even though a resistance is not connected in a circuit, it would practically have small resistance due to its components.so practically a LC circuit dosent exist..only a RLC circuit exists
a "LC circuit at resonance" and tuned circuits are the same
Inside the circuit loop between the inductor and capacitor the current will be at maximum. Outside the circuit the current through the LC tank circuit will be at minimum. It depends on where you are measuring it.
very low current
1.CE amplifier circuit 2.LC oscillator circuit
Because , ic can provide :- 1. very high gain 2. compact & less bulky circuit
The LC circuit, or tank circuit, is most commonly located in radios. Its function is to tune radio transmitters to a specific station. The LC circuit consists of an inductor (L), and a capacitor(C), hence the term, LC circuit.
The equation used to calculate the resonant frequency of an LC circuit is: f 1 / (2(LC)), where f is the resonant frequency, L is the inductance of the circuit, and C is the capacitance of the circuit.
The differential equation governing the behavior of an LC circuit is: d2q/dt2 (1/LC)q 0.
LC means coil capacitance circuit RC means resistance capacitance circuit
a "LC circuit at resonance" and tuned circuits are the same
Inside the circuit loop between the inductor and capacitor the current will be at maximum. Outside the circuit the current through the LC tank circuit will be at minimum. It depends on where you are measuring it.
T=sqrtLC
Self-tuning feedback
very low current
1.CE amplifier circuit 2.LC oscillator circuit
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The current in an LC circuit is significant because it creates oscillations between the inductor and capacitor, leading to the circuit's resonant frequency. This current affects the overall behavior by determining the rate at which energy is exchanged between the inductor and capacitor, influencing the amplitude and frequency of the oscillations in the circuit.