A voltmeter of range 5V is to be converted into an ammeter of range 10 mA. If the resistance of voltmeter is `1 k Omega`, then the resistance which should be connected in parallel with it is

A voltmeter of range 3V and resistance 200 Omega cannot be converted to an ammeter of range :

A galvanometer of resistance 200 ohm gives a full scale deflection for a current of 10^-3 ampere. To convert it into an ammeter capable of measuring upto one ampere, the resistance which should be connected in parallel with it is

A milliammeter of range 10 mA has a coil of resistance 1Omega . To use it as a voltmeter of range 10V, the resistance that must be connected in series with it is

Three resistance of 10 Omega, 5 Omega, 2 Omega respectively are connected in parallel. New resistance will be :

A galvanometer may be converted into ammeter or a voltmeter. Resistance of the device so obtained will be the largest in the case of

A voltmeter has resistance R_0 and range V . The resistance which should be connected in series with it to increase its range to nV is

The voltmeter connected in the circuit shows a reading of 5 V. Resistance of the voltmeter (in Omega ) is

The maximum current that can be measured by a galvanometer of resistance 40 is 10 mA. It is converted into a voltmeter that can read upto 50 V. The resistance to be connected in series with the galvanometer is ........ (in ohm)

A wire has a resistance of 6 Omega . It is cut into two parts and both half values are connected in parallel. The new resistance is