What is the value of shunt resistance required to convert a galvanometer of resistance `100 Omega` into an ammeter ofrange 1 A? Given : Full scale deflection of the galvanometer is 5 mA

What is the value of shunt resistance required to convert a galvanometer of resistance 100 Omega into an ammeter of range 1 A ? Given: Full scale deflection of the galvanometer is 5 mA.

A galvanometer having a coil resistance of 100 Omega gives a full scale deflection, when a current of 1 mA is passed through it. What is the value of the resistance, which can convert this galvanometer into a meter giving a full scale deflection for a current of 10A ?

With a resistance R connected in series with a galvanometer of resistance 100 Omega , it acts as a voltmeter of range 0-V. To double the range a resistance of 1000 Omega is to be connected in series with R. Then the value of R is ( Omega )

In the circuit the current is to be measured. What is the value of the current if the ammeter shown (a) is a galvanometer with a resistance R_G = 60.00 Omega , (b) is a galvanometer described in (a) but converted to an ammeter by a shunt resistance r_s= 0.02 Omega , (c ) is an ideal ammeter with zero resistance?

The resistance of a shunt which should be connected across a galvanometer of resistance 2100 Omega , so that only 5% of current passes through it is

The resistance of a shunt which should be connected across a galvanometer of resistance 2100 Omega , so that only 5% of current passes through it is

To send 10% of main current through a moving coil galvanometer of resistance 99 Omega the shunt required is

Four resistors of resistances 2Omega, 1Omega, 3Omega, 4Omega are arranged in a cyclic order to form a Wheatstone's network ABCD. The junctions B and D are connected to a galvanometer of resistance 2Omega . A current of 0.1 A enters the junction 'A'. Calculate the current in the galvanometer.