# Electrical Engineering - RLC Circuits and Resonance - Discussion

Discussion Forum : RLC Circuits and Resonance - General Questions (Q.No. 2)

2.

In a series

*RLC*circuit that is operating above the resonant frequency, the currentDiscussion:

12 comments Page 1 of 2.
Jagadeesh said:
1 decade ago

according to the graph of resonance, above resonant frequency, inductive reactance is more than capacitive reactance, so net is inductive and thus the current lags applied voltage

Balamurugan C said:
1 decade ago

AT RESONANT CONDITION

XL=XC @ RESONANT FREQUENCY

RESONANT FREQUENCY MORE IF XL>XC AND LESS IF XL<XC

HERE IT IS MORE AND IT MEANS XL IS HIGH AND HENCE L IS HIGH (XL=360FL)

L ALWAYS TAKES LAGS THE CURRENT

HENCE THE CURRENT LAGS THE APPLIED VOLTAGE

XL=XC @ RESONANT FREQUENCY

RESONANT FREQUENCY MORE IF XL>XC AND LESS IF XL<XC

HERE IT IS MORE AND IT MEANS XL IS HIGH AND HENCE L IS HIGH (XL=360FL)

L ALWAYS TAKES LAGS THE CURRENT

HENCE THE CURRENT LAGS THE APPLIED VOLTAGE

Abhi said:
1 decade ago

At frequencies above the resonance frequency the series RLC circuit. Behaves as an inductive load (evident from equivalent impedance equation) hence current will lag.

Manindra said:
1 decade ago

At resonant frequency, (Xl=Xc).

Above resonant frequency, (Xl>Xc).

Below resonant frequency (Xl<Xc).

Above resonant frequency, (Xl>Xc).

Below resonant frequency (Xl<Xc).

Aggrey kere said:
1 decade ago

At resonance, Xl =XC. Thus there no phase angle. Therefore; no lug or lead.

RAJ said:
10 years ago

At resonance I in phase with V.

Varshney said:
10 years ago

Above resonance frequency current lags voltage because at this situation XL>XC.

Sandeep wasnik said:
9 years ago

At resonant condition.

XL = XC @ resonant frequency.

Resonant frequency more if XL>XC and less if XL<XC.

Here it is more and it means XL is high and hence L is high (XL = 360FL).

L always takes lags the current.

Hence the current lags the applied voltage.

XL = XC @ resonant frequency.

Resonant frequency more if XL>XC and less if XL<XC.

Here it is more and it means XL is high and hence L is high (XL = 360FL).

L always takes lags the current.

Hence the current lags the applied voltage.

Sandeep sana said:
9 years ago

Resonant frequency XL>XC. So current lags the applied voltage.

Pruthviraj said:
8 years ago

Resonant frequency(fr) = 1/(2 * 3.14 * (LC)1/2,

Take that root.

Given that RLC circuit is above the fr then we know XL > XC in case fr is more then current must be low and that case current should be lags by applied voltage.

Take that root.

Given that RLC circuit is above the fr then we know XL > XC in case fr is more then current must be low and that case current should be lags by applied voltage.

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