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In a series RLC circuit, the phase difference between the current in the circuit and the voltage across the inductor is?
- a)0 degrees
- b)90 degrees
- c)180 degrees
- d)360 degrees
Correct answer is option 'B'. Can you explain this answer?
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Verified Answer
In a series RLC circuit, the phase difference between the current in t...
In a series RLC circuit, the phase difference between the voltage across the inductor and the current in the circuit is 90 degrees.
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In a series RLC circuit, the phase difference between the current in t...
Current though all components is same in an RLC series circuit. but voltage across each component will be different.
when considering current as reference
in R voltage and Current are in phase
in L Voltage leads the Current by 90
in C Voltage lags the current by 90
when considering current as reference
in R voltage and Current are in phase
in L Voltage leads the Current by 90
in C Voltage lags the current by 90
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In a series RLC circuit, the phase difference between the current in t...
Phase Difference in a Series RLC Circuit
Phase difference refers to the time delay between the current and voltage waveforms in a circuit. In a series RLC circuit, the phase difference between the current in the circuit and the voltage across the inductor can be determined by analyzing the behavior of the components in the circuit.
Explanation:
- In a series RLC circuit, the components include a resistor (R), inductor (L), and capacitor (C) connected in series.
- The phase difference between the current and voltage across the inductor is 90 degrees.
- This 90-degree phase difference occurs because in an inductor, the current lags behind the voltage by 90 degrees.
- This lagging of current behind voltage in an inductor is due to the property of inductance, which causes the current to increase gradually when voltage is applied.
- The inductor in the series RLC circuit causes the current to lag behind the voltage, resulting in a phase difference of 90 degrees.
Therefore, in a series RLC circuit, the phase difference between the current in the circuit and the voltage across the inductor is 90 degrees, as the current lags behind the voltage due to the inductive nature of the component.
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In a series RLC circuit, the phase difference between the current in the circuit and the voltage across the inductoris?a)0 degreesb)90 degreesc)180 degreesd)360 degreesCorrect answer is option 'B'. Can you explain this answer?
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