A magnet N-S is suspended from a spring and while at oscillates, the magnet moves in and out of the coil C. The coil is connected to a galvanometer G.

Then, as the magnet oscillates,

The plane of the coil of tangent galvanometer is kept parallel to magnetic meridian to

What is the function of the radial magnetic field in the moving coil galvanometer?

In the figure magnetic energy stored in the coil is

Current is flowing in a coil of area A and number of turns N, then magnetic moment of the coil ,M is equal to

Figure shows a magnet suspended at the lower end of a spring while its length lies along the axis of a fixed circular conducting coil. The magnet is made to oscillate, Deflection in the galvanometer is

The pole pieces of the magnet used in a pivoted coil galvanometer are

A flip coil consits of N turns of circular coils which lie in a uniform magnetic field. Plane of the coils is perpendicular to the magnetic field as shown in figure. The coil is connected to a current integrator which measures the total charge passing through it. The coil is turned through 180^(@) about the diameter. The charge passing through the coil is

Before using tangent galvanometer for the measurement of current, why is the plane of coil of tangent galvanometer set in the magnetic meridian?

One mass m is suspended from a spring. Time period of oscilation is T. now if spring is divided into n pieces & these are joined in parallel order then time period of oscillation if same mass is suspended.

A mass m is suspended from a spring. Its frequency of oscillation is f. The spring is cut into two halves and the same mass is suspended from one of the pieces of the spring. The frequency of oscillation of the mass will be