A capacitor of capacitance 250 pF is connected in parallel with a choke coil having inductance of `1.6 xx 10^(-2) H` and resistance `20 Omega`. Calculate
(a) the resonance frequency and
(b) the circuit impedance at resonance.

A condenser of 250 mu F is connected in parallel to a coil of inductance 0.16 mH while its effective resistance is 20 Omega . Determine the resonant frequency

An inductance of 2 H and resistance of 10 Omega are connected to a battery of 5 V. the time constant of the circuits is:

A circuit of negligible resistance has an inductane of 10 mH and a capacitance of 0.1 muF . The resonant frequency of the circuit is nearly

A capacitor of capacitance C is given charge Q and then connected in parallel to a coil of inductance L. There is no resitance in the circuit. When the charge on the capacitor becomes zero, the current in the coil will be

A 50Omega resistor is connected in series with an inductance of 450 mH and capacitance 9 muF . The resonant frequency is nearly

A capacitor of capacitance 100 muF and a coil of resistance 50 ohm and inductance 0.5 henry are connected in series with 110 volt and 50 Hz source . Calculate the impedance of the circuit.

An AC source of rms voltage 220 V and variable frequency is connected across a series combination of 5 H inductance 80 muF capacitance and 40 Omega resistance . Calculate frequency which can drive the circuit to resonance. What will be the impedance of the circuit for this frequency and peak current ?

A capacitor with capacitance C=1.0 muF and a coil with active resitance R=0.10 Omega and inductance L=1.0 m H are connected in parallel to a source of sinusoidal voltage V=31 V . Find : (a) the frequency omega at which the resonance sets in , (b) the effective value of the fed current in resonance , as well as the corresponding currents flowing through the coil and through the capacitor.

An oscillating circuit consist of a capacitor with capacitance C=4.0 mu F and a coil with inductance L=2.0 mu H and active resistance R=10 Omega . Find the ration of the energy of the coil's magnetic field to that of the capacitor's electric field at the moment when the current has the maximum value .