A solenoid of resistance R and inductance L has a piece of soft iron inside it. A battery of emf E and of negligible internal resistance is connected across the solenoid as shown in Fig. At any instant, the piece of soft iron is pulled out suddenly so that inductance of the solenoid decrease to `etaL(eta lt 1)` with battery remaining connected.

Assume t = 0 is the instant when iron piece has been pulled out, the current as a function of time after this is

A battery of emf 2V and internal resistance 0.5(Omega) is connected across a resistance in 1 second?

A battery of emf E and internal resistance r is connected to a variable resistor R as shown in figure. Which one of the following is true ?

A battery of emf E and of negligible internal resistance is connected in a L-R circuit as shown in figure. The inductor has a piece of soft iron inside it. When steady state is reached in the piece of soft iron is abruptly pulled out suddenly so that the inductance of the inductor decreases to nL with nlt1 with battery remaining connected. Calculate. a. Current as a function of time assuming t=0 at the instant when piece is pulled. b. the work done to pull out the piece. c. thermal power generated in the circuit as as function of time. d. power supplied by the battery as a function of time. HOW TO PROCEED When the inductance of an inductor is abruptly changed, the flux passing through it remains constant. phi = constant :. Li = constant (L = (phi)/(i))

A coil resistance R and inductance L is connected to a battery of emf E volt. The final current in the coil is

A coil is connected to a battery of 12 V emf and negligible resistance. The current in the solenoid grows to 63% of its final steady state value in 0.3 s . If the final steady state current is 0.6A , the inductance of the solenoid is

A 5 V battery of negligible internal resistance is connected across a 200 V battery and a resistance of 39 Omega as shown in the figure. Find the value of the current.

A solenoid of inductance L with resistance r is connected in parallel to a resistance R . A battery of emf E and of negligible internal resistance is connected across the parallel combination as shown in the figure. At time t = 0 , switch S is opened, calculate (a) current through the solenoid after the switch is opened. (b) amount of heat generated in the solenoid.