Two similar coils are kept mutually perpendicular such that their centres coincide. At the centre, find the ratio of the magnetic field due to one coil and the resultant magnetic field by both coils, if the same current is flown

Magnetic Field due to Circular Coil

The magnetic field at the centre of the current carrying coil

Two similar current loops are placed with their planes mutually perpendicular and centres of both loop lie on the origin. Find the ratio of resultant magnetic field at common centre to the individual magnetic field at common centre.

The magnetic field at the centre of current carrying coil is

Two coils are having magnetic field B and 2B at their centres and current i and 2i then the ratio of their radius is

In the net work shown in figure,find the magnetic field at the centre O of the coil.

Two identical coils carry equal currents have a common centre and their planes are at right angles to each other. The ratio of the magnitude of the resulatant magnetic field at the centre and the field due to one coil is

(i) Two circular coils of raddii 5.0 cm and 10 cm carry equla currents of 1 A .The coils have 50 and 100 turns respectively and are placed in such a way that their planes as well as the centre coincide.Find the magnitude of the magnetic field B at the common centre when the currents in the coils are (a) in the same sense ,(b) in the opposite sense. (ii) If the outer coil of the above problem is rotated through 90^(@) about a diameter,what would be the magnitude of the magnetic field B at the centre?

Following is square shape loop, whose one arm BC produces magnetic field B at the centre of coil. The resultant magnetic field due to all the arms will be :-