In an RLC circuit a resistor R=25N, an inductor L=30mHand a capacitor C=12µF are connected in series with an AC source with Vrms=80V and f=500HZ i) Determine the total impedance. ii) Determine the rms current in the circuit. iii) Determine the phase angle. iv) Determine the rms value of the voltage across R, L, and C.

In an RLC circuit a resistor R=25N, an inductor L=30mHand a capacitor C=12µF are connected in series with an AC source with Vrms=80V and f=500HZ i) Determine the total impedance. ii) Determine the rms current in the circuit. iii) Determine the phase angle. iv) Determine the rms value of the voltage across R, L, and C.

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter23: Electromagnetic Induction, Ac Circuits, And Electrical Technologies

Section: Chapter Questions

Problem 101PE: An RLC series circuit has a 2.50 (resistor, a 100 (H inductor, and an 80.0 (F capacitor. (a) Find...

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Question

In an RLC circuit a resistor R=25N, an inductor L=30mHand a capacitor C=12µF are connected
in series with an AC source with Vrms =80V and f=500HZ
i) Determine the total impedance.
ii) Determine the rms current in the circuit.
iii) Determine the phase angle.
iv) Determine the rms value of the voltage across R, L, and C.

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Step 3 :Calculation of the capacitive reactance

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Step 4 :Calculation of the inductive reactance

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Step 5 :Calculation of total impedance of the RLC circuit

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Step 6 :Calculation of the rms current in the circuit

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Step 7 :Calculation of the phase angle

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Step 8 :Calculation of the rms value of voltage across resistor

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Step 9 :Calculation of the rms value of voltage across capacitor

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Step 10 :Calculation of the rms value of voltage across inductor

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