Tire having a conductivity path

What is claimed is: 1. A tire comprising: a first annular bead and first abrasion area, wherein the first abrasion area has a resistivity of at least 5.9×10 7 ohm-cm; a second annular bead and second abrasion area, wherein the second abrasion area has a resistivity of at least 5.9×10 7 ohm-cm; a body ply extending between the first annular bead and the second annular bead, wherein the body ply contains reinforcement cords; a circumferential belt disposed radially upward of the body ply and extending axially across a portion of the body ply; at least one reinforcement ply disposed radially upward of the circumferential belt and extending axially across a portion of the body ply; at least one cap ply disposed radially upward of the at least one reinforcement ply and extending axially across a portion of the body ply, wherein the cap ply has a resistivity of at least 13.0×10 7 ohm-cm; a circumferential tread disposed radially upward of the circumferential belt and extending axially across a portion of the body ply, wherein the circumferential tread has resistivity of at least 13.7×10 7 ohm-cm; a first sidewall extending between the first annular bead and a first shoulder, the first shoulder being associated with the circumferential tread, wherein the first sidewall has a resistivity of at least 11.9×10 7 ohm-cm; a second sidewall extending between the second annular bead and a second shoulder, the second shoulder being associated with the circumferential tread, wherein the second sidewall has a resistivity of at least 11.9×10 7 ohm-cm; and a plurality of bleeder cords associated with the body ply and disposed circumferentially about the tire, wherein the plurality of bleeder cords includes at least one conductive bleeder cord disposed radially between the circumferential tread and the body ply, wherein the at least one conductive bleeder cord has a first end and a second end, the first end being located in a region within the middle 80% of a width of the circumferential tread, wherein 10-40% of the cords in the plurality of bleeder cords are conductive bleeder cords that dissipate electric charge in the tire, and wherein the at least one conductive bleeder cord engages one other of the plurality of bleeder cords. 2. The tire of claim 1 , wherein the tire lacks a conductive antenna. 3. The tire of claim 1 , wherein the conductive bleeder cord is infused with carbon black. 4. The tire of claim 3 , wherein the carbon black has conductivity between 0 and 300 Ω −1 m 1 . 5. The tire of claim 4 , wherein the carbon black coating is disposed linearly along a cotton cord. 6. The tire of claim 1 , wherein the first end of the at least one conductive bleeder cord is located at the center of the width of the circumferential tread. 7. The tire of claim 1 , wherein the at least one conductive bleeder cord and the one other of the plurality of bleeder cords that are in engagement extend parallel to one another. 8. The tire of claim 1 , wherein the at least one conductive bleeder cord and the one other of the plurality of bleeder cords that are in engagement have substantially identical cross sections. 9. The tire of claim 1 , wherein the at least one conductive bleeder cord has an irregular cross section. 10. The tire of claim 1 , wherein the at least one conductive bleeder cord and the one other of the plurality of bleeder cords that are in engagement are joined to one another. 11. The tire of claim 1 , wherein a cross sectional area of the at least one conductive bleeder cord is 10% of a cross sectional area of the one other of the plurality of bleeder cords. 12. The tire of claim 1 , wherein the at least one conductive bleeder cord has a first end and a second end, the first end being located in a region within the middle 80% of a width of the circumferential tread. 13. A tire comprising: a first annular bead and first abrasion area, wherein the first abrasion area has a resistivity of at least 5.9×10 7 ohm-cm; a second annular bead and second abrasion area, wherein the second abrasion area has a resistivity of at least 5.9×10 7 ohm-cm; a body ply extending between the first annular bead and the second annular bead, wherein the body ply contains reinforcement cords; a circumferential belt disposed radially upward of the body ply and extending axially across a portion of the body ply; at least one reinforcement ply disposed radially upward of the circumferential belt and extending axially across a portion of the body ply; at least one cap ply disposed radially upward of the at least one reinforcement ply and extending axially across a portion of the body ply, wherein the cap ply has a resistivity of at least 13.0×10 7 ohm-cm; a circumferential tread disposed radially upward of the circumferential belt and extending axially across a portion of the body ply, wherein the circumferential tread has resistivity of at least 13.7×10 7 ohm-cm; a first sidewall extending between the first annular bead and a first shoulder, the first shoulder being associated with the circumferential tread, wherein the first sidewall has a resistivity of at least 11.9×10 7 ohm-cm; a second sidewall extending between the second annular bead and a second shoulder, the second shoulder being associated with the circumferential tread, wherein the second sidewall has a resistivity of at least 11.9×10 7 ohm-cm; and a plurality of bleeder cords associated with the body ply and disposed circumferentially about the tire, wherein the plurality of bleeder cords includes at least one conductive bleeder cord disposed radially between the circumferential tread and the body ply, wherein the at least one conductive bleeder cord engages one other of the plurality of bleeder cords, and wherein 10-40% of the cords in the plurality of bleeder cords are conductive bleeder cords that dissipate electric charge in the tire. 14. The tire of claim 13 , wherein the at least one conductive bleeder cord and the one other of the plurality of bleeder cords that are in engagement extend parallel to one another. 15. The tire of claim 13 , wherein the at least one conductive bleeder cord and the one other of the plurality of bleeder cords that are in engagement have substantially identical cross sections. 16. The tire of claim 13 , wherein the at least one conductive bleeder cord has an irregular cross section. 17. The tire of claim 13 , wherein the at least one conductive bleeder cord and the one other of the plurality of bleeder cords that are in engagement are joined to one another. 18. The tire of claim 13 , wherein a cross sectional area of the at least one conductive bleeder cord is 10% of a cross sectional area of the one other of the plurality of bleeder cords.