52 The value of the parameters in the circuit shown in Fig. P10.52 are L₁ = 4 mH; L₂ = 1 mH; k = 0.75; Rg = 2; and R₁ = 140. If Ug = 54√2 cos 1000t V, find Vg a) the rms magnitude of vo; b) the average power delivered to RL: c) the percentage of the average power generated by the ideal voltage source that is delivered to R₁. Figure P10.52 + Rg ww L₁ Vg RL
52 The value of the parameters in the circuit shown in Fig. P10.52 are L₁ = 4 mH; L₂ = 1 mH; k = 0.75; Rg = 2; and R₁ = 140. If Ug = 54√2 cos 1000t V, find Vg a) the rms magnitude of vo; b) the average power delivered to RL: c) the percentage of the average power generated by the ideal voltage source that is delivered to R₁. Figure P10.52 + Rg ww L₁ Vg RL
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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Transcribed Image Text:10.52 The value of the parameters in the circuit shown
If
in Fig. P10.52 are L₁ = 4 mH; L₂ = 1 mH;
k = 0.75; Rg = 20;
V₂ = 54√2 cos 1000 V, find
and RL = 14 02.
Ω.
Vg
a) the rms magnitude of vo;
b) the average power delivered to R₁;
c) the percentage of the average power generated
by the ideal voltage source that is delivered to R₁.
Figure P10.52
+
Rg
www
L₂3
k
L₁
Vg
ww
RL
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