Stator assembly including stator elements with slotted stator cores for use in an electrical motor

What is claimed is: 1. A stator assembly for an electric motor, comprising: a drive plate; a first magnetic core in which a first magnetic flux is generable; a first core slot formed in the first magnetic core, wherein the first magnetic core comprises two elongated members joined at only one end by a base member, the two elongated members and the base member are defined by the first core slot, and the two elongated members extend from the base member substantially parallel to each other toward the drive plate; a second magnetic core in which a second magnetic flux is generable; a second core slot formed in the second magnetic core, wherein the second magnetic core comprises two elongated members joined at only one end by a base member, the two elongated members and the base member are defined by the second core slot, and the two elongated members extend from the base member substantially parallel to each other toward the drive plate, wherein the first magnetic core and the second magnetic core abut one another along a respective one of the elongated members of each of the first magnetic core and the second magnetic core and wherein the stator assembly is cylindrically shaped and the first core slot and the second core slot extend perpendicular to a radius of the cylindrically shaped stator assembly and the first core slot and the second core slot extend parallel to one another and are spaced radially from one another and from a center of the stator assembly; and a stator coil wound through the first core slot and the second core slot and around the abutting elongated members of the first magnetic core and the second magnetic core, wherein an electrical current flowing in the stator coil generates a magnetic field about the stator coil that is absorbed by the first magnetic core and the second magnetic core to generate the first magnetic flux and the second magnetic flux that magnetically attract the drive plate. 2. The stator assembly of claim 1 , wherein the drive plate forms a magnetic flux path with each of the first magnetic core and the second magnetic core in response to the drive plate contacting the elongated members of the first magnetic core and the second magnetic core. 3. The stator assembly of claim 1 , wherein the respective one of the elongated members of each of the first magnetic core and the second magnetic core that abut one another define a north pole or a south pole of respective electromagnets corresponding to the first magnetic core and the second magnetic core based on a direction of flow of the electrical current in the stator coil, and another elongated member of each of the first magnetic core and the second magnetic core define an opposite of the north pole or the south pole from the respective one of the elongated members that abut one another. 4. The stator assembly of claim 1 , wherein the first magnetic core and the second magnetic core each comprise a plurality of plates or laminates stacked directly on one another, each plate or laminate comprising two elongated segments joined at only one end by a base segment, wherein the plates or laminates form the two elongated members and the base member of each of the first magnetic core and the second magnetic core when stacked directly on one another. 5. The stator assembly of claim 4 , wherein the second magnetic core comprises a fewer number of plates than the first magnetic core and is shorter on opposite ends than the first magnetic core. 6. The stator assembly of claim 5 , further comprising a stator cavity, wherein the first magnetic core, the second magnetic core and the stator coil are disposed in the stator cavity and the drive plate is disposed at a distance from the first magnetic core and the second magnetic core in response to the electrical current being removed from the stator coil. 7. The stator assembly for an electric motor of claim 1 , wherein the second magnetic core is shorter than the first magnetic core in a longitudinal direction of the first core slot and the second core slot, and the first magnetic core and the second magnetic core are sized to maximally occupy a space within a substantially trapezoidal shaped stator coil element. 8. The stator assembly for an electric motor of claim 1 , further comprising a permanent magnet proximate the first magnetic core. 9. An electric motor, comprising: a drive plate comprising a plurality of core segments; a fulcrum supporting the drive plate for nutating motion of the drive plate; a stator assembly comprising a plurality of stator coil elements, each stator coil element being associated with a respective one of the plurality of core segments and each stator coil element comprising: a first magnetic core in which a first magnetic flux is generable; a first core slot formed in the first magnetic core, wherein the first magnetic core comprises two elongated members joined at only one end by a base member, the two elongated members and the base member are defined by the first core slot, and the two elongated members extend from the base member substantially parallel to each other toward the drive plate; a second magnetic core in which a second magnetic flux is generable; a second core slot formed in the second magnetic core, wherein the second magnetic core comprises two elongated members joined at only one end by a base member, the two elongated members and the base member are defined by the second core slot, and the two elongated members extend from the base member substantially parallel to each other toward the drive plate, wherein the first magnetic core and the second magnetic core abut one another along a respective one of the elongated members of each of the first magnetic core and the second magnetic core and wherein the stator assembly is cylindrically shaped and the first core slot and the second core slot extend perpendicular to a radius of the cylindrically shaped stator assembly and the first core slot and the second core slot extend parallel to one another and are spaced radially from one another and from a center of the stator assembly; and a stator coil wound through the first core slot and the second core slot and around the abutting elongated members of the first magnetic core and the second magnetic core, wherein an electrical current flowing in the stator coil generates a magnetic field about the stator coil that is absorbed by the first magnetic core and the second magnetic core to generate the first magnetic flux and the second magnetic flux that magnetically attract the drive plate. 10. The electric motor of claim 9 , wherein the associated core segment of the drive plate form a magnetic flux path with the first magnetic core and the second magnetic core of an associated stator coil element in response to the associated core segment contacting the elongated members of the first magnetic core and the second magnetic core. 11. The electric motor of claim 10 , wherein the associated core segment of the drive plate is disposed at distance from the first magnetic core and the second magnetic core of the associated stator core element in response to the electrical current being removed from the stator coil of the associated stator core element and the electrical current being applied to another stator coil of the plurality of stator coil elements. 12. The electric motor of claim 9 , wherein the first magnetic core and the second magnetic core are integrally formed by joining abutting elongated members of the first magnetic core and the second magnetic core. 13. The electric motor of claim 9 , wherein the first magnetic core and the second magnetic core each comprise a plurality of plates or laminates st