Bearing assemblies and apparatuses including superhard bearing elements

What is claimed is: 1. A bearing apparatus, comprising: an inner bearing assembly comprising: an inner support ring circumferentially surrounding an inner ring axis; a first plurality of superhard bearing elements coupled to the inner support ring, each of the first plurality of superhard bearing elements having an element side surface extending between a base and a superhard bearing surface, the superhard bearing surfaces of the first plurality of superhard bearing elements collectively forming a generally partial-spherical surface shape substantially centered about the inner ring axis; an outer bearing assembly comprising: an outer support ring circumferentially surrounding an outer ring axis; a second plurality of superhard bearing elements coupled to the outer support ring, each of the second plurality of superhard bearing elements having an element side surface extending between a base and a superhard bearing surface, the superhard bearing surface of each of the second plurality of superhard bearing elements contacting a superhard bearing surface of at least an opposing one of the first plurality of superhard bearing elements; wherein the superhard bearing surface of each of the second plurality of superhard bearing elements comprises a substantially planar surface facing toward the inner bearing assembly. 2. The bearing apparatus of claim 1 , wherein the superhard bearing surface of each of the first plurality of superhard bearing elements comprises a convex surface. 3. The bearing apparatus of claim 1 , wherein the inner bearing assembly is rotatable relative to the outer bearing assembly when the inner ring axis is oriented at an angle from the outer ring axis. 4. The bearing assembly of claim 1 , wherein: each of the first plurality of superhard bearing elements and each of the second plurality of superhard bearing elements comprises a polycrystalline diamond table bonded to a substrate; the base of each of the first plurality of superhard bearing elements is formed by the substrate of the superhard bearing element; the superhard bearing surface of each of the first plurality of superhard bearing elements is formed by the polycrystalline diamond table of the superhard bearing element the base of each of the second plurality of superhard bearing elements is formed by the substrate of the superhard bearing element; and the superhard bearing surface of each of the second plurality of superhard bearing elements is formed by the polycrystalline diamond table of the superhard bearing element. 5. The bearing assembly of claim 1 , wherein the outer support ring comprises a plurality of ring members. 6. The bearing assembly of claim 5 , wherein a separate row of superhard bearing elements of the second plurality of superhard bearing elements is coupled to each of the plurality of ring members. 7. The bearing apparatus of claim 1 , wherein: the inner bearing assembly is configured as one of a rotor and a stator; the outer bearing assembly is configured as the other of the rotor and the stator. 8. The bearing assembly of claim 1 , wherein the first plurality of superhard bearing elements are distributed in a plurality of rows extending circumferentially about the inner ring axis. 9. The bearing apparatus of claim 1 , wherein the inner bearing assembly is configured to rotate about the inner ring axis relative to the outer bearing assembly both when the inner ring axis and the outer ring axis are parallel to each other and when the inner ring axis and the outer ring axis are nonparallel to each other. 10. The bearing assembly of claim 1 , wherein the superhard bearing surface of each of the first plurality of superhard bearing elements has a radius of curvature that is substantially centered about the central bearing axis. 11. The bearing assembly of claim 1 , wherein the superhard bearing surface of each of the first plurality of superhard bearing elements is generally congruent to a portion of a spherical surface outline. 12. The bearing assembly of claim 1 , wherein each of the first plurality of superhard bearing elements is fixed within a respective bearing-element recess defined within the inner support ring; each of the second plurality of superhard bearing elements is fixed within a respective bearing-element recess defined within the outer support ring. 13. A subterranean drilling system, comprising: an output shaft operable to apply torque to a rotary drill tool, the output shaft operably coupled to a bearing apparatus, the bearing apparatus comprising: an inner bearing assembly comprising: an inner support ring; a first plurality of superhard bearing elements coupled to the inner support ring, each of the first plurality of superhard bearing elements having an element side surface extending between a base and a superhard bearing surface, the superhard bearing surfaces of the first plurality of superhard bearing elements collectively forming a generally partial-spherical surface shape substantially centered about the inner ring axis; an outer bearing assembly comprising: an outer support ring; a second plurality of superhard bearing elements coupled to the outer support ring, each of the second plurality of superhard bearing elements having an element side surface extending between a base and a superhard bearing surface, the superhard bearing surface of each of the second plurality of superhard bearing elements contacting a superhard bearing surface of at least an adjacent one of the first plurality of superhard bearing element; wherein the superhard bearing surface of each of the second plurality of superhard bearing elements comprises a substantially planar surface facing toward the inner bearing assembly.