The time constant of an inductance coil is `2 xx 10^(-3) s`. When a `90 Omega` resistance is joined in series, the same constant becomes `0.5 xx 10^(-3) s`. The inductance and resistance of the coil are

The time constant of a circuit is 10 sec , when a resistance of 10 Omega is connected in series in a prevouse circuit then time constant becomes 2 second, then the self inductance of the circuit is :-

A coil of some internal resistance 'r' behaves line an inductance. When it is connected in series with a resistance R_(1) , the time constant is found to be tau_(1) . When it is connected in series with a resistance R_(2) , the time constant is found to be tau_(2) . The inductance of the coil is

An inductance of 2 H and resistance of 10 Omega are connected to a battery of 5 V. the time constant of the circuits is:

What resistance must be connected in series with an inductor of 5mH so that the circuit has a time constant of 2 xx 10^(-3)S ?

Two inductance coils made of difference metal wires are haivng the same inductance. But their tume constants are in ratio 1:2 . Then the ratio of their resistances is

An inductive coil has a resistance of 100 Omega . When an AC signal of frequency 1000 Hz is applied to the coil, the voltage leads the current by 45^(@) . What is the inductance of the coil?

A coil has an inductance of 1.5 xx 10^(-2) H . Calculate the emf induced, when current in the coil changes at the rate 200 A/s.

The self-inductance of a coil is 2H. The current in the coil changes from 8A to 2.95 A in 0.01 s. The time constant of the coil will be -

An L-R circuit consists of an inductance of 8mH and a resistance of 4 Omega . The time constant of the circuit is :-