The block having transfer functions G 1/ (s+2); G2 = 1/ (s+5); G3 = (s+1) / (s+3); are in parallel. The equivalent transfer function is: a. (s3 + 10s 2 + 34s + 37) / [(s+1)(s+4) (s+5)] b. (s + 3) / [(s+1)(s+4)(s+5)] C. - (s3 + 10s 2 + 34s + 37) / [(s+1)(s+4) (s+5)] d. - (s + 3) / [(s+1)(s+4)(s+5)]
The block having transfer functions G 1/ (s+2); G2 = 1/ (s+5); G3 = (s+1) / (s+3); are in parallel. The equivalent transfer function is: a. (s3 + 10s 2 + 34s + 37) / [(s+1)(s+4) (s+5)] b. (s + 3) / [(s+1)(s+4)(s+5)] C. - (s3 + 10s 2 + 34s + 37) / [(s+1)(s+4) (s+5)] d. - (s + 3) / [(s+1)(s+4)(s+5)]
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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![The block having transfer functions G1 =
1/ (s+2); G2 = 1/ (s+5); G3 = (s+1) /
(s+3); are in parallel. The equivalent
transfer function is:
a. (s3 + 10s 2 + 34s + 37) / [(s+1)(s+4)
(s+5)]
b. (s + 3) / [(s+1)(s+4)(s+5)]
C. - (s3 + 10s 2 + 34s + 37) / [(s+1)(s+4)
(s+5)]
d. - (s + 3) / [(s+1)(s+4)(s+5)]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4cb8bd6f-872d-4998-9e4b-fe65f3064842%2F06b0f7fd-8abe-4c7f-86ce-bca2eac6503a%2Ffzyiswq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The block having transfer functions G1 =
1/ (s+2); G2 = 1/ (s+5); G3 = (s+1) /
(s+3); are in parallel. The equivalent
transfer function is:
a. (s3 + 10s 2 + 34s + 37) / [(s+1)(s+4)
(s+5)]
b. (s + 3) / [(s+1)(s+4)(s+5)]
C. - (s3 + 10s 2 + 34s + 37) / [(s+1)(s+4)
(s+5)]
d. - (s + 3) / [(s+1)(s+4)(s+5)]
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