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Problem #3 A measurement system with a transfer function G(jw) has an input signal u(t)=u, sin oot, where @= 2лf. The output signal of the system u (t) is then given as: u(t)=u₂|G(jw)|sin (@t+180°) u(t)=u|G(jw)|sin (wt – ZG(jw)) u(t)= u₁|G(jw)|sin (wt + ZG(jw)) u¸(t)=u₁|G(jw)|tan¯¹ (wt + ZG(jw)) None of the above

Problem #3 A measurement system with a transfer function G(jw) has an input signal u(t)=u, sin oot, where @= 2лf. The output signal of the system u (t) is then given as: u(t)=u₂|G(jw)|sin (@t+180°) u(t)=u|G(jw)|sin (wt – ZG(jw)) u(t)= u₁|G(jw)|sin (wt + ZG(jw)) u¸(t)=u₁|G(jw)|tan¯¹ (wt + ZG(jw)) None of the above

Introductory Circuit Analysis (13th Edition)
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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Problem #3 A measurement system with a transfer function G(jo) has an input signal u(t)=u, sin oot, where w=2лf. The output signal of the system u. (t) is then given as: u(t)= u G(jw)|sin (@t+180°) a u(t)= u G(jw) sin(at - ZG(jw)) u(t)=u G(jw) sin(at + ZG(jw)) u(t)=u|G(jo) tan¯¹ (wt + ZG(jw)) None of the above a
Transcribed Image Text:Problem #3 A measurement system with a transfer function G(jo) has an input signal u(t)=u, sin oot, where w=2лf. The output signal of the system u. (t) is then given as: u(t)= u G(jw)|sin (@t+180°) a u(t)= u G(jw) sin(at - ZG(jw)) u(t)=u G(jw) sin(at + ZG(jw)) u(t)=u|G(jo) tan¯¹ (wt + ZG(jw)) None of the above a
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