Suppose a 0.55 mH inductor is connected to a 37.5 μF capacitor. Find the resonant frequency, in hertz. The simple AC circuit shown on the right has resistance R = 47.5 Ω and impedance Z = 165 Ω. The rms voltage of the power supply is ΔVrms = 196 V. (a) Express the rms current, Irms, in terms of ΔVrms and Z. (b) Calculate the numerical value of Irms in amps. (c) Express the average power dissipated in the circuit, Pavg, in terms of Irms and R. (d) Calculate the value of Pavg, in watts
Suppose a 0.55 mH inductor is connected to a 37.5 μF capacitor. Find the resonant frequency, in hertz. The simple AC circuit shown on the right has resistance R = 47.5 Ω and impedance Z = 165 Ω. The rms voltage of the power supply is ΔVrms = 196 V. (a) Express the rms current, Irms, in terms of ΔVrms and Z. (b) Calculate the numerical value of Irms in amps. (c) Express the average power dissipated in the circuit, Pavg, in terms of Irms and R. (d) Calculate the value of Pavg, in watts
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Suppose a 0.55 mH inductor is connected to a 37.5 μF capacitor.
Find the resonant frequency, in hertz. |
The simple AC circuit shown on the right has resistance R = 47.5 Ω and impedance Z = 165 Ω. The rms voltage of the power supply is ΔVrms = 196 V.
(a) Express the rms current, Irms, in terms of ΔVrms and Z.
(b) Calculate the numerical value of Irms in amps.
(c) Express the average power dissipated in the circuit, Pavg, in terms of Irms and R.
(d) Calculate the value of Pavg, in watts.
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