Two spherical conductors A and B of radii R and 2R respectively are each given a charge Q. When they are connected by a metallic wire. The charge will

Two spherical conductors A and B of radii R and 2R respectively , are separated by a large distance . If some charge is given to both the spheres and later they are connected by a conducting wire , then in equilibrium condition , the ratio of the magnitude of the electric fields at the surface of spheres A and B is

Two spherical conductors A and B of radii R and 2R respectively , are separated by a large distance . If some charge is given to both the spheres and later they are connected by a conducting wire , then in equilibrium condition , the ratio of the magnitude of the electric fields at the surface of spheres A and B is

(Figure 3.114) shows three concentric spherical conductors A, B, and C with radii R, 2R , and 4R , respectively. A and C are connected by a conducting wire, and B is uniformly charged ("charge" = +Q) . Find . a. charges on conductors A and C, and b. potentials of A and B.

(Figure 3.114) shows three concentric spherical conductors A, B, and C with radii R, 2R , and 4R , respectively. A and C are connected by a conducting wire, and B is uniformly charged ("charge" = +Q) . Find . a. charges on conductors A and C, and b. potentials of A and B.

Two concentric spherical conducting shells of radii R and 2R are carrying charges q and 2q, respectively. Both are now connected by a conducting wire. Find the change in electric potential (inV) on the outer shell.

Two concentric spherical conducting shells of radii R and 2R are carrying charges q and 2q, respectively. Both are now connected by a conducting wire. Find the change in electric potential (inV) on the outer shell.