Two cells of emf E_{1} and E_{2} are joined i | vedclass

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(D) The two cells are connected in opposition,so the net electromotive force (emf) of the circuit is $E_{net} = E_{1} - E_{2}$.The total resistance of

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$ \frac{E_{1}-E_{2}}{r_{1}+r_{2}+R} 	imes R $

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(D) The two cells are connected in opposition,so the net electromotive force (emf) of the circuit is $E_{net} = E_{1} - E_{2}$.The total resistance of the circuit is the sum of the internal resistances and the external resistance,which is $R_{total} = r_{1} + r_{2} + R$.According to Ohm's law,the current $I$ flowing through the circuit is given by $I = \frac{E_{net}}{R_{total}} = \frac{E_{1} - E_{2}}{r_{1} + r_{2} + R}$.The terminal potential difference $V$ across the external resistance $R$ is given by $V = I 	imes R$.Substituting the value of $I$,we get $V = \frac{E_{1} - E_{2}}{r_{1} + r_{2} + R} 	imes R$.

Two cells of emf $E_{1}$ and $E_{2}$ are joined in opposition (such that $E_{1} > E_{2}$). If $r_{1}$ and $r_{2}$ are the internal resistances and $R$ is the external resistance,then the terminal potential difference across the external resistance $R$ is:

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