The time taken by the current to rise to 0.63 of its maximum value in a DC circuit containing inductance (L) and resistance ® depends on

Why the current does not rise immediately in a circuit containing inductance

The time required for a current to attain the maximum value in a d.c circuit containing L and R depends upon :

The average power dissipated in A.C. circuit containing resistance, inductance and capacitance depends upon

The time taken for the magnetic energy to reach 25% of its maximum value, when a solenoid of resistance R, inductance L is connected to a battery, is :

In a simple A.C. circuit containing resistance, the current

In a pure inductive circuit or In an ac circuit containing inductance only, the current

A given alternating current has an rms value of 5.6 ampere. If this current flows in a circuit containing 10 Omega of resistance in series with 20 Omega of inductive reactance, the power consumed in the circuit will be

Find the time after which current in the circuit becomes 80% of its maximum value

An alternating e.m.f. E=10sqrt(2) sin omega volt is applied to a circuit containing a pure inductance L and a resistance and voltage acros the resistance is 6 v between the current and potential difference in this circuit is

The time taken by an alternating current i=i_(0)sin(314t) in reaching from zero to its maximum value will be