Boot assembly for a constant velocity joint

What is claimed is: 1. A joint assembly, comprising: a joint comprising an outer race; wherein an axially outermost end of said outer race has a stepped portion circumferentially extending along at least a portion of an outer surface of said axially outermost end of said outer race; wherein said stepped portion of said axially outermost end of said outer race has a chamfer portion; a flexible boot having an inner surface, an outer surface, a first end portion, a second end portion and an intermediate portion disposed between said first and second end portions of said flexible boot; wherein said first end portion of said flexible boot includes a first shoulder portion that connects an attachment portion to a first valley of said intermediate portion of said flexible boot; wherein at least a portion of said attachment portion of said first end portion of said flexible boot is connected to at least a portion of said outer surface of said outer race; an adapter having a radially outboard end, a radially inboard end, a first side, a second side, a radially outboard portion and a radially inboard portion; wherein an outer race mating portion circumferentially extends from at least a portion of said first side of said adapter; wherein said outer race mating portion of said adapter has a size and shape that is complementary to said stepped portion and said chamfer portion in said axially outermost end of said outer race; and wherein at least a portion of at least one of said radially outboard end of said adapter and said second side of said adapter is integrally connected to at least a portion of said inner surface of said flexible boot; wherein said stepped portion has a substantially vertical wall portion connecting said stepped portion of said axially outermost end of said outer race to said chamfer portion of said axially outermost end of said outer race; and wherein said outer race mating portion of said adapter has a size and shape that is complementary to said stepped portion, said substantially vertical wall portion and said chamfer portion in said axially outermost end of said outer race. 2. The joint assembly of claim 1 , wherein said joint is one of a universal joint, a constant velocity joint, and a direct pinion mount constant velocity joint. 3. The joint assembly of claim 1 , wherein said stepped portion has a cut back portion connecting said stepped portion of said axially outermost end of said outer race to said chamfer portion of said axially outermost end of said outer race; and wherein said outer race mating portion of said adapter has a size and shape that is complementary to said stepped portion, said cut back portion and said chamfer portion in said axially outermost end of said outer race. 4. The joint assembly of claim 1 , wherein said radially outboard end of said adapter has an increased diameter portion circumferentially extending from at least a portion of said radially outboard end of said adapter; and wherein at least a portion of said increased diameter portion on said radially outboard end of said adapter is received within an adapter receiving recess circumferentially extending radially outboard along at least a portion of said inner surface of said first shoulder portion of said flexible boot. 5. The joint assembly of claim 1 , wherein a first end portion of said outer race is connected to a shaft; and wherein said shaft is one of a drive shaft, a prop shaft, a Cardan shaft, a double cardan shaft, a universal joint shaft, and a universal coupling shaft. 6. The joint assembly of claim 1 , further comprising an inner race; wherein an inner surface of said inner race is drivingly connected to a first end portion of a drive sleeve; wherein a second end portion of said drive sleeve is drivingly connected to a pinion shaft; and wherein said pinion shaft has a pinion gear disposed at an end of said pinion shaft opposite said drive sleeve of said joint assembly. 7. The joint assembly of claim 1 , wherein said adapter is made of a material having a hardness that is greater than a hardness of a material of said flexible boot. 8. The joint assembly of claim 1 , wherein said adapter is integrally connected to at least a portion of an inner surface of said attachment portion of said first end portion of said flexible boot and said inner surface of said first shoulder portion of said first end portion of said flexible boot. 9. The joint assembly of claim 1 , wherein said intermediate portion of said flexible boot comprises, in axial order, said first valley, a first peak, a second valley, a second peak, a third valley, a third peak, a fourth valley and a fourth peak. 10. The joint assembly of claim 9 , wherein said outer surface of said flexible boot connecting said first shoulder portion to said first valley has an arcuate portion having a radius of curvature R 1 ; wherein said outer surface of said flexible boot connecting said first peak to said second valley has an arcuate portion having a radius of curvature R 2 ; wherein said outer surface of said flexible boot connecting said second peak to said third valley has an arcuate portion having a radius of curvature R 3 ; and wherein said outer surface of said flexible boot connecting said third peak to said fourth valley has an arcuate portion having a radius of curvature R 4 . 11. The joint assembly of claim 10 , wherein said flexible boot has a linear axial distance L 3 that is larger than a linear axial distance L 4 of said flexible boot; wherein said linear axial distance L 3 is an outermost linear axial distance of said first valley of said flexible boot along said outer surface of said flexible boot and said linear axial distance L 4 is an innermost linear axial distance between said first shoulder portion and said first peak of said flexible boot; wherein said flexible boot has a linear axial distance L 5 that is greater than a linear axial distance L 6 of said flexible boot; wherein said linear axial distance L 5 is an outermost linear axial distance of said second valley of said flexible boot along said outer surface of said flexible boot and said linear axial distance L 6 is an innermost linear axial distance between said first peak and said second peak of said flexible boot; wherein said flexible boot has a linear axial distance L 7 that is greater than a linear axial distance L 8 of said flexible boot; wherein said linear axial distance L 7 is an outermost linear axial distance of said third valley of said flexible boot along said outer surface of said flexible boot and said linear axial distance L 8 is an innermost linear axial distance between said second peak and said third peak of said flexible boot; wherein said flexible boot has a linear axial distance L 9 that is greater than a linear axial distance L 10 of said flexible boot; and wherein said linear axial distance L 9 is an outermost linear axial distance of said fourth valley of said flexible boot along said outer surface of said flexible boot and said linear axial distance L 10 is an innermost linear axial distance between said third peak and said fourth peak of said flexible boot. 12. The joint assembly of claim 9 , wherein one or more snap-rings are disposed within at least one of said first valley, said second valley, said third valley and said fourth valley of said flexible boot. 13. The joint assembly of claim 12 , wherein there is a gap between said one or more snap-rings and said outer surface of at least one of said first valley, said second valley, said third valley and said fourth valley of said flexible boot. 14. The joint assembly of cla