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below: 5 5 H(s) = s+2 +10 (a) Sketch the Bode diagram of this system. Label the frequencies, magnitude, phase angles, and slopes wherever necessary. Magnitude (dB) Phase (dog) 50 O -50 -100 -180 10-¹ 13⁰ Bode Diagram יכו Frequency (racis) 10² 10³ (b) For a sinusoidal input x (t) = 2 sin(2t +45°), determine the steady-state response of the system

below: 5 5 H(s) = s+2 +10 (a) Sketch the Bode diagram of this system. Label the frequencies, magnitude, phase angles, and slopes wherever necessary. Magnitude (dB) Phase (dog) 50 O -50 -100 -180 10-¹ 13⁰ Bode Diagram יכו Frequency (racis) 10² 10³ (b) For a sinusoidal input x (t) = 2 sin(2t +45°), determine the steady-state response of the system

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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3. Consider a causal continuous-time LTI system described by the transfer function below: 5 H(s) = 5 s+2 +10 (a) Sketch the Bode diagram of this system. Label the frequencies, magnitude, phase angles, and slopes wherever necessary. Magnitude (dB) Phase (deg) 50 0 -50 -100 45 -90 -135 -180 10-¹ 10⁰ Bode Diagram 10¹ Frequency (rac/s) 10² 10³ (b) For a sinusoidal input x (t) = 2 sin(2t + 45°), determine the steady-state response of the system.
Transcribed Image Text:3. Consider a causal continuous-time LTI system described by the transfer function below: 5 H(s) = 5 s+2 +10 (a) Sketch the Bode diagram of this system. Label the frequencies, magnitude, phase angles, and slopes wherever necessary. Magnitude (dB) Phase (deg) 50 0 -50 -100 45 -90 -135 -180 10-¹ 10⁰ Bode Diagram 10¹ Frequency (rac/s) 10² 10³ (b) For a sinusoidal input x (t) = 2 sin(2t + 45°), determine the steady-state response of the system.
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