In the circuit of Fig. 13.98, find the value of the coupling coefficient & that will make the 10- resistor dissipate 320 W. For this value of k, find the energy stored in the coupled coils at r= 1.5 s. 165 cos 10% V Figure 13.98 For Prob. 13.29. 10 (2 ww 30 mH 50 mH ww 200
In the circuit of Fig. 13.98, find the value of the coupling coefficient & that will make the 10- resistor dissipate 320 W. For this value of k, find the energy stored in the coupled coils at r= 1.5 s. 165 cos 10% V Figure 13.98 For Prob. 13.29. 10 (2 ww 30 mH 50 mH ww 200
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:In the circuit of Fig. 13.98, find the value of the
coupling coefficient & that will make the 10-02
resistor dissipate 320 W. For this value of k, find the
energy stored in the coupled coils at f= 1.5 s.
165 cos 10³ V
Figure 13.98
For Prob. 13.29.
10 12
ww
.
30 mH
50 mH
ww
2002
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