A galvanometer is used in laboratory for detecting the null point in electrical experiments . If , on passing a current of `6mA`, it produces a deflection of `2^(@)` , its figure of merit is close to :

Two tangent galvanometer A and B are identical except in their number of turns. They are connected in series. On passing a current through them, deflections of 60^(@) and 30^(@) are produced. The ration of the number of turns in A and B is

In a tangent galvanometer, when a current of 10mA is passed, the deflection is 31^@ . By what percentage, the current has to be increased, so at to produce a deflection of 42^@ ?

When 2 amperes current is passed through a tangent galvanometer, it gives a deflection of 30^(@) . For 60^(@) deflection, the current must be

In a moving coil galvanometer, torque on the coil can be experessed as tau = ki , where i is current through the wire and k is constant . The rectangular coil of the galvanometer having number of turns N , area A and moment of interia I is placed in magnetic field B . Find (a) k in terms of given parameters N,I,A andB (b) the torsion constant of the spring , if a current i_(0) produces a deflection of (pi)//(2) in the coil . (c) the maximum angle through which the coil is deflected, if charge Q is passed through the coil almost instaneously. ( ignore the daming in mechinal oscillations).

In a moving coil galvanometer, torque on the coil can be experessed as tau = ki , where i is current through the wire and k is constant . The rectangular coil of the galvanometer having number of turns N , area A and moment of interia I is placed in magnetic field B . Find (a) k in terms of given parameters N,I,A andB (b) the torsion constant of the spring , if a current i_(0) produces a deflection of (pi)//(2) in the coil . (c) the maximum angle through which the coil is deflected, if charge Q is passed through the coil almost instaneously. ( ignore the daming in mechinal oscillations).

A galvanometer with its coil resistance 25 Omega requires a current of 1 mA for its full deflection. In order to construct an ammeter to read up to a current of 2A, the approximate value of the shunt resistance should be :

A galvanometer coil has a resistance of 15Omega and the meter shows full scale deflection for a current of 4mA . How will you convert the meter into an ammeter of range 0 to 6A?

Figure 6.32 shows a meter bridge in the (which is nothing but a particle wheastone bridge), consisting of two resistors X and Y together in parellel with a meter long constantan wire of uniform cross section. with the help of a movable contact d , one can change the ratio of resistance of the two segments of the wire until a sensitive galvanometer G connected across b and D shows no deflection. The null point is found to be at a distance of 33.7 cm . The resistor Y is shunted by a resistance of 12 Omega , and the null point is found to shift by a distance of 18.2 cm . Determine the resistance of X and Y .

(A) : A galvanometer can be used as an ammeter and Voltmeter. (R) : A galvanometer cannot be used in electric circuit to detect the direction of electric current.

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