A wire loop carrying a current `I` is placed in the `xy`-plane as shown in figure

a. If a particle chsarge +Q and mass m is placed at in centre `P` and given a velocity `v` along `NP` (see figure), find its instaneous acceleration.
If an external uniform magnetic induction field `B=Bhati` is applied, find the force and the torque acting on the loop due to this field.

A wire loop carrying current I is placed in the x-y plane as shown. Magnetic induction at P is

A circular loop carrying a current I is placed in the xy-plane as shown in figure. A uniform magnetic fied B is oriented along the positive z-axis. The loop tends to

A wire loop carrying current I is placed in the x-y plane as shown in the figure. If an external uniform magnetic field vec(B)=B hat(i) is switched on, then the torque acting on the loop is

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.

Find the magnetic field at the centre O of the loop shown in the figure

Find the magnetic field at the centre O of the loop shown in the figure

Torque acting on a current loop in a uniform magnetic field is equal to

the force on current carrying wire placed in uniform magnetic field B as shown in figure is

A square loop OABCO of side of side l carries a current i . It is placed as shown in figure. Find the magnetic moment of loop.

A square loop OABCO of side of side l carries a current i . It is placed as shown in figure. Find the magnetic moment of loop.