The phase difference between the current and voltage of LCR circuit in series combination at resonance is
- 0
- π
- π/2
- -π
The Correct Option is A
Solution and Explanation
To determine the phase difference between current and voltage in a series LCR circuit at resonance, we need to analyze the circuit's behavior at the resonant frequency.
1. Understanding Series LCR Circuit at Resonance:
In a series LCR circuit:
- Inductor (L) causes voltage to lead current by π/2
- Capacitor (C) causes voltage to lag current by π/2
- Resistor (R) has current and voltage in phase (0 phase difference)
2. At Resonant Frequency:
The inductive reactance (XL) and capacitive reactance (XC) become equal:
XL = XC
This causes their effects to cancel each other out.
3. Resulting Phase Relationship:
Since:
- The phase lead by L (+π/2)
- The phase lag by C (-π/2)
- Sum to zero phase shift (π/2 - π/2 = 0)
Only the resistive component remains, which has 0 phase difference.
4. Mathematical Representation:
The phase angle (φ) is given by:
tanφ = (XL - XC)/R
At resonance, XL = XC, so:
tanφ = 0 → φ = 0
5. Physical Interpretation:
This means the current and voltage waveforms are perfectly aligned (in phase) at resonance, reaching their peaks and zero crossings simultaneously.
Final Answer:
The phase difference between current and voltage in a series LCR circuit at resonance is 0.
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Concepts Used:
Alternating Current
An alternating current can be defined as a current that changes its magnitude and polarity at regular intervals of time. It can also be defined as an electrical current that repeatedly changes or reverses its direction opposite to that of Direct Current or DC which always flows in a single direction as shown below.
Alternating Current Production
Alternating current can be produced or generated by using devices that are known as alternators. However, alternating current can also be produced by different methods where many circuits are used. One of the most common or simple ways of generating AC is by using a basic single coil AC generator which consists of two-pole magnets and a single loop of wire having a rectangular shape.
Application of Alternating Current
AC is the form of current that are mostly used in different appliances. Some of the examples of alternating current include audio signal, radio signal, etc. An alternating current has a wide advantage over DC as AC is able to transmit power over large distances without great loss of energy.