A moving coil galvanometer can be converted into an ammeter by

State how a moving coil galvanometer can be converted into an ammeter.

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

A galvanometer can be converted into an ammeter by connecting

A moving coil galvanometer is converted into an ammeter reads upto 0.03 A by connecting a shunt of resistance 4r across it and ammeter reads up 0.06 A , when a shunt of resistance r is used. What is the maximum current which can be sent through this galvanometer if no shunt is used ?

A moving coil galvnometer is converted into an ammeter reading up to 0.03 A by connecting a shunt of resistance r/4 . What is the maximum current which can be sent through this galvanometer if no shunt is used (here r=resistance of galvanometer)

A moving coil galvanometer, having a resistance G , produces full scale deflection when a current I_(g) flows through it. This galvanometer can be converted into (i) an ammeter of range 0 to I_(0)(I_(0) gt I_(g)) by connecting a shunt resistance R_(A) to it and (ii) into a voltmeter of range 0 to V(V = GI_(0)) by connecting a series resistance R_(V) to it. Then,

STATEMENT-1 : Galvanometer can be converted into voltmeter by connecting a large shunt in its series. STATEMENT-2 : Galvanometer can be converted into an ammeter by connecting a small shunt in its parallel. STATEMENT-3 : Galvanometer cannot be converted into voltmeter or ammeter.

A galvanometer with a resistance of 75Omega produces a full scale deflection with a current of 5 mA. How can this galvanometer be converted into an ammeter which has a range of 0-5A?

A galvanometer with a resistance of 75Omega produces a full scale deflection with a current of 5 mA. How can this galvanometer be converted into an ammeter which has a range of 0-5A?

Two identical galvanometers are converted into an ammeter and a milliammeter. If the shunt, which has more resistance, the current passing through the coil will be