A maximum current of `0.5mA` can be passed through a galvanometer of resistance `10Omega` .Calculate the resistance to be connected in series with the galvanometer to convert it into a voltmeter of range `0 to 5V`

A maximum current of 0.5 mA can be passed through a galvanometer of resistance 20Omega . Calculate the resistance to be connected in series to convert it into a voltmeter of range (0- 5)V .

When a current of 5mA is passed through a galvanometer having a coil of resistance 15Omega , it shows full sacle deflection. The value of the resistance to be put in series with the galvanometer to convert it into a voltmeter of range 0-10V is:

100mA current gives a full scale deflection in a galvanometer of 2Omega resistance. The resistance connected with the galvanometer to convert it into a voltmeter to measure 5V 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

In a ammeter 0.2% of main current passes through the galvanometer. If resistance of galvanometer is G , the resistance of ammeter will be

A galvanometer has coil of resistance 50Omega and shows full deflection at 100muA . The resistance to be added for the galvanometer to work as an ammeter of range 10mA is nearly

A moving coil galvanometer can be converted into a voltmeter by connecting :

A galvanometer of resistance 100Omega gives full deffection for a current 10^(-5) the value of shunt required to convert it into ammeter of range 1 ampere is:-

In full scale deflection current in galvanometer of 100 ohm resistance is 1 mA. Resistance required in series to convert it into voltmeter of range 10 V.

A galvanometer coil has a resistance of 12Omega and the meter shows full scale deflection for a current of 3mA . How will you convert the meter into a voltmeter of range 0 to 18V?