In the circuit shows in Fig. 6.74, the internal resistance of the cell is negligible. For the value of `R = 40//x Omega`, no current flows through the galvanometer. What is `x`?

In the circuit shown , the internal resistance of the cell is negligible . The steady stale current in the 2 Omega resistor is

In the circuit shown in fig. the cell has emf 10V and internal resistance 1 Omega

If internal resistance of cell is negligible, then current flowing through the circuit is

In the circuit shows in Fig. 6.63, the cell is ideal with emf 9 V . If the resistance of the coil of galvanometer is 1 Omega , then

In the circuit shown below, the internal resistance of the cell is negligible. The distance of the slider from the left-hand end of the slide wire is l. The graph shows the variation with l of the current I in the cell. Value of the resistance R is:

In the circuit shown in Fig., the cell is ideal with e.m.f = 2V. The resistance of the coil of the galvanometer G is 1Omega . Then

In a circuit shown in figure if the internal resistances of the sources are negligible then at what value of resistance R will the thermal power generated in it will be the maximum. What is the value of maximum power?

A galvanometer of resistance 20Omega is shunted by a 2Omega resistor. What part of the main current flows through the galvanometer ?

In the circuit, the current flowing through 10Omega resistance is

In the given circuit the internal resistance of the 18 V cell is negligible. If R_(1)=400 Omega and the reading of an ideal voltmeter across R_(4) is 5V, then the value of R_(2) will be :