The time constant of an $L - R$ circuit is

L R

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\frac{L}{R}

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\frac{R}{L}

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\frac{L^{2}}{R}

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Solution

The correct option is D $\frac{L}{R}$
By definition, potential difference across inductor $= Δ V = L \frac{d I}{d t}$

Hence in a $L - R$ circuit applying Kirchoff's Voltage Law,

Net potential drop across the circuit $= V - I R - L \frac{d I}{d t} = 0$

Integrating the above expression we get, $I = \frac{V}{R} ⎛ ⎜ ⎝ 1 - e^{\frac{- R t}{L}} ⎞ ⎟ ⎠$

Hence time constant $= \frac{L}{R}$ .

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