The graph which represents the relation between the total resistance `R` of a multi range moving coil voltmeter and its full scale deflection

Of the following graphs , the one which shows the relationship between the resistance R of multirange moving coil ammeter and its range I is

Calculate the value of the of resistance needed to convert a moving-coil galvanometer of 60 Omega which gives a full scale deflection for a current of 50 mA into a voltmeter of range 0-50 V.

A galvanometer having a coil resistance 200 Omega gives a full scale deflection when a current of 1mA is passed through it. What is the value of the resistance which can convert this galvanometer into a voltmeter giving full scale deflection for a potential difference of 50 V?

A galvanometer having a coil resistance 100 Omega given full scale deflection when a current of 1mA is passed throught it . What is the value of the resistance which can convert this galvanometer into a voltmeter giving full scale deflection for a potential difference of 10 V ?

A galvanometer having a coil resistance 200 Omega gives a full scale deflection when a current of 1mA is passed through it. What is the value of the resistance which can convert this galvanometer into a voltmeter giving full scale deflection for a potential difference of 50 V?

A galvanometer having a coil resistance 100 Omega given full scale deflection when a current of 1mA is passed throught it . What is the value of the resistance which can convert this galvanometer into a voltmeter giving full scale deflection for a potential difference of 10 V ?

A galvanometer (coil resistance 99 Omega .) is converted into an ammeter using a shunt of 1 Omega and connected as shown in figure (a). The ammeter reads 3 A . The same galvanometer is convened into a voltmeter by connecting a resistance of 101 Omega in series. This voltmeter is connected at, shown in figure (b). Its reading is found to be 4/5 of the full scale reading. Find : (a) internal resistance r of the cell (b) range of the ammeter and voltmeter (c) full scale deflection current of the galvanometer.

A galvanometer (coil resistance 99 Omega .) is converted into an ammeter using a shunt of 1 Omega and connected as shown in figure (a). The ammeter reads 3 A . The same galvanometer is convened into a voltmeter by connecting a resistance of 101 Omega in series. This voltmeter is connected at, shown in figure (b). Its reading is found to be 4/5 of the full scale reading. Find : (a) internal resistance r of the cell (b) range of the ammeter and voltmeter (c) full scale deflection current of the galvanometer.

A galvanometer can be converted to a voltmeter of full -scale deflection V_(0) by connection a series resistance R_(1) and can be converted to an ammeter of full -scale deflection l_(0) by connection a shunt resistance R_(2) .What is the current flowing thought the galvanometer at its full -scale deflection ?

A voltmeter has an internal resistance of 1000Omega and gives full scale deflection when 2V is applied across the terminals. Now a resistance of 4000 Omega is connected in series with it. Then it gives full scale deflection with