8. The circuit below is similar to Problem 7 and operates at a frequency of 10 kHz. Circuit element Z can be either a capacitor or inductor. Assuming the transformer is ideal, determine the inductance or capacitance of Z and the turns ratio N that optimizes the power delivered to the load, RL, then calculate the power in RL. 42 1:N 2 10290 R = 200 2 j4 2

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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8. The circuit below is similar to Problem 7 and operates at a frequency of 10 kHz. Circuit element Z
can be either a capacitor or inductor. Assuming the transformer is ideal, determine the inductance
or capacitance of Z and the turns ratio N that optimizes the power delivered to the load, RL, then
calculate the power in RL-
1:N 2
R = 200 2
%3D
10290
-j4 2
Transcribed Image Text:8. The circuit below is similar to Problem 7 and operates at a frequency of 10 kHz. Circuit element Z can be either a capacitor or inductor. Assuming the transformer is ideal, determine the inductance or capacitance of Z and the turns ratio N that optimizes the power delivered to the load, RL, then calculate the power in RL- 1:N 2 R = 200 2 %3D 10290 -j4 2
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