The force between the infinite wire and the square loop is

A triangular loop (ABC) having current i_(2) and an infinite wire having current i_(1) are placed in the same plane.Find the magnetic force of interaction between the infinite wire and the loop ABC .

A rectangular loop of wire with dimensions shown in figure is coplanar with a long wire carrying current 'I' . The distance between the wire and the left side of the loop is r . The loop is pulled to the right as indicated. What are the directions of the induced current in the loop and the magnetic forces on the left and right sides of the loop when the loop is pulled ?

A rectangular loop of sides 'a' and 'b' is placed in xy plane. A very long wire is also placed in xy plane such that side of length 'a' of the loop is parallel to the wire. The distance between the wire and the nearest edge of the loop is 'd'. The mutual inductance of this system is proportional to :

The magnetic field at O due to current in the infinite wire forming a loop as a shown in Fig.

A square current carrying loop is suspended in a unifrom magnetic field acting in the plane of the loop. If the force on one arm of the loop is vec(F) , the net force on the remaining three arms of the loop is

A long straight wire is coplanar with a current carrying circular loop of radius R as shown in Fig. Current flowing through wire and the loop is I_0 and I, respectively. If distance between centre of loop and wire is r=2R, calculate force of attraction between the wire and the loop.

What is the magnetic force acting on the finite wire due to the fixed infinite wire shown here? Strategy: We cannot use formula vec(F) = i vec(l) xx vec(B) to find the force as the magnetic field created by the fixed infinite wire is non-uniform. We have to consider an element on the finite wire, find force on it and integrate to obtain the net force.

the net force on the loop is

There is a current carrying straight wire of infinite length having current 5A. If a square loop of side 10 cm is kept coplanar with the wire as shown in figure the magnetic flux to the square loop is

A square loop PQRS carrying a current of 6.0 A is placed near a long wire carrying 10 A as shown in figure . (a) Show that the magnetic force acting on the part PQ is equal and opposite to that on the part RS. (b) Find the magnetic force on the square loop.