Double row needle track roller bearing with a thrust load carrying ball bearing

What is claimed is: 1. A bearing comprising: a single piece outer ring comprising a radially inward facing first outer roller race, a radially inward facing second outer roller race and a radially inward facing outer ball race, the first outer roller race, the second outer roller race and the outer ball race defining an interior area of the outer ring; an inner ring assembly comprising a first inner ring and a second inner ring axially abutting one another at an abutment interface, the first inner ring having a radially outward facing first inner roller race, the second inner ring having a radially outward facing second inner roller race, the inner ring assembly being disposed in the interior area coaxially with the outer ring, and a radially outward facing inner ball race formed in at least one of the first inner ring and the second inner ring; a plurality of first rollers each having a first roller diameter, each of the plurality of first rollers rollingly engaging the first outer roller race and the first inner roller race; a plurality of second rollers each having a second roller diameter, each of the plurality of second rollers rollingly engaging the second outer roller race and the second inner roller race; and a plurality of balls each having a ball diameter and a center point, each of the plurality of balls rollingly engaging the outer ball race and the inner ball race, wherein each of the center points is aligned with the first inner roller race and the second inner roller race. 2. The bearing of claim 1 , wherein the outer ball race is positioned between the first outer roller race and the second outer roller race, and wherein the inner ball race is positioned between the first inner roller race and the second inner roller race. 3. The bearing of claim 1 , wherein the abutment interface is located between axial ends of the inner ball race. 4. The bearing of claim 1 , wherein the ball diameter is less than the first roller diameter and less than the second roller diameter. 5. The bearing of claim 1 , wherein the inner ball race comprises a cylindrical segment coaxial with a longitudinal axis of the inner ring assembly and extending along a portion of the inner ball race and located centrally between opposing axial ends of the inner ball race. 6. The bearing of claim 1 , further comprising a first seal extending between the inner ring assembly and the outer ring proximate an axial end of the outer ring and a second seal extending between the inner ring assembly and the outer ring proximate an opposing axial end of the outer ring, each of the first seal and the second seal being configured to retain a lubricant between the inner ring assembly and the outer ring prior to and during operational use of the bearing to retain the inner ring assembly in a predetermined position relative to the outer ring, prior to operational use of the bearing. 7. The bearing of claim 6 , further comprising at least one barrier for preventing introduction of a lubricant between the inner ring assembly and the outer ring after the bearing is assembled; wherein the at least one barrier comprises the inner ring assembly, the outer ring, the first seal and the second seal. 8. The bearing of claim 1 , further comprising at least one lubrication supply passage in the inner ring assembly to supply a lubricant therethrough. 9. The bearing of claim 1 , further comprising at least one barrier for preventing introduction of a lubricant between the inner ring assembly and the outer ring after the bearing is assembled. 10. The bearing of claim 1 , wherein each of the plurality of first rollers has a first axial length, and wherein an aspect ratio of the first length to the first diameter is between 3 to 1 and 12 to 1. 11. The bearing of claim 1 , wherein the inner ball race has a first depth and the outer ball race has a second depth, the first depth and the second depth each have a magnitude equal to 35 percent to 45 percent of the ball diameter. 12. The bearing of claim 1 , wherein the plurality of balls is a full complement without separators such that each of the plurality of balls touch two adjacent balls. 13. The bearing of claim 1 , wherein an exterior axial surface of at least one of the first inner ring and the second inner ring extends a standoff distance beyond a respective exterior axial surface of the outer ring, wherein the plurality of balls define an axial play; and wherein the axial play is less than the standoff distance. 14. An actuation system for deploying and retracting a lift assisting device of a wing of an aircraft, the actuation system comprising: a track pivotally coupled to the lift assisting device, the track having a first outer surface and a second outer surface opposite the first outer surface; a plurality of bearings each comprising: a single piece outer ring comprising a radially inward facing first outer roller race, a radially inward facing second outer roller race and a radially inward facing outer ball race, the first outer roller race, the second outer roller race and the outer ball race defining an interior area of the outer ring; an inner ring assembly comprising a first inner ring and a second inner ring axially abutting one another at an abutment interface, the first inner ring having a radially outward facing first inner roller race, the second inner ring having a radially outward facing second inner roller race, the inner ring assembly being disposed in the interior area coaxially with the outer ring, and a radially outward facing inner ball race formed in at least one of the first inner ring and the second inner ring; a plurality of first rollers each having a first roller diameter, each of the plurality of first rollers rollingly engaging the first outer roller race and the first inner roller race; a plurality of second rollers each having a second roller diameter, each of the plurality of second rollers rollingly engaging the second outer roller race and the second inner roller race; and a plurality of balls each having a ball diameter and a center point, each of the plurality of balls rollingly engaging the outer ball race and the inner ball race, wherein each of the center points is aligned with the first inner roller race and the second inner roller race, and wherein the outer ring has an outside surface that rollingly contacts one of the first outer surface and the second outer surface of the track to guide the track along an arcuate path. 15. The actuation system of claim 14 , wherein the outer ball race is positioned between the first outer roller race and the second outer roller race, and wherein the inner ball race is positioned between the first inner roller race and the second inner roller race. 16. The actuation system of claim 14 , wherein the abutment interface is located between axial ends of the inner ball race. 17. The actuation system of claim 14 , wherein the ball diameter is less than the first roller diameter and less than the second roller diameter. 18. The actuation system of claim 14 , wherein the inner ball race comprises a cylindrical segment coaxial with a longitudinal axis of the inner ring assembly and extending along a portion of the inner ball race and located centrally between opposing axial ends of the inner ball race. 19. A bearing comprising: a single piece outer ring comprising a radially inward facing first outer roller race having a first inside diameter, a radially inward facing second outer roller race having a second inside diameter and a radially inward facing oute