A non-planar circular loop consists of two semi-circles one of which lies in `yz`-plane `&` the other is in `xz`-plane as shown.The magnetic force experienced by positive charge of value `Q` moving with velocity `v` along `x` direction when it is at the origin is:

A 3D structure of current carrying wire is as shown in the figure. The magnetic force experienced by a charge particle of mass m and charge q , when it is crossing origin with velocity vec(v) along positive Y -axis will be

Two positive charges q_1 and q_2 are moving with velocities v_1 and v_2 when they are at points A and B, respectively, as shown in Fig. The magnetic force experienced by charge q_1 due to the other charge q_2 is

A current loop consists of two identical semicircular parts each of radius R, one lying in the x-y plane and the other in x-y plane. If the current in the loop is i, the resultant magnetic field due to two semicircular parts at their common centre is

A circular loop is bent so that half of (OAB) lies in xy- plane ane the other half (OCB) lie in xz-plane. A time varying magnetic field axis here given by B=alpha(thatj-2thatk) where alpha is a positive constant. What will be the direction of induced current.

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.

A ring carrying current l lies in x-z plane as shown. A short magnetic dipole with dipole moment directed along x-axis is fixed at origin. If the ring is free to move anywhere, then it will

In Fig ABCDEFA was a square loop of side l, but is folded in two equal parts so that half of it lies in the x-z plane and the other half lies in the y-z plane. The origin O is centre of the frame also. The loop carries current 'i'. The magnetic field at the centre is

A closed circular wire loop A lies in the plane of longer loop B, which is connected to the battery as shown in the figure. The direction of current induced in the loop A when the switch S is closed is

In the previous problem, the maximum range of movement of the centre of the part of the circle from line AD in which charged particle of charge Q moves with a velocity v when (theta) is positive to when (theta) is negative is given by