the net force on the loop is

A rectangular loop of sides 27cmxx12cm carries a current of 12A . It is placed with its longer side parallel to the long straight conductor 3*0cm apart and carrying a current of 20A . Figure. (i) Find the net force on the loop (ii) What will be the net force on the loop if the current in the loop be reversed?

A square loop of ABCD carrying a current i, is placed near and coplanar with a long straight conductor XY carrying a current I, the net force on the loop will be

A wire carrying a 10A current is bent to pass through various sides of a cube of side 10 cm as shown in fig. A magnetic field vecB=(2hati-3hatj_hatk)T is present in the region. Find the net force on the loop shown.

A square loop ABCD , carrying a current I_(2) is placed near and coplanar with a long straight conductor XY , carrying a current I_(1) as shown in Figure. The net force on the loop will be

A rigid square loop of side 'a’ and carrying current I_(2) is lying on a horizontal surface near a long current I_(1) carrying wire in the same plane as shown in figure. The net force on the loop due to the wire will be:

A rectangular loop of wire of size 4 cm // 10cm carries a steady current of 2A . A straight long wire carrying 5A current is kept near the loop ( as shown in figu ) . If the loop and the wire are coplanar, find the net force on the loop

A circular loop of radius R is bent along a diameter and given a shape as shown in figure. One of 30, A the se micircles (KNM) lies in the xz-plane and the other one (KLM) in the yz-plane with their centres at origin. Current I is flowing through each of the semicircles as shown in figure. (a) A particle of charge q is released at the origin with a velocity v =- v_0hati . Find the instantaneous force F on the particle. Assume that space is gravity free. (b) If an external uniform magnetic field B_0hatj is applied, determine the force F_1 and F_2 on the semicircles KLM and KNM due to the field and the net force F on the loop.