The inductor in a `L-C` oscillation has a maximum potential difference of `16V` and maximum energy of `640 mu J`. Find the value of capacitor in `muF` in `L-C` circuit.

A capacitor in an LC oscillator has a maximum potential difference of 17V and a maximum energy of 160 mu J .When the capacitor has a potential difference of 5V and an energy of 10 mu J , what is the energy stored in the magnetic field?

A capacitor in LC oscillatory circuit has a maximum potential of V volts and maximum energy E. When the capacitor has a potential V_(1) volts and energy E_(1) joules, what is the emf across the inductor and energy stered in the magnetic field

A 1.5 mH inductor in an LC circuit stores a maximum energy of 30 mu J . What is the maximum current in the circuit ?

A 1.5 mH inductor in LC circuit stores a maximum energy of 17 mu J. What is the peak current ?

In the given circuit , the potential difference between A and B is 18 V and charge on 2 mu F capacitor is 24 mu C . The value of C is

A capacitor of capacitance 25muF is charged to 300V . It is then connected across a 10mH inductor. The resistance in the circuit is negligible. a. Find the frequency of oscillation of the circuit. b. Find the potential difference across capacitor and magnitude of circuit current 1.2ms after the inductor and capacitor are connected. c. Find the magnetic energy and electric energy at t=0 and t=1.2ms .

Initially, the capacitor is charged to a potential of 5 V and then connected to position 1 with the shown polarity for 1 s . After 1s it is connected across the inductor at position 2 (a) Find the potential across the capacitor after 1 s of its connection to position 1. (b) Find the maximum current flowing in the L- C circuit when capacitor is connected across the inductor. Also, find the frequency of LC oscillations.