Apparatus for a counterbalance for an eccentric motor

What is claimed is: 1. A pump, comprising: a rotor axially between a fluid inlet section of the pump and a fluid outlet section of the pump, wherein the rotor is configured to rotate about a center axis; the rotor comprising a rotor mass; a stator surrounding the rotor; a ring comprising a ring mass and surrounding the stator; wherein the ring mass is substantially equal to the rotor mass; and wherein the ring is configured to rotate about the stator in response to a magnetic flux introduced into the stator. 2. The pump of claim 1 , where in the pump further includes an air gap located between an inner diameter of the ring and an outer diameter of the stator. 3. The pump of claim 2 , wherein a diameter of the air gap decreases when the magnetic flux is introduced into the stator. 4. The pump of claim 2 , wherein the stator further includes a groove located on an outer diameter of the stator, wherein a first surface of the groove faces an inner diameter of the ring. 5. The pump of claim 1 , wherein the ring is concentric about the center axis. 6. The pump of claim 1 , wherein the ring has a first polarity and the stator has a second polarity, and the first and second polarity are opposite polarities. 7. The pump of claim 1 , wherein the stator includes a plurality of legs, wherein one or more of the plurality of legs includes coil windings configured to introduce the magnetic flux in response to electrification of the coil windings. 8. A pump, comprising: a rotor axially between a fluid inlet section of the pump and a fluid outlet section of the pump, wherein the rotor is configured to rotate about a center axis; the rotor comprising a rotor mass; a stator surrounding the rotor, wherein the stator includes an inner diameter surface and an outer diameter surface, the inner diameter surface comprising a groove encompassing the stator and concentric about the center axis; a ring comprising a ring mass and surrounding the stator, wherein the ring is located adjacent to the groove and defines a gap between an outer diameter of the surface and an inner surface of the ring, wherein the ring has a ring polarity opposite of a stator polarity; and wherein the ring mass is substantially equal to the rotor mass. 9. The pump of claim 8 , wherein the ring is configured to rotate and decrease a diameter of the gap in response to a magnetic flux being introduced into the stator. 10. The pump of claim 8 , wherein the ring includes a ring mass and the stator includes a stator mass, and the ring mass is 50% or less than the stator mass. 11. The pump of claim 8 , wherein the ring includes a ring mass and the stator includes a stator mass, and the ring mass is substantially equal to the stator mass. 12. The pump of claim 8 , wherein the ring is made of a first material and the rotor is made from the first material. 13. The pump of claim 8 , wherein the ring is made of a first material and the rotor is made from a second material different from the first material. 14. The pump of claim 8 , wherein the ring and the rotor are the only parts that rotate about the center axis in response to a magnetic flux being introduced to the stator. 15. The pump of claim 8 , wherein the ring has a first offset and the rotor has a second offset from a center point, wherein the first offset and second offset are equal in distance from the center point. 16. A pump, comprising: a rotor axially located between a fluid inlet section of the pump and a fluid outlet section of the pump, wherein the rotor comprises a rotor mass, the rotor configured to rotate about a center axis; a stator surrounding the rotor, wherein the stator includes an outer diameter surface that includes a groove encompassing the stator and concentric about the center axis; and a ring comprising a ring mass and surrounding the stator, wherein the ring is adjacent to the groove and defines a gap between the outer diameter surface and an inner diameter surface of the ring, wherein the ring mass is substantially equal to the rotor mass. 17. The pump of claim 16 , wherein the stator is configured to decrease a diameter of the gap in response to a magnetic flux being introduced into the stator. 18. The pump of claim 16 , wherein the ring surrounds the outer diameter surface. 19. The pump of claim 8 , wherein a first width of the groove is substantially equal to or larger than a second width of the ring. 20. The pump of claim 16 , wherein the ring and the rotor are made of a same material.