357405 In the part of a circuit shown in the figure, the potential difference \(\left(V_{G}-V_{H}\right)\) between points \(G\) and \(H\) will be:

357406 In the circuit shown, the current through 8 \(ohm\) is same before and after connecting \(E\). The value of \(E\) is

357407 A \(d.c\) main supply of e.m.f. 220 \(V\) is connected across a storage battery of e.m.f. 200 \(V\) through a resistance of \(1\Omega \). The battery terminals are connected to an external resistance \(‘R’\). The minimum value of \(‘R’\), so that a current passes through the battery to charge it is :-

357408 Figure shows a network of eight resistors, each equal to \(2\Omega \) , connected to a 3 \(V\) battery of negligible internal resistance. The current \(I\) in the circuit is

357405 In the part of a circuit shown in the figure, the potential difference \(\left(V_{G}-V_{H}\right)\) between points \(G\) and \(H\) will be:

357406 In the circuit shown, the current through 8 \(ohm\) is same before and after connecting \(E\). The value of \(E\) is

357407 A \(d.c\) main supply of e.m.f. 220 \(V\) is connected across a storage battery of e.m.f. 200 \(V\) through a resistance of \(1\Omega \). The battery terminals are connected to an external resistance \(‘R’\). The minimum value of \(‘R’\), so that a current passes through the battery to charge it is :-

357408 Figure shows a network of eight resistors, each equal to \(2\Omega \) , connected to a 3 \(V\) battery of negligible internal resistance. The current \(I\) in the circuit is

357405 In the part of a circuit shown in the figure, the potential difference \(\left(V_{G}-V_{H}\right)\) between points \(G\) and \(H\) will be:

357406 In the circuit shown, the current through 8 \(ohm\) is same before and after connecting \(E\). The value of \(E\) is

357407 A \(d.c\) main supply of e.m.f. 220 \(V\) is connected across a storage battery of e.m.f. 200 \(V\) through a resistance of \(1\Omega \). The battery terminals are connected to an external resistance \(‘R’\). The minimum value of \(‘R’\), so that a current passes through the battery to charge it is :-

357408 Figure shows a network of eight resistors, each equal to \(2\Omega \) , connected to a 3 \(V\) battery of negligible internal resistance. The current \(I\) in the circuit is

357405 In the part of a circuit shown in the figure, the potential difference \(\left(V_{G}-V_{H}\right)\) between points \(G\) and \(H\) will be:

357406 In the circuit shown, the current through 8 \(ohm\) is same before and after connecting \(E\). The value of \(E\) is

357407 A \(d.c\) main supply of e.m.f. 220 \(V\) is connected across a storage battery of e.m.f. 200 \(V\) through a resistance of \(1\Omega \). The battery terminals are connected to an external resistance \(‘R’\). The minimum value of \(‘R’\), so that a current passes through the battery to charge it is :-

357408 Figure shows a network of eight resistors, each equal to \(2\Omega \) , connected to a 3 \(V\) battery of negligible internal resistance. The current \(I\) in the circuit is