Two cells of same emf but different internal resistances I_{1} and I_{2} are connected in series with a resistance R. The value of resistance R,

Q: Two cells of same emf but different internal resistances $I_{1}$ and $I_{2}$ are connected in series with a resistance $R$. The value of resistance $R$, for which the potential difference across second cell is zero, is

a $I=\frac{2 E }{R+I_{1}+I_{2}} \ldots \ldots( i )$ But $V _{ A }- V _{ B }= E - I _{2}=0$ $\Rightarrow I =\frac{ E }{ I _{2}} \quad \ldots \text { $(ii)$}$ Comparing values of $I$ from $(i)$ and $(ii)$ $\frac{E}{r_{2}}=\frac{2 E}{R+r_{1}+r_{2}}$ $\Rightarrow R=r_{2}-r_{1}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

Two cells of same emf but different internal resistances $I_{1}$ and $I_{2}$ are connected in series with a resistance $R$. The value of resistance $R$, for which the potential difference across second cell is zero, is

A$r _{2}- r _{1}$
B$r_{1}-r_{2}$
C$r _{1}$
D$r _{2}$

JEE MAIN 2022, Medium

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

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