In a moving coil galvanometer, a rectangular coil of N turns, area of cross-section A and moment of inertia l is suspended in a radial field B through a spring.
(a) If a current `i_(0)` produces a deflection of `(pi)/(4)` in the coil, find the torsional constant of the spring
(b) Find the maximum deflection surffered by the coil, if a charge Q is passed through it in a short interval of time

In a moving coil galvanometer, what is meant by a radial magnetic field ?

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).

If in a moving coil galvanometer, a current I produces a deflection theta , then

In a moving coil galvanometer, the deflection of the coil q is related to the electrical current i by the relation

A moving coil galvanometer experience torque =ki , where i is current. If N coils of area A each and moment of inertia I is kept in magnetic field B. (i) If for current i deflection is (pi)/2 , the torsional constant of spring is (x BiNA)/(pi) . Find x^2 (ii) If a charge Q is passed suddenly through the galvanometer, the maximum angle of deflection is Qsqrt((BNpiA)/(xI)) . Find x^2

In a moving coil galvanometer the deflection (phi) on the scale by a pointer attached to the spring is

A moving coil galvanometer consists of a coil of N turns are area A suspended by a thin phosphor bronze strip in radial magnetic field B. The moment of inertia of the coil about the axis of rotation is l and c is the torsional constant of the phosphor bronze strip. When a current i is passed through the coil, it deffects through an angle theta When a charge Q is almost instantly through the coil the angular speed omega acquired by the coil is

A moving coil galvanometer consists of a coil of N turns are area A suspended by a thin phosphor bronze strip in radial magnetic field B. The moment of inertia of the coil about the axis of rotation is l and c is the torsional constant of the phosphor bronze strip. When a current i is passed through the coil, it deffects through an angle theta The current sensitivity of the galvanometer is increases if

A moving coil galvanometer has N numbr of turns in a coil of effective area A , it carries a current I . The magnetic field B is radial. The torque acting on the coil is