A charged capacitor is allowed to discharge through a resistance 2,Omega by closing the switch S at the instant t = 0. At time t

Q: A charged capacitor is allowed to discharge through a resistance $2\,\Omega $ by closing the switch $S $ at the instant $t = 0$. At time $t = ln$ $2$ $\mu s$, the reading of the ammeter falls half of its initial value. The resistance of the ammeter equal to

a $q=q_{0} \cdot e^{-t / \tau} \quad$ where $\tau=(2+r) 0.5 \mu F$ $\Rightarrow \frac{\mathrm{dq}}{\mathrm{dt}}=\frac{\mathrm{q}_{0}}{\mathrm{z}} \cdot \mathrm{e}^{-\mathrm{t} / \tau}$ $\mathrm{e}^{-\mathrm{t} / \tau}=1 / 2 \Rightarrow \ln 2=\mathrm{t} / \tau \Rightarrow \frac{\ln 2 \times \mu \mathrm{s}}{\mathrm{z}}=\ln 2$ $\Rightarrow \tau=1 u s=(2+r) \times 1 / 2 \Rightarrow r=0$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A charged capacitor is allowed to discharge through a resistance $2\,\Omega $ by closing the switch $S $ at the instant $t = 0$. At time $t = ln$ $2$ $\mu s$, the reading of the ammeter falls half of its initial value. The resistance of the ammeter equal to

A$0$
B$2$ $\Omega$
C$\infty$
D$2 $ $M\Omega$

Diffcult

STD 11 Science
NEET
STD 12 - 2. Electric potential and capacitance
Physics

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