Two non-conducting spheres of radii `R_(1)` and `R_(2)` and carrying uniform volume charge densities `+rho` and `- rho` respectively are placed such that they partially overlapping region.

Two non-conducting spheres of radii R_1 and R_2 and carrying uniform volume charge densities +rho and -rho , respectively, are placed such that they partially overlap, as shown in the figure. At all points in the overlapping region

Two non-conducting spheres of radii R_1 and R_2 and carrying uniform volume charge densities +rho and -rho , respectively, are placed such that they partially overlap, as shown in the figure. At all points in the overlapping region

Two non-conducting solid spheres of radii R and 2R, having uniform volume charge densities rho_1 and rho_2 respectively, touch each other. The net electric field at a distance 2R from the centre of the smaller sphere, along the line joining the centres of the spheres, is zero. The ratio rho_1/rho_2 can be

Two non-conducting solid spheres of radii R and 2R, having uniform volume charge densities rho_1 and rho_2 respectively, touch each other. The net electric field at a distance 2R from the centre of the smaller sphere, along the line joining the centres of the spheres, is zero. The ratio rho_1/rho_2 can be

Two non-conducting solid spheres of radii R and 2R, having uniform volume charge densities rho_1 and rho_2 respectively, touch each other. The net electric field at a distance 2R from the centre of the smaller sphere, along the line joining the centres of the spheres, is zero. The ratio rho_1/rho_2 can be

Two conducting spheres of radii r_(1) and r_(2) are charged to the same surface charge density . The ratio of electric field near their surface is

There are two nonconducting spheres having uniform volume charge densities rho and - rho . Both spheres have equal radius R . The spheres are now laid down such that they overlap as shown in Fig.2.125. Take vec(d) = O_(1) vec(O_(2)) . The electric field vec(E) in the overlapped region is

There are two nonconducting spheres having uniform volume charge densities rho and - rho . Both spheres have equal radius R . The spheres are now laid down such that they overlap as shown in Fig.2.125. Take vec(d) = O_(1) vec(O_(2)) . The electric field vec(E) in the overlapped region is

There are two nonconducting spheres having uniform volume charge densities rho and - rho . Both spheres have equal radius R . The spheres are now laid down such that they overlap as shown in Fig.2.125. Take vec(d) = O_(1) vec(O_(2)) . The electric field vec(E) in the overlapped region is

Two charged spheres of radii R_(1) and R_(2) having equal surface charge density. The ratio of their potential is