An emf of `15 V` is applied in a circuit containing `5 H` inductance and `10 Omega` resistance. The ratio of the currents at time `t = oo` and `t = 1 s` is

An emf of 15 V is applied in a circuit containing 5 H indutance and 10 Omega resistance. The ratio of the currents at time t = oo and t = 1 s is

An e.m.f. of 15 volt is applied in a circuit containing 5 henry inductance and 10 ohm resistance. The ratio of the current at time t=oo and at t=1 second is

[" An emf of "20V" is applied at "],[" time "t=0" to a circuit "],[" containing in series "10mH],[" inductor and "5Omega" resistor.The "],[" ratio of the currents at time "],[t=oo" and at "t=40s" is close to: "]

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

In a circuit containing an inductance of zero resistances, the e.m.f of the applied AC voltage leads the current by

An alternating emf of 200 V, 50 Hz is applied a circuit containing a resistance of 100 Omega and inductance of 0.1 H in series. The powerr dissipated in the circuit is

An alternating e.m.f. given by e=200 sin 50 t is applied to a circuit containing only a resistance of 50 Omega . What is the value of r.m.s. current in the circuit?

In a LR circuit of 3 mH dinductance and 4 Omega resistance, emf E=4cos 1000t volt is applied. The amplitude of current is

A 50 Hz AC signal is applied in a circuit of inductance of (1//pi) H and resistance 2100Omega. The impedance offered by the circuit is

An 220V AC voltage at a frequency of 40 cycles/s is applied to a circuit containing a pure inductance of 0.01H and a pure resistance of 6 Omega in series. Calculate (a) The current supplied by source (b) The potential difference across the resistance (c ) The potential difference across the inductance (d) The time lag between maxima of current and EMF in circuit