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The 102 resistor receives P = 32 W. Determine: 1. The effective reactance of the coupled coils. 2. The coupling coefficient, k, if XL₁ = 50 and XL2 = 89. Clue: Use Lectures 1 to 6 to solve the first part of the question. Determine the current IR flowing through the resistor with the provided information, and use |IR| to determine VR], the voltage drop over R. You can then find [Vxeffl, the voltage drop over the effective reactance of the coupled coils. 28.320° j5g www ele j8 1092

The 102 resistor receives P = 32 W. Determine: 1. The effective reactance of the coupled coils. 2. The coupling coefficient, k, if XL₁ = 50 and XL2 = 89. Clue: Use Lectures 1 to 6 to solve the first part of the question. Determine the current IR flowing through the resistor with the provided information, and use |IR| to determine VR], the voltage drop over R. You can then find [Vxeffl, the voltage drop over the effective reactance of the coupled coils. 28.320° j5g www ele j8 1092

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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The 10 2 resistor receives P = 32 W. Determine: 1. The effective reactance of the coupled coils. 2. The coupling coefficient, k, if XL₁ = 50 and XL2 = 89. Clue: Use Lectures 1 to 6 to solve the first part of the question. Determine the current IR flowing through the resistor with the provided information, and use |IR| to determine VR], the voltage drop over R. You can then find [Vxeff, the voltage drop over the effective reactance of the coupled coils. 28.320° j5g www 000 1052
Transcribed Image Text:The 10 2 resistor receives P = 32 W. Determine: 1. The effective reactance of the coupled coils. 2. The coupling coefficient, k, if XL₁ = 50 and XL2 = 89. Clue: Use Lectures 1 to 6 to solve the first part of the question. Determine the current IR flowing through the resistor with the provided information, and use |IR| to determine VR], the voltage drop over R. You can then find [Vxeff, the voltage drop over the effective reactance of the coupled coils. 28.320° j5g www 000 1052
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