/0° v (+ -j1 Ω 4.H j2 n n/45° v a. Vo = 16.50-j 18.70 V o. Vo = -18.70 -j 40.70 V c. Vo = -17.60+ j-40.70 V d. Vo = 13.20 + j40.70 V e. Vo = -14.30 +j 13.25 V f. Vo = 11.00+ j4.87 V g. Vo = -11.00 +j 18.70 V h. Vo = 22.00 +j 51.70 V 20 Vo tion 2) Since m-11 and n-42 in the circuit above, what is the value of the voltage Vo? tion 2) in the above figure, m=11 and n=42 then find Vo in the circult! A

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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Circuit theory
m/ov
-j1 Ω
44
j20
n 45° v
Ⓒa. Vo = 16.50 -j 18.70 V
b. Vo -18.70 + j40.70 V
Oc. Vo = -17.60 +j-40.70 V
Od. Vo = 13.20 + j40.70 V
O e. Vo = -14.30 + J 13.25 V
O t. Vo = 11.00 + j4.87 V
O g. Vo = -11.00 +j 18.70 V
Oh. Vo = 22.00 +j51.70 V
320 Vo
Question 2) Since m-11 and n-42 in the circuit above, what is the value of the voltage Vo
Question 2) In the above figure, m=11 and n=42 then find Vo in the circuit.
A
Transcribed Image Text:m/ov -j1 Ω 44 j20 n 45° v Ⓒa. Vo = 16.50 -j 18.70 V b. Vo -18.70 + j40.70 V Oc. Vo = -17.60 +j-40.70 V Od. Vo = 13.20 + j40.70 V O e. Vo = -14.30 + J 13.25 V O t. Vo = 11.00 + j4.87 V O g. Vo = -11.00 +j 18.70 V Oh. Vo = 22.00 +j51.70 V 320 Vo Question 2) Since m-11 and n-42 in the circuit above, what is the value of the voltage Vo Question 2) In the above figure, m=11 and n=42 then find Vo in the circuit. A
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