4a) Calculate the inductive reactance X₁ for the circuit in Figure 4 with L = 100 mH, assuming f = 2.5 kHz. 4b)If the resistance in this circuit is 2.7 k calculate the peak voltage across each of the elements, for a voltage of 4 Vp at the source, with frequency f = 2.5 kHz. 4c) Explain what happens if the frequency is increased to f = 5.0 kHz and the other conditions are maintained. Recalculate the inductive reactance and peak voltage at each of the elements at this new frequency. ~ Vf 100 mH 4 kHz L RM 2,7 ΚΩ Y X ORC
4a) Calculate the inductive reactance X₁ for the circuit in Figure 4 with L = 100 mH, assuming f = 2.5 kHz. 4b)If the resistance in this circuit is 2.7 k calculate the peak voltage across each of the elements, for a voltage of 4 Vp at the source, with frequency f = 2.5 kHz. 4c) Explain what happens if the frequency is increased to f = 5.0 kHz and the other conditions are maintained. Recalculate the inductive reactance and peak voltage at each of the elements at this new frequency. ~ Vf 100 mH 4 kHz L RM 2,7 ΚΩ Y X ORC
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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I need this three-part problem please :)
.
Transcribed Image Text:4a) Calculate the inductive reactance XL for the
circuit in Figure 4 with L = 100 mH, assuming f =
2.5 kHz.
4b)If the resistance in this circuit is 2.7 k
calculate the peak voltage across each of the
elements, for a voltage of 4 Vp at the source,
with frequency f = 2.5 kHz.
4c) Explain what happens if the frequency is
increased to f = 5.0 kHz and the other conditions
are maintained. Recalculate the inductive
reactance and peak voltage at each of the
elements at this new frequency.
100 mH
Vf
4 kHz
L
RE
2,7 ΚΩ
Figure 4. Measurement circuit #4.
Y
ORC
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