An RLC series circuit has a resistor 3.01 kn, an inductor 174 mH inductor, and a 31 nF capacitor. the circuit is powered by a sou frequency of 477 Hz. Give ALL answers to three significant figures. (a) Calculate the circuit's imnedance at 477 Hz
An RLC series circuit has a resistor 3.01 kn, an inductor 174 mH inductor, and a 31 nF capacitor. the circuit is powered by a sou frequency of 477 Hz. Give ALL answers to three significant figures. (a) Calculate the circuit's imnedance at 477 Hz
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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An RLC series circuit has a resistor 3.01 kΩ, an inductor 174 mH inductor, and a 31 nF capacitor. the circuit is powered by a source having a frequency of 477 Hz. Give ALL answers to three significant figures.
(a) Calculate the circuit's impedance at 477 Hz.
Ω
(b) The voltage source has Vrms = 480 V. Calculate the Irms (in mA).
mA
(c) Calculate the resonant frequency of the circuit (in kHz).
kHz
(d) Calculate the current in the circuit at resonance.
A
(e) Calculate the voltage across the inductor at resonance.
V
Transcribed Image Text:An RLC series circuit has a resistor 3.01 kN, an inductor 174 mH inductor, and a 31 nF capacitor. the circuit is powered by a source having a
frequency of 477 Hz. Give ALL answers to three significant figures.
(a) Calculate the circuit's impedance at 477 Hz.
Ω
(b) The voltage source has V,
Vrms
4s0 V. Calculate the Ims
(in mA).
(c) Calculate the resonant frequency of the circuit (in kHz).
kHz
(d) Calculate the current in the circuit at resonance.
A
(e) Calculate the voltage across the inductor at resonance.
V
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