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) Determine the transfer function T(s) = Y(s)/R(s). Cancel common terms where applicable. a. Rls CLS) P(s) Y(s) b. R(S) C(s) = 5+6 P(s) = Cp(s) C₂ (s) H(s) S+3 s² + 7s + 10 H(s) Cp (S) = 5 C₁(s) = P(s) 2 (s) = ² P(s) = ₁ S+5 s² + 7s +12 Y(S) s+3 s² + 4s + 13

) Determine the transfer function T(s) = Y(s)/R(s). Cancel common terms where applicable. a. Rls CLS) P(s) Y(s) b. R(S) C(s) = 5+6 P(s) = Cp(s) C₂ (s) H(s) S+3 s² + 7s + 10 H(s) Cp (S) = 5 C₁(s) = P(s) 2 (s) = ² P(s) = ₁ S+5 s² + 7s +12 Y(S) s+3 s² + 4s + 13

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
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i need help answering part a & b please in detail

 

 

 

 

3.) Determine the transfer function T(s) = Y(s)/R(s). Cancel common terms where applicable. a. Rls) CLS) P(s) Y(s) b. R(S) C(s) = 56 P(s) = S+6 Cp(s) C₂ (5) H(s) S +3 s² + 7s + 10 Cp (S) = 5 C₁(s)=P(s) = S H(s) = P(s) S+5 s² + 7s + 12 Y(S) s+3 s² + 4s + 13
Transcribed Image Text:3.) Determine the transfer function T(s) = Y(s)/R(s). Cancel common terms where applicable. a. Rls) CLS) P(s) Y(s) b. R(S) C(s) = 56 P(s) = S+6 Cp(s) C₂ (5) H(s) S +3 s² + 7s + 10 Cp (S) = 5 C₁(s)=P(s) = S H(s) = P(s) S+5 s² + 7s + 12 Y(S) s+3 s² + 4s + 13
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