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JEE Advance - Physics (2018 - Paper 1 Offline - No. 8)

In the figure below, the switches $${S_1}$$ and $${S_2}$$ are closed simultaneously at $$t=0$$ and a current starts to flow in the circuit. Both the batteries have the same magnitude of the electromotive force (emf) and the polarities are as indicated in the figure. Ignore mutual inductance between the inductors. The current $$I$$ in the middle wire reaches its maximum magnitude $${I_{\max }}$$ at time $$t = \tau $$ . Which of the following statements is (are) true?

JEE Advanced 2018 Paper 1 Offline Physics - Electromagnetic Induction Question 16 English
$${I_{\max }} = {V \over {2R}}$$
$${I_{max}} = {V \over {4R}}$$
$$\tau = {L \over R}\ln 2$$
$$\tau = {{2L} \over R}\ln 2$$

Uitleg

$${I_1} = {V \over R}\left( {1 - {e^{ - {{tR} \over L}}}} \right)$$

JEE Advanced 2018 Paper 1 Offline Physics - Electromagnetic Induction Question 16 English Explanation

$${I_2} = {V \over R}\left( {1 - {e^{ - {{tR} \over {2L}}}}} \right)$$

From principle of superposition,

$$I = {I_1} - {I_2} \Rightarrow I = {V \over R}{e^{ - {{tR} \over {2L}}}}\left( {1 - {e^{ - {{tR} \over {2L}}}}} \right)$$ ...... (i)

I is maximum when $${{dI} \over {dt}} = 0$$, which gives

$${e^{ - {{tR} \over {2L}}}} = {1 \over 2}$$ or $$t = {{2L} \over R}\ln 2$$

Substituting this time in Eq. (i), we get

$${I_{\max }} = {V \over {4R}}$$

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