The magnetic field at a point x on the axis of a small bar magnet is equal to the field at a point y on the equator of the same magnet. The ratio of the distances of `x` and `y` from the centre of the magnet is

The magnetic field at a point x on the axis of short magnet is equal to the field at a point y on the equatorial line of the same magnet. The ratio of distance of x and y from centre of magnet is

The magnetic induction at a point P on the axis is equal to the magnetic induction at a point Q on the equator of a short magnetic dipole. What is the ratio of the distances of P and Q from the centre of the dipole?

Magnetic induction at a point P on the axis is 54 times the magnetic induction at a point Q on the equator of a short magnetic dipole. The ratio of the distances of the points P and Q from the centre of the dipole is given by

A long bar magnet has a pole strength of 10 Am . Find the magnetic field at a point on the axis of the magnet at a distance of 5cm from the north pole of the magnet.

The magnetic field on the axis at a distance z from the centre of the bar magnet would be ?

The field due to a magnet at a distance R~ from the centre of the magnet is proportional

Points A and B are located along a line perpendicular to the axis of a small bar magnet. Line joining the points A and B is passing through the centre of bar magnet. Point A is at a distance x from the centre of magnet on one side and point B is on the other side of magnet at a distance 3x from the centre of magnet. If B_1 and B_2 are the magnetic field intensities at A and B respectively then find approximate value of B_1 :B_2

The magnetic field at a distance d from a short bar magnet in longitudinal and transverse positions are in the ratio.