Home
Class 12
PHYSICS
An indcutor having self inductance L wit...

An indcutor having self inductance L with its coil resistance R is connected across a battery of emf `elipson`. When the circuit is in steady state t = 0, an iron rod is inserted into the inductor due to which its inductance becomes nL (ngt1).

After insertion of rod which of the following quantities will change with time?
(1) Potential difference across terminals A and B
(2) Inductance
(3) Rate of heat produced in coil

Promotional Banner

Similar Questions

Explore conceptually related problems

An indcutor having self inductance L with its coil resistance R is connected across a battery of emf elipson . When the circuit is in steady state t = 0, an iron rod is inserted into the inductor due to which its inductance becomes nL (ngt1). after insertion of rod, current in the circuit:

An indcutor having self inductance L with its coil resistance R is connected across a battery of emf elipson . When the circuit is in steady state t = 0, an iron rod is inserted into the inductor due to which its inductance becomes nL (ngt1). after insertion of rod, current in the circuit:

An indcutor having self inductance L with its coil resistance R is connected across a battery of emf elipson . When the circuit is in steady state t = 0, an iron rod is inserted into the inductor due to which its inductance becomes nL (ngt1). When again circuit is in steady state, the current in it is

An inductor having self inductance L with its coil resistance R is connected across a battery of emf epsilon . When the circuit is in steady state t = 0, an iron rod is inserted into the inductor due to which its inductance becomes nL (ngt1) . When again circuit is in steady state, the current in it is

An inductor of self-inductance L and resistor of resistance R are connected in series to a battery of emf E and negligible resistance.Calculate the maximum rate at which energy is stored in the inductor.

A coil having an inductance L and a resistance R is connected to a battery of emf epsilon . Find the time elapsed before, the magnetic field energy stored in the circuit reaches half its maximum value.

A resistive coil of self-inductance 2 H and resistance 5 Omega is connected across a battery of 50 V. How much energy will be stored in the inductor?

A coil having an inductance L and a resistance R is connected to a battery of emf E . Find the time taken for the magnetic energy stored in the circuit to change from one fourth of the steady-state value.

A coil having inductance and L and resistance R is connected to a battery of emf in at t = 0 . If t_(1) and t_(2) are time for 90% and 99% completion of current growth in the circuit, then (t_(1))/(t_(2)) will be-

A coil having inductance and L and resistance R is connected to a battery of emf in at t = 0 . If t_(1) and t_(2) are time for 90% and 99% completion of current growth in the circuit, then (t_(1))/(t_(2)) will be-