Point a in the figure shown is maintained at potential of `300 V`. The reading of a voltmeter of a resistance `3 × 10^4 Omega`, when connected between point b and ground is

The range of voltmeter of resistance 300 Omega is 5 V. The resistance to be connected to convert it into an ammeter of range 5 A is

P,Q is a uniform wire of resistance 2000Omega and M is the md point of PQ. A voltmeter of resistance 1000Omega is connected between P and M. the reading of the voltmeter, when, the potential differences applied between PQ is 150volt will be

A potential of 400 V is applied at the point A . The value of resistance R_(1)=1000 Omega , R_(2)=2000Omega and R_(3)=1000Omega are connected between points A and G as shown in the figure. Point G is earthed. The measured potential difference by an ideal voltmeter connected across R_(2) is

The voltmeter shown in the figure reads 10V across 40 omega . The resistance of voltmeter is

Five equal resistances of 10Omega are connected between A and B as shown in figure. The resultant resistance

In the network shown in the figure, each of the resisance is equal to 2 Omega . The resistance between the point A and B is

In the circuit shown in figure points a, b and c are maintained at constant (but may be different) potentials. When a resistance is connected between a and b no current flows through it, when the same resistance is connected between b and c current flows from c to b. When only three resistance shown in figure are in the circuit

A potential difference of 22V is maintained across a 1200 Omega rheostat PR. The voltmeter has a resistance of 600 Omega and PQ is one fourth of distance from P to R. What is the reading ( in V ) of the voltmeter ?

In the circuit shown in figure points a, b and c are maintained at constant (but may be different) potentials. When a resistance is connected between a and b no current flows through it, when the same resistance is connected between b and c current flows from c to b. If V_(a) = V_(b) = 10 V and V_(c) = 30 V . Then value of V_(d) will be

Two cells e_(1) and e_(2) connected in opposition to each other as shown in figure. The cell of emf 9 V and internal resistance 3Omega the cell is of emf 7V and internal resistance 7Omega . The potential difference between the points A and B is