Two coils `X` and `Y` are linked such that emf `E` is induced in `Y` when the current in `X` is changing at the rate `I' (= dI//dt)`. If a current `I_(0)` is now made to flow through `Y`, the flux linked with `X` will be

The self-induced e.m.f in a 0.1H coil when the current in it is changing at the rate of 200 ampere//second is

An e.m.f of 40 mV is induced in a solenoid, when the current in it changes at the rate of 2 A//s . The self inductance of the solenoid is

An emf of 30 mV is induced in a coil when current through it is changed at the rate of 6 A // s . What is the self-inductance of the coil?

An e.m.f. of 12"volts" is produced in a coil when the current in it changes at the rate of 45 amp//minute . The inductance of the coil is

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.

Assertion An induced emf of 2 V is developed in a circular loop, if current in the loop is changed at a rate of 4 As^(-1) .IF 4 A of current is passed through this loop, then flux linked with this coil will be 2 Wb. Reason Flux linked with the coil is |phi|=|(e)/(di//dt)|i

An e.m.f. of 12 "volts" is induced in a given coil when the current in it changes at the rate of 48 amperes per minute. The self-inductance of the coil is

A current of 2.5 A flows through a coil of inductance 5 H. The magnetic flux linked with the coil is