A 4 mu F capacitor, a resistance of 2.5 ,MWOmega is in series with 12, V battery. Find the time after which the potential difference

Q: A $4\ \mu F$ capacitor, a resistance of $2.5 \,MW$$\Omega$ is in series with $12\, V$ battery. Find the time after which the potential difference across the capacitor is $3$ times the potential difference across the resistor.......$s$ [Given $ln(2)= 0.693$]

a (a) ${V_R} = \frac{{{V_0}}}{4}$ $=$ ${V_0}{e^{ - \frac{t}{{RC}}}}$ $==>$ $\frac{1}{4}$ $=$ ${e^{ - \frac{t}{{10}}}}$ $==>$ $4 = {e^{\frac{t}{{10}}}}$ $==>$ ${\log _e}4 = \frac{t}{{10}}$ $==>$ $t = 10\log 4 = 13.86 \,s$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A $4\ \mu F$ capacitor, a resistance of $2.5 \,MW$$\Omega$ is in series with $12\, V$ battery. Find the time after which the potential difference across the capacitor is $3$ times the potential difference across the resistor.......$s$ [Given $ln(2)= 0.693$]

A$13.86 $
B$6.93$
C$7 $
D$14$

IIT 2005, Diffcult

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

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