Earth-boring tools including rotatable bearing elements and related methods

What is claimed is: 1. An earth-boring tool for drilling a subterranean formation, comprising: a body having a central axis and a cavity extending into the body from an outer surface thereof, the cavity having a central axis extending therethrough; at least one cutting element mounted on the body; and a bearing element assembly mounted within the cavity, the bearing element assembly comprising: a lower retaining member; an upper retaining member mounted over the lower retaining member, the upper retaining member comprising an aperture formed therethrough; a spherical bearing element disposed over the lower retaining member and extending through the aperture formed through the upper retaining member, the spherical bearing element being rotatable about three axes of rotation and being axially translatable along the central axis of the cavity within the lower retaining member and the upper retaining member; and a support structure disposed within the lower retaining member, the support structure having a surface configured for rotation of the spherical bearing element thereon, the support structure being axially translatable with the spherical bearing element along the central axis of the cavity; wherein the bearing element assembly is located and configured such that the spherical bearing element is underexposed relative to the at least one cutting element mounted on the body. 2. The earth-boring tool of claim 1 , wherein the spherical bearing element is located on the body for rotation about at least one rotational axis of the three axes of rotation responsive to the spherical bearing element contacting a subterranean formation. 3. The earth-boring tool of claim 1 , wherein: the cavity has a lower surface recessed relative to the outer surface of the body and a substantially cylindrical sidewall. 4. The earth-boring tool of claim 3 , wherein the lower retaining member comprises a cavity extending partially therethrough from an upper surface thereof, and wherein the support structure is disposed within the cavity of the lower retaining member. 5. The earth-boring tool of claim 4 , wherein the lower retaining member comprises a damping element disposed in the cavity thereof, the damping element configured to dampen a force applied by the subterranean formation on the spherical bearing element. 6. The earth-boring tool of claim 5 , wherein the damping element comprises a spring, the damping element coupled to the support structure. 7. The earth-boring tool of claim 5 , wherein the damping element comprises a non-Newtonian fluid, the non-Newtonian fluid disposed in a space between the lower retaining member and a surface of the support structure opposite the surface on which the spherical bearing element rotates. 8. The earth-boring tool of claim 1 , wherein the support structure comprises an elastically deformable material and is configured to dampen a force applied by the subterranean formation on the spherical bearing element. 9. The earth-boring tool of claim 1 , wherein the bearing element assembly is mounted rotationally behind the at least one cutting element on the body. 10. The earth-boring tool of claim 1 , wherein the bearing element assembly is mounted on a face of the body and configured as a weight-on-cutting element limiting feature or a depth-of-cut control feature. 11. The earth-boring tool of claim 1 , wherein the bearing element assembly is mounted on a gage of the body and configured to reduce lateral vibrations of the earth-boring tool. 12. A method of forming an earth-boring tool, comprising: providing a body having a cavity formed therein, the cavity extending from an outer surface of the body partially into the body, the cavity having a central axis extending therethrough; mounting a bearing element assembly in the cavity, the bearing element assembly comprising: a lower retaining member; an upper retaining member disposed over and mounted to the lower retaining member; a spherical bearing element disposed over the lower retaining member and extending through an aperture formed through the upper retaining member, the spherical bearing element being rotatable about three axes of rotation and being axially translatable along the central axis of the cavity within the lower retaining member and the upper retaining member; and a support structure disposed within the lower retaining member, the support structure having a surface configured for rotation of the spherical bearing element thereon, the support structure being axially translatable with the spherical bearing element along the central axis of the cavity; and mounting at least one cutting element to the body such that the bearing element assembly is underexposed relative to the at least one cutting element. 13. The method of claim 12 , wherein mounting the bearing element assembly in the cavity comprises mounting the bearing element assembly in the cavity by a threadless connection. 14. The method of claim 13 , wherein mounting the bearing element assembly in the cavity comprises mounting the bearing element assembly in the cavity by one of press-fitting, welding, brazing, and a retaining ring. 15. The method of claim 12 , wherein mounting the bearing element assembly in the cavity comprises mounting the bearing element assembly in the cavity by a threaded connection, wherein the lower retaining member comprises threading about a sidewall thereof and the cavity comprises threading about a sidewall thereof, the sidewall of the cavity encircling the sidewall of the lower retaining member. 16. The method of claim 12 , further comprising: selecting the lower retaining member to comprise a cavity extending partially therethrough; and providing a damping element within the cavity of the lower retaining member such that the spherical bearing element is disposed over the damping element and is axially translatable. 17. The method of claim 16 , further comprising selecting the damping element to comprise a fluid or a spring. 18. The method of claim 12 , wherein mounting the bearing element assembly in the cavity comprises mounting the bearing element assembly in a cavity formed in a gage of the body, the bearing element assembly configured to reduce lateral vibrations of the body. 19. The method of claim 12 , wherein mounting the bearing element assembly in the cavity comprises mounting the bearing element assembly in a cavity formed in a face of the body rotationally behind at least one cutting element mounted to the body, the bearing element assembly configured as a one of a weight-on-cutting element limiting feature and a depth-of-cut control feature.