In the circuit shown, the cell is ideal, with emf = 15 V. Each resistance is of 3 Omega . The potential difference across the

Q: In the circuit shown, the cell is ideal, with $emf$ $=$ $15$ $V$. Each resistance is of $3 $ $\Omega$ . The potential difference across the capacitor is.....$V$

c As a fully charged capacitor draws no current so no current flow through resistor on right The current flow through remaining resistors as shown in figure. Applying Kirchhoff's law For loop $ABEFGA:$ $R i_{1}+R\left(i_{1}+i_{2}\right)=15$ $\Longrightarrow 2 i_{1}+i_{2}=\frac{15}{R}=\frac{15}{3}=5 \ldots .(1)$ For loop $ABCDEFGA:$ $R i_{2}+R i_{2}+R\left(i_{1}+i_{2}\right)=15$ $\Longrightarrow i_{1}+3 i_{2}=\frac{15}{R}=\frac{15}{3}=5 \ldots . .(2)$ From $(1)$ and $( 2 ):$ $i_{1}+3\left(5-2 i_{1}\right)=5$ $\Rightarrow 5 i_{1}=10$ $\Rightarrow i_{1}=2 A$ Putting, $i_{1}=2$ in $(1)$ $\Rightarrow i_{2}=5-2(2)=1 A$ Thus, Potential across capacitor is: $V_{c}=R i_{2}+R\left(i_{1}+i_{2}\right)=(3 \times 1)+3(2+1)=3+$ $9=12 V$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

In the circuit shown, the cell is ideal, with $emf$ $=$ $15$ $V$. Each resistance is of $3 $ $\Omega$ . The potential difference across the capacitor is.....$V$

A$0$
B$9$
C$12$
D$15$

Advanced

STD 11 Science
NEET
STD 12 - 3. current electricity
Physics

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