Variable torque bearing

What is claimed is: 1. A rolling bearing assembly comprising: a radially inner ring defining an inner race and including a first circumferentially extending seal groove; a radially outer ring defining an outer race, and including a second circumferentially extending seal groove having a pressure groove therein, and at least one hydraulic fluid gallery including an inlet and an outlet connected to the pressure groove; rolling elements supported between the radially inner ring and the radially outer ring, the rolling elements running on the inner race and the outer race; and at least one seal including a radially outer end engaged within the second circumferentially extending seal groove, and a radially inner end located in the first circumferentially extending seal groove, and the pressure groove is located inside of an axial end face of the at least one seal, wherein in a first non-pressurized operating condition, the radially inner end of the at least one seal contacts the first circumferentially extending seal groove on the radially inner ring, and in a second operating condition, in which the at least one hydraulic fluid gallery is supplied with pressurized hydraulic fluid, the at least one seal is moved outwardly in an axial direction such that the radially inner end of the at least one seal disengages from the radially inner ring. 2. The rolling bearing assembly of claim 1 , further comprising a snap wire or snap ring that secures the at least one seal in the second circumferentially extending seal groove. 3. The rolling bearing assembly of claim 2 , further comprising a spring or wave washer arranged axially between the snap wire or snap ring and the at least one seal. 4. The rolling bearing assembly of claim 1 , further comprising an O-ring arranged in the pressure groove between the outlet of the at least one hydraulic fluid gallery and the at least one seal. 5. The rolling bearing assembly of claim 1 , further comprising a circular protrusion integral to the at least one seal located in the pressure groove. 6. The rolling bearing assembly of claim 1 , wherein the radially inner ring includes two of the first circumferentially extending seal grooves arranged on either axial side of the inner race, the radially outer ring includes two of the second circumferentially extending seal grooves on either axial side of the outer race, and the second circumferentially extending seal grooves each include one of the pressure grooves. 7. The rolling bearing assembly of claim 6 , wherein the at least one seal comprises two of the seals, and each of the seals includes the radially outer end engaged within a respective one of the second circumferentially extending seal grooves, and the radially inner end located in a respective one of the first circumferentially extending seal grooves. 8. The rolling bearing assembly of claim 7 , wherein the at least one hydraulic fluid gallery comprises two hydraulic fluid galleries, and each of the hydraulic fluid galleries includes a respective one of the inlets and outlets, wherein each of the outlets is connected to a respective one of the pressure grooves. 9. A method of adjusting an axial position of a seal in a rolling bearing assembly, the method comprising: providing a rolling bearing assembly including a radially inner ring defining an inner race and including a first circumferentially extending seal groove; a radially outer ring defining an outer race, and including a second circumferentially extending seal groove having a pressure groove therein, and at least one hydraulic fluid gallery including an inlet and an outlet connected to the pressure groove; rolling elements supported between the radially inner ring and the radially outer ring, the rolling elements running on the inner race and the outer race; and at least one seal including a radially outer end engaged within the second circumferentially extending seal groove, and a radially inner end located in the first circumferentially extending seal groove, and the pressure groove is located inside of an axial end face of the at least one seal; supplying pressurized hydraulic fluid via the at least one hydraulic fluid gallery; and moving the at least one seal via pressurized hydraulic fluid from the outlet of the at least one hydraulic fluid gallery from (a) a first position in which the radially inner end of the at least one seal contacts the first circumferentially extending seal groove on the radially inner ring to (b) a second position in which the radially inner end of the at least one seal disengages from the radially inner ring.