The formation of a dipole is due to two equal and dissimilar point charges placed at a

We have two electric dipoles. Each dipole consists of two equal and opposite point charges at the ends of an insulating rod of length d. The dipoles sit along the x-axis a distance r aparts oriented as shown in fig. Their separation rgtgtd. The dipole on the left:

A short dipole is placed along the x - axis at x = x (Fig. 3.120). . a. Find the force acting on the dipole due to a point charge q placed at the origin. b. Find the force on the dipole if the dipole is rotated by 180^(@) about the z- axis. c. Find the force on dipole if the dipole is rotated by 90^(@) anticlockwise about z - axis, i.e., it becomes parallel to the y - axis.

Find the force of interaction of two dipoles , if the two dipole moments are parallel to each other and placed at a distance x apart

A square frame ABCD is made of insulated wires and there is a short dipole, with dipole moment p, fixed in the plane of he figure. The dipole is lying at the centre of the square, making an angle theta , as shown in the figure. If four point charges are placed at the four point charges are placed at the four corners of the square, then the magnitude of force exerted by the dipole on the system of charges is

Two fixed point charges +4e and +e units are separated by a distance a. Where should a third point charge be placed for it to be in equilibrium?

An electric dipole vec(P) and a point charge q (gt 0) are located at a separation r as shown. Force on the dipole vec((F)) due to the point charge on the qualitatively dinoted as :

A dipolo is placed in the field of a point charge, the distance between the dipole and the field source being much greater than the dipole separation. Find the force acting on the dipole and the torque, if the dipole is arranged: perpendicular to the line of force.

Two point charges of same magnitude and opposite sign are fixed at point a and B. A third small point charge is to be balanced at point P by the electrostatic force due to these two charges. The point P :

Two positive point charges of unequal magnitude are placed at a certain distance apart. A small positive test charge is placed at null point, then

A thin metallic spherical shell contains a charge Q on it. A point charge q is placed at the center of the shell and another charge q_1 is placed outside it as shown in the figure. All the three charges are positive. Find the force on the charge a. at centre due to all charges. b. at center due to shell.