Two resistances R_1, and R_2, each of `100` Omega `22` Omega are connected with potential source of `40` V between A and B. If resistance of voltmeter is `200` Omega, then reading of voltmeter is

Given that the resistance the voltmeter is 200 Omega. Find the voltmeter.s reading.

Resistance of 100 Omega and 200 Omega are connected in series with 220 V mains. When a voltmeter of 1000 Omega resistance is connected in parallel to 100 Omega , then the reading of voltmeter is

Resistance R_1 and R_2 , each 60 Omega , are connected in series. The Potential difference between points A and B is 120 V . Find the reading of voltmeter connected resistance r=120Omega

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

Two resistances R_(1) = 100 +- 3 Omega and R_(2) = 200 +- 4 Omega are connected in series . Find the equivalent resistance of the series combination.

Two resistances R_(1) = 100 +- 3 Omega and R_(2) = 200 +- 4 Omega are connected in series . Find the equivalent resistance of the series combination.

Two resistance of 400 Omega and 800 Omega are connected in series with 6 volt battery of negligible internal resistance. A voltmeter of resistance 10,000 Omega is used to measure the potential difference across 400 Omega . The error in measurement of potential difference in volts approximatley is

In the given circuit, the voltmeter records 5 V. The resistance of the voltmeter in Omega is

In the given circuit, the voltmeter records 5 volt. The resistance of the voltmeter in Omega is

in the circuit shown in the figure, each battery is of 5 V and has an internal resistance of 0.2 Omega What is the reading of the ideal voltmeter V