XL=Xc is the resonance condition for an RLC circuit
1. The RLC series circuit is a very important example of a resonant circuit. It has a minimum of impedance Z=R at the resonant frequency, and the phase angle is equal to zero at resonance.AnswerThe impedance of an RLC circuit is the vector sum of the circuit's resistance, inductive reactance, and capacitive reactance -all of which are expressed in ohms. This applies whether the circuit is at resonance or not.
In a RLC series circuit the Q factor magnify the voltage to the circuit.
in series you XL, voltage leads the current, and in Parallel current leads the voltage. so your answer should reflect on this theory.
by combining a low-pass filter with a high-pass filter.[1]
because at resonance frequency in LRC parallel circuit,impedance is high, so it minimize the current. thus we say its a rejector circuit .
What is meant by resonance and explain the series and parallel resonance? by kathiresan
No, the resonant frequency of a RLC series circuit is only dependant on L and C. R will be the impedance of the circuit at resonance.
The power factor of an RLC circuit under resonance is 1. Explaination:- Power factor of an RLC circiut is given by=R/|Z| For a resonant circiut,|Z|=R (Because reactive components are zero in resonance) . . .Power factor=R/R=1.
An RLC circuit can affect the amplitude of a signal by either amplifying or dampening it. The circuit can resonate at a specific frequency, causing the amplitude of the signal to increase (in resonance) or decrease (out of resonance) depending on the values of the components. The circuit's impedance at a given frequency dictates how much the signal's amplitude will be affected.
1. The RLC series circuit is a very important example of a resonant circuit. It has a minimum of impedance Z=R at the resonant frequency, and the phase angle is equal to zero at resonance.AnswerThe impedance of an RLC circuit is the vector sum of the circuit's resistance, inductive reactance, and capacitive reactance -all of which are expressed in ohms. This applies whether the circuit is at resonance or not.
Answer:A given combination of R,L and C in series allows the current to flow in a certain frequency range only.For this reason it is known as an acceptor circuit i.e.,it accepts some specific frequencies....
In a RLC series circuit the Q factor magnify the voltage to the circuit.
in series you XL, voltage leads the current, and in Parallel current leads the voltage. so your answer should reflect on this theory.
At resonance in an RLC circuit, the inductive reactance (XL) and capacitive reactance (XC) are equal in magnitude but opposite in phase, resulting in their cancellation. This condition occurs at a specific frequency known as the resonant frequency, given by the formula ( f_0 = \frac{1}{2\pi\sqrt{LC}} ), where L is the inductance and C is the capacitance. Therefore, at resonance, the values of the inductor and capacitor determine the resonant frequency, but their specific values do not directly influence the resonance condition itself.
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Series resonance is called voltage resonance because at resonance frequency in a series RLC circuit, the impedance of the inductor and capacitor cancel each other out, resulting in minimum impedance. This causes the total voltage across the circuit to be maximized, leading to a peak in voltage across the components at resonance. This phenomenon is known as voltage resonance because it results in a maximum voltage across the circuit at that specific frequency.
RLC is a type of electrical circuit that involves a resistor, an inductor and a capacitor. The throughput is the amount of energy travelling through the circuit.