1. For the circuit shown below, use the current divider rule to find the phasors 13and Vo in polar form: answer: 13 = 7.694 65.3° A, V₁ =¹46.161 Z-24.7° V1₁ = 940° A ↑R₁15 02L₁j8nA₂www.4Ω13↓с-j6nHii+V₂R3ΖΩL₂j5Ω

1. For the circuit shown below, use the current divider rule to find the phasors I3 and Vo in polar form: answer: 13 = 7.694 / 65.3° A, Vo=¹46.161 Z-24.7° V 1,940° A R₁ 1502 4₁ j 8 Ո R₂ www- 402 4 с -160 419 V₂ R3 70 یا 150

1. For the circuit shown below, use the current divider rule to find the phasors I3 and Vo in polar form: answer: 13 = 7.694 / 65.3° A, Vo=¹46.161 Z-24.7° V 1,940° A R₁ 1502 4₁ j 8 Ո R₂ www- 402 4 с -160 419 V₂ R3 70 یا 150

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.2P: Convert the following instantaneous currents to phasors, using cos(t) as the reference. Give your...

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Concept explainers

Current Division Method

The generalized current divider formula is given by the following relation below,

Question

1. For the circuit shown below, use the current divider rule to find the phasors 13
and Vo in polar form: answer: 13 = 7.694 65.3° A, V₁ =¹46.161 Z-24.7° V
1₁ = 940° A ↑
R₁
15 02
L₁
j8n
A₂
www.
4Ω
13↓
с
-j6n
Hii
+
V₂
R3
ΖΩ
L₂
j5Ω

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