A solenoid of inductance L with resistan...

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.

Current in the inductor just after removing the battery is `(E(r + R))/(rR)`

Total enery dissipated in the solenoid and the reistor long time after removing the battery is `(1)/(2) L(E^(2)(R + r)^(2))/(r^(2)R^(2))`

The amount of heat generated in the solenoid due to removing the battery is `(E^(2)L)/(2r(r + R))`

The amount of heat generated in the solenoid due to removing the battery is `(E^(2)L)/(2R(r + R))`

Text Solution

Verified by Experts

The correct Answer is:

Applying `KVL` in outer loop, we get `I_(0)r - E = 0`
`rArr I_(0) = (E)/(r )`
`:.` Initial energy in solenoid `= U_(0) = (1)/(2) LI^(2)underset0()= (E^(2)L)/(2r^(2))*` This
energy will be dissipared in the from of heat in `r` and `R` after opening of the switch. Since the same current flows through these resistances, therefore heat generated in each resistor is directly proprtional to its resistance.
`:.` Heat generated in solenoid
`= (r )/(r + R) U_(0)`
`= [(r)/(r + R)](E^(2) L)/(2r^(2)) = (E^(2)L)/(2r (r + R))`

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