The frequency of output signal of LC oscillator circuit is 100 Hz with capacitance value `0.1muF` If value of capacitance is taken as `0.2muF` , the frequency of output signal ……..

In a common emitter amplifier, output resistance is 5000Omega and input resistance is 1000Omega . If peak value of signal voltage is 1mVand beta=100 , than the peak value of output voltage is.

In an AC circuit with capacitor only, if the frequency of the signal is zero, then the capacitive reactance is :

A parallel plate capacitor (figure) made of circular plates each of radius R = 6.0 cm has a capacitance C = 100 pF . The capacitor is connected to a 230 V ac supply with a (angular) frequency of 300 rad s^(-1) . a. What is the rms value of the conduction current ? b. Is the conduction current equal to the displacement current ? c. Determine the amplitude of B at a point 3.0 cm from the axis between the plates.

An inductor of inductance 100 mH is connected in series with a resistance, a variable capacitance and an AC source of frequency 2.0 kHz . What should be the value of the capacitance so that maximum current may be drawn into the circuit?

Two capacitor of capacitance 4.0muF and 6.0muF are connected in series with a battery of 20 V . Find the energy supplied by the battery .

Figure shows a series LCR circuit connected to a variable frequency 230 V source. L = 5.0 H, C = 80 muF, R= 40Omega a. Determine the source frequency which drives the circuit in resonance b. Obtain the impedance of the circuit and the amplitude of current at the resonating frequency. c. Determine the rms potential drops across the three elements of the circuit. Show that the potential drop across the LC combination is zero at the rasonating frequency .

The frequency of oscillations of a mass m suspended by spring is v_(1) . If the length of the spring is cut to one- third, the same mass oscillates with frequency v_(2) . Determine the value of (v_(2))/(v_(1)) .

A series LCR circuit with L = 0.12 H, C = 480 nF, R = 23Omega is connected to a 230 V variable frequency supply. a. What is the source frequency for which current amplitude is maximum? Obtain this maximum value. b. What is the source frequency for which average power absorbed by the circuit is maximum? Obtain the value of this maximum power. c. For which frequencies of the source is the power transferred to the circuit half the power at resonant frequency? What is the current amplitude at these frequencies? d. What is the Q-factor of the given circuit?