A voltmeter of variable ranges 3V, 15V, ...

A voltmeter of variable ranges 3V, 15V, 150 V is to designed by connecting resistances `R_(1), R_(2), R_(3)` in series with a galvanometer of resistance `G=20Omega`, as shown in the figure. The galvanometer gives full pass through its coil. Then, the resistances `R_(1), R_(2) and R_(3)` (in kilo ohms) should be, respectively

a.3, 12, 135

b..2.98, 12, 135

2.98, 14.98, 149.98

d.3.86, 12.55, 122.97

Text Solution

Verified by Experts

The correct Answer is:

Similar Questions

Explore conceptually related problems

In the situation shown, resistance R_(1),R_(2) and R_(3) are in the ratio 3:2:1 , then

An ammeter A, a voltmeter V and a resistance R are connected as shown in the figure. If the voltmeter reading is 1.6V and the ammeter reading is 0.4 A, then R is

A galvanometer of resistance 70 Omega , is converted to an ammeter by a shunt resistance r_(3) = 0.03 Omega . The value of its resistance will become

In the circuit, shown the galvanometer G of resistance 60Omega is shifted by a resistance r=0.02 Omega . The current through R is nearly 1A. The value of resistance R (in ohm) is nearly.

A voltmeter which can measure 2 V isconstructed by using a galvanometer of resistance 12 Omega and that produces maximum deflection for the current of 2mA. Then the resistance R is

The galvanometer shown in the figure reads 3A, while the ideal voltmeter reads 24 volt. The value of R = 7 Omega . The galvanometer resistance is :

When a resistance of 100 Omega is connected in series with a galvanometer of resistance R, then its range is V. To double its range, a resistance of 1000 Omega is connected in series. Find the value of R.

The galvanometer shown in figure has resistance 50 Omega and current required for full scale deflection is 1mA. Find the resistance R_(1),R_(2) and required to convert to convert it into ammeter having ranges as indicated.

Text Solution

Similar Questions

Recommended Questions