For which of the following reasons are LC oscillations not sustainable for long?
1. | Every inductor has some resistance. |
2. | The effect of resistance is to introduce a damping effect on the charge & current in the circuit and the oscillations finally die away. |
3. | Even if the resistance is zero, the total energy of the system is radiated away from the system in the form of electromagnetic radiation. |
4. | All of the above |
The natural frequency of the circuit shown in the figure is:
1.
2.
3.
4. None of these
A condenser of capacity C is charged to a potential difference of V1. The plates of the condenser are then connected to an ideal inductor of inductance L. The current through the inductor, when the potential difference across the condenser reduces to V2 is:
1.
2.
3.
4.
In LC oscillation, what is the current in the circuit when the total energy is stored in the form of magnetic energy?
(q0 is the maximum charge stored by the capacitor)
In an ideal parallel LC circuit, the capacitor is charged by connecting it to a dc source which is then disconnected. The current in the circuit will:
1. Become zero instantaneously.
2. Grow monotonically.
3. Decay monotonically.
4. Oscillate instantaneously.
An LC circuit contains an inductor (L=25 mH) and a capacitor (C=25 mF) with an initial charge of Q0. At what time will the circuit have an equal amount of electrical and magnetic energy?
4. All of these
What is the value of the power factor for a parallel LC circuit at a frequency less than the resonance frequency?
1. Zero
2. 1
3. > 1
4.< 1
In which of the following circuits can the power factor be zero?
1. LC circuit
2. LCR circuit
3. Purely resistive circuit
4. Both (1) & (2)