Two identical coaxial circular loops carry a current `i` each circulating int the same direction. If the loops approch each other the current in

Two circular, similar, coaxial loops carry equal currents in the same direction. If the loops are brought nearer, what will happen?

Two similar circular loops carry equal currents in the same direction. On moving the coils further apart, the electric current will

Current carrying circular loop acts as

A circular loop carrying a current is replaced by an equivalent magnetic dipole. A point on the loop is in

A square loop of side a carris a current I . The magnetic field at the centre of the loop is

A small circular loop is suspended from an insulating thread. Another coaxial circular loop carrying a current I and having radius much larger than the first loop starts moving towards the smaller loop. The smaler loop will

A small circular loop is suspended from an insulating thread. Another coaxial circular loop carrying a current I and having radius much larger than the first loop starts moving towards the smaller loop. The smaller loop will :

Two circular loops lie side by side in the same plane. One is connected to a source that supplies an increasing current, the other is a simple closed ring. Is the induced current in the ring is in the same direction as that in the loop connected to the source or opposite? What if the current in the first loop is decreasing?

Two identical current carrying coaxial loops, carry current I in an opposite sense. A simple amperian loop passes through both of them once. Calling the loop as C,