Two identical coils carrying equal current have a common centre but their planes are a at right angles to each other. What is the ratio of the magnitudes of the resultant magnetic field and the field due to one coil alone at the centre?

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

The magnetic field at the centre of the current carrying coil

A wire of length L carrying a current I is bent into a circle. The magnitude of the magnetic field at the centre of the circle is

Two identical magnetic dipoles of magnetic moments 1*0Am^2 each are placed at a separation of 2m with their axes perpendicular to each other. What is the resultant magnetic field at a point midway between the dipoles?

A solenoid of 150 cm length having 300 turns carries a current of 4A. Find the magnitude of the magnetic field inside the solenoid.

Two concentric coils each of radius equal to 2 pi cm are placed at right angles to each other 3 ampere and 4 ampere are the currents flowing in each coil respectively. The magnetic induction in weber//m^(2) at the centre of the coils will be ( mu_(0) = 4 pi xx 10^(-7) Wb// A.m)

A circular loop of radius 9.7 cm carries a current 2.3A. Obtain the magnitude of the magnetic field:- centre of the loop .

Answer the following questions : State the factors on which the magnitude of the magnetic field due to a current - carrying conductor depends and how it depends..

State the expression for the magnetic field at the centre of a full circle of a wire carrying a current I.

A horizontal overhead power line carries a current of 90 A in east to west direction. What is the magnitude and direction of the magnetic field due to the current1.5 m below the line?