Dual rate torsional stiffness drive shaft assembly

Having thus described the present disclosure, it is claimed: 1. A drive shaft assembly comprising: a first shaft member comprising: a first shaft extending along a first axis, a base that radially extends from the first shaft, and a plurality of fingers circumferentially spaced from each other, each of the fingers axially extending from the base and having a finger end surface that radially extends between a first finger surface and a second finger surface disposed opposite the first finger surface; a second shaft member having a second shaft having an exterior surface that extends about a second axis between a second shaft first end and a second shaft second end, each of the fingers extending over the second shaft second end, wherein each of the fingers defines a first ball track that extends radially from the first finger surface towards the second finger surface and that extends axially from the finger end surface towards the base, wherein the second shaft defines a second ball track that is disposed proximate the second shaft second end and that extends radially from the exterior surface towards the second axis; a ball member that is received within one of the first ball tracks and the second ball track; and an outer member disposed about the plurality of fingers, the ball member, and the second shaft second end, wherein a first torsional stiffness rate is provided by at least one of the first shaft member and the second shaft member while a first torque is applied between the first shaft member and the second shaft member and while there is a radial clearance between the second finger surface and the outer member. 2. The drive shaft assembly of claim 1 , wherein the outer member is operatively connected to the first shaft member and the second shaft member. 3. The drive shaft assembly of claim 1 , wherein a second torsional stiffness rate is provided by at least one of the first shaft member and the second shaft member while a second torque is applied between the first shaft member and the second shaft member and the ball member deflects at least one of the fingers such that there is no radial clearance between a portion of the second finger surface and the outer member. 4. A drive shaft assembly comprising: a first shaft member comprising: a first shaft extending along a first axis, a base that radially extends from the first shaft, the base defining a first mounting feature that extends along the first axis, and a finger that axially extends from the base and is radially spaced apart from the first mounting feature; a second shaft member having a second shaft that extends along a second axis between a second shaft first end and a second shaft second end, the second shaft second end having a second shaft end face defining a second mounting feature that engages the first mounting feature; and a ball member disposed between the finger and the second shaft second end, wherein the finger has a finger end surface that radially extends between a first finger surface that receives the ball member and a second finger surface disposed opposite the first finger surface, wherein the second shaft defines a second ball track that is disposed proximate the second shaft second end and receives the ball member, wherein the second ball track becomes progressively closer to the first finger surface in a direction that extends from the second shaft second end towards the second shaft first end. 5. The drive shaft assembly of claim 4 , wherein the first axis is disposed coaxial with the second axis. 6. The drive shaft assembly of claim 4 , further comprising an outer member that is disposed about the finger, the ball member, and the second shaft second end and is operatively connected to the base and the second shaft. 7. A drive shaft assembly comprising: a first shaft member having a base that radially extends from a first shaft that extends along a first axis, and a finger that extends from the base and defines a first ball track; a second shaft member having a second shaft extending along a second axis defining a second ball track; a ball member that is received within the first ball track and the second ball track; an outer member comprising: a first outer member portion that is disposed about and is operatively connected to the base; a second outer member portion extending from the first outer member portion and disposed about the finger, the ball member, and the second shaft; and a third outer member portion extending from the second outer member portion and is disposed about and is operatively connected to the second shaft; wherein the finger includes a first finger surface that faces towards the ball member and a second finger surface that faces towards the second outer member portion, the first ball track is at least partially defined by the first finger surface, wherein a first torsional stiffness rate is provided by at least one of the first shaft member and the second shaft member while a first torque is applied to the first shaft member and while there is a radial clearance between the second finger surface and the second outer member portion and wherein a second torsional stiffness rate is provided by at least one of the first shaft member and the second shaft member while a second torque is applied to the first shaft member and the ball member rides along the first ball track and deflects the finger such that there is no radial clearance between the second finger surface and the second outer member portion.