.1 << 2 b) 0.1< < 0.2 c) 0.2 << 2 d) σ > 0.2 4- The system T[x(t)] = cos(2x(t)) is a) nonlinear-time invariant b) linear-time variant c) nonlinear-time variant d) linear-time invariant
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
![Select the correct answer (write the solution with the selection)
wa 2
sin
1- Given that F{^\₂(t)} = (³)
b) 8(t)
, the result of F.
c) 2πɅ₂(t)
{(n)} is:
a) 2πД(t)
2- If the system frequency response is H(w)
1
=
1w+2
the input x(t) == 8(t-n) is:
n=0
a) = e-te-int b) Σ²=0
1
e-int
j2n+2
d) 2πɅ(-t)
then the output response for
=0
d) Σete-int u(t)
n=0
c)²= e-²te-In
3- The ROC of Laplace transform of x(t) = −e²tu(−t) + eº.2tu(t) + e0.1tu(t) is
a) 0.1 << 2 b) 0.1< < 0.2 c) 0.2 << 2 d) σ > 0.2
4- The system T[x(t)] = cos(2x(t)) is
a) nonlinear-time invariant b) linear-time variant c) nonlinear-time variant
d) linear-time invariant](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9f8f866c-ae7b-4b47-af09-9a1e52458793%2Fbf688cab-6770-4834-8f57-317d29bf360b%2Fy1qbt7e_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Select the correct answer (write the solution with the selection)
wa 2
sin
1- Given that F{^\₂(t)} = (³)
b) 8(t)
, the result of F.
c) 2πɅ₂(t)
{(n)} is:
a) 2πД(t)
2- If the system frequency response is H(w)
1
=
1w+2
the input x(t) == 8(t-n) is:
n=0
a) = e-te-int b) Σ²=0
1
e-int
j2n+2
d) 2πɅ(-t)
then the output response for
=0
d) Σete-int u(t)
n=0
c)²= e-²te-In
3- The ROC of Laplace transform of x(t) = −e²tu(−t) + eº.2tu(t) + e0.1tu(t) is
a) 0.1 << 2 b) 0.1< < 0.2 c) 0.2 << 2 d) σ > 0.2
4- The system T[x(t)] = cos(2x(t)) is
a) nonlinear-time invariant b) linear-time variant c) nonlinear-time variant
d) linear-time invariant
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