Consider a moving coil galvanometer G and two resistor `R_1 = 5000` ohm and `R_2 = 0.1` ohm.
To convert the galvanometer in to ammeter :

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

Consider two identical galvanometers and two identical resistors with resistance R . If the internal resistance of the galvanometers R_(c) lt R//2 , which of the following statement(s) about any one of the galvanometers is (are) true?

The following combination are concerned with experiments of the characterization and use of a moving coil galvanometer. The series combination of variab resistance R, one 100 Omega resistor and moving coil galvanometer is connected to a mobile phone charger having negligible internal resistance. The zero of the galvanometer lies the centre and the pointer can move 30 division full scale on either side depending on the directin of current. The reading of the galvanometer is 10 divisions and the voltages across the galvanometer and 100 Omega resistor are respectively 12mV and 16 mV. The series combination of the galvanometer with a resistnce of R is conneted across an ideal voltage supply of 12 V and this time the galvanometer shows full scale defiention of 30 divisions. The value of R is nearly

When a 12 Omega resistor is connected with a moving coil galvanometer, then its deflection reduces form 50 divisions to 10 divisions. The ressitance of the galvanometer is

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

The deflection in a moving coil galvanometer falls from 50 divisions to 10 divisions when a shunt of 12 ohm is applied. What is the resistance of the galvanometer?

Two identical moving coil galvanometers have 10Omega resistance and full scale deflection at 2muA current. One of them is converted into a voltmeter of 100mA full scale reading and the other into an Ammeter of 1mA full scale current using appropriate resisters. These are then used to measure the voltage and current in the Ohm’s law experiment with R=1000 Omega resistor by using an ideal cell. Which of the following statement(s) is(are) correct?

Current passing through galvanometer is 0.002A and resistance of galvanometer is R_(g)=50Omega find out shunt resistance to convert it into ammeter of range 0.5 A

In the circuit shown in figure, the current is to measured. What is the value of the current if the ammeter shown (i) is a galvanometer with a resistance R_G=60*00Omega . (ii) is a galvanometer described in (i) but converted to an ammeter by a shunt resistance r_s=0*02Omega , (iii) is an ideal ammeter with zero resistance?

The resisitance of a galvanometer is 50 Omega and it shows full scale diflection for current of 1 mA. . To convert it into a voltmeter to measure 1V and as well as 10 V ( refer circuit diagram ) the resistance R_(1) and R_(2) respecivtively