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:

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-z 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.

An electron moves along the line XOX' which lies in the same plane as the square loop of conducting wire as shown. The direction of induced current, if any in the loop is

A current carrying loop consists of 3 identical quarter circles of radius R, lying in the positive quadrants of the x-y, y-z and z-x planes with their centres at the origin, joined together. Find the direction and magnitude to vecB at the origin.

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 current carrying loop is placed in the non-uniform magnetic field whose variation in space is shown in fig. Direction of magnetic field is into the plane of paper. The magnetic force experienced by the loop is

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

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