The resistance of the meter bridge $AB$ in given figure is $4\,\Omega $. With a cell of emf $\varepsilon \, = 0.5\,\,V$ and rheostat resistance $R_h = 2\,\Omega $ the null point is obtained at some point $J.$ When the cell is replaced by another one of emf $\varepsilon \, = {\varepsilon _2}$ the same null point $J$ is found for $R_h = 6\,\Omega .$ The $emf$ ${\varepsilon _2}$ is ................. $V$

Q: The resistance of the meter bridge $AB$ in given figure is $4\,\Omega $. With a cell of emf $\varepsilon \, = 0.5\,\,V$ and rheostat resistance $R_h = 2\,\Omega $ the null point is obtained at some point $J.$ When the cell is replaced by another one of emf $\varepsilon \, = {\varepsilon _2}$ the same null point $J$ is found for $R_h = 6\,\Omega .$ The $emf$ ${\varepsilon _2}$ is ................. $V$

b $0.5=\frac{6}{(2+\lambda L)} \lambda x$ ......$(1)$ $E_{2}=\frac{6}{(6+\lambda L)} \lambda x$ .......$(2)$ So dividing equation $( 1)$ and $( 2)$ $\frac{E_{2}}{0.5}=\frac{2+4}{6+4}=\frac{3}{5}$ $\Rightarrow \quad E_{2}=0.3$ $volt$

Question

A$0.4$
B$0.3$
C$0.6$
D$0.5$

JEE MAIN 2019, Diffcult

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