A `200V` ac source is applied in a LCR series circuit which consists of an inductive reactance of `50Omega` a capacitive reactance of `50Omega` and the resistance of `10 Omega` The potential difference across the resistance is .

In an experiment, 200V AC is applied at the end of an LCR circuit. The circuit consists of an inductive reactance (X_(L)) = 50Omega , capacitive reactance (X_(c)L=50Omega , and capacitives resistance (R ) = 10Omega , The impendance of the circuit is

In an experiment, 200V AC is applied at the end of an LCR circuit. The circuit consists of an inductive reactance (X_(L)) = 50Omega , capacitive reactance (X_(c))=50Omega , and capacitives resistance (R ) = 10Omega , The impendance of the circuit is

200V A.C. is applied at the ends of an LCR circuit. The circuit consists of an inductive reactance X_(L) = 50Omega capacitive reactance X_(c) = 50 Ω and ohmic resistance R = 10 Ω . Calculate the impedance of the circuit and also potential differences across L and R What will be the potential difference across L-C

200V A.C. is applied at the ends of an LCR circuit. The circuit consists of an inductive reactance X_(L) = 50Omega capacitive reactance X_(c) = 50 Ω and ohmic resistance R = 10 Ω . Calculate the impedance of the circuit and also potential differences across L and R What will be the potential difference across L-C

In a seris LCR circuit, the inductive reactance (X_(L)) is 10 Omega and the capacitive reactance (X_(C)) is 4 Omega . The resistance (R) in the circuit is 6 Omega. The power factor of the circuit is :

An L-C-R series circuit with inductor of reactance is 25 Omega , reactance of capacitor is 50 Omega and resistance of 10 Omega is connected to an A.C. source. The impedance of the circuit will be …….

In an LCR circuit, inductive reactance and capacitive reactance was found to be equal. The resistance was found to be 20Omega . The probable impedance of the combination is

In AC series circuit, the resistace , inductive reactance and capacitive are 3Omega , 10Omega and 14Omega respectively. The impedance of the circuit is

A series circuit connected across a 200 V, 60 Hz line consists of a capacitive reactance 30 Omega non inductive resistor of 44 Omega and a coil of inductive reactance 90 Omega and resistance 36 Omega as shown in the diagram The potentail difference across the coil is

An a.c. circuit contains a resistance of 3 Omega and inductive reactance of 4Omega . The cosine of the phase angle between the current and potential difference in this circuit is