An inductor 20 mH, a capacitor 100 `mu`F and a resistor 50`Omega` are connected in series across a source of emf, V = 10 sin 314t. The power loss in the circuit is

An inductor 20mH, a capacitor 100muF and a resistor 50Omega are connected in series across a source of emf V=10sin314t. The power loss in the circuit is

An inductor 20mH, a capacitor 50muF and a resistor 40Omega are connected in series across a source of emf V=10sin340t. The power loss in ac circuit is

A 25muF capacitor, a 0.10 henry inductor and a 25.0Omega resistor are connected in series with an ac source whose emf is given by E=310sin314t.Calculate (a) the reactance of the circuit,(b) the impedance of the circuit and ( c) current in the circuit.

A 25muF capacitor, a 0.10 henry inductor and a 25.0Omega resistor are connected in series with an ac source whose emf is given by E=310sin314t. what is the frequency of the emf?

Find out the inductance of an inductor which should be connected in series with a capacitor of 5muF ,a resistance of 10Omega and an ac source of 50 Hz so that the power factor of the circuit is 1.

Three capacitors, 3muF,6muF" and 6muF are connected in series to a source of 120V. The potential difference, in volts, across the 3muF capacitor will be

A series combination of an inductor of self-inductance L, capacitor of capacitance C and resistor R is connected to an alternating voltage source of V=V_0sinomegat . The current through the circuit is I=I_0sin(omegat-theta) ,where I_0=V_0/(sqrt(R^2+(omega-1/(omegaC))^2)) and theta=tan^-1 ""1/R(omegaL-1/(omegaC)) . Now that, the frequency of both voltage and current is f=omega/(2pi) . The rms value of these parameters during one complete cycles are V_(rms)=V_0/sqrt2 and I_(rms)=I_0/sqrt2 respectively. These values are shown in alternating voltmeter and ammeter. The power consumed by the circuit P=VI. The mean value i.e., the effective power of the circuit in a complete cycle is overlineP=V_(rms)I_(rms)costheta . This costheta is termed the power factor. the power factor of the circuit is question (i) is

A series combination of an inductor of self-inductance L, capacitor of capacitance C and resistor R is connected to an alternating voltage source of V=V_0sinomegat . The current through the circuit is I=I_0sin(omegat-theta) ,where I_0=V_0/(sqrt(R^2+(omega-1/(omegaC))^2)) and theta=tan^-1 ""1/R(omegaL-1/(omegaC)) . Now that, the frequency of both voltage and current is f=omega/(2pi) . The rms value of these parameters during one complete cycles are V_(rms)=V_0/sqrt2 and I_(rms)=I_0/sqrt2 respectively. These values are shown in alternating voltmeter and ammeter. The power consumed by the circuit P=VI. The mean value i.e., the effective power of the circuit in a complete cycle is overlineP=V_(rms)I_(rms)costheta . This costheta is termed the power factor. The power factor of the circuit in question (iii) is

A resistance of 400Omega and a capacitance of reactance 200Omega are connected in series to a 220V, 50Hz a.c source. If the current in the circuitsis 0-49A. Find voltage across resistor and capacitor

Three capacitors of capacitance 1.0muF,2.0muF" and "5.0muF are connected in series to a 10V source. The potential difference across the 2.0muF capacitor is