High impact strength lighted nock assembly

What is claimed is: 1. A high impact strength lighted nock assembly for an arrow that is activated when the arrow is fired with a bowstring, the lighted nock assembly comprising: a nock molded from a transparent, high impact strength polymeric material containing at least 10% by weight reinforcing material, the nock comprising a head configured to engage with the bowstring and a shank configured to couple with a bushing extending into a rear end of the arrow, the shank comprising a recess extending in a distal end of the shank toward the head; a light assembly comprising a light emitting device located in the recess in the shank that is electrically coupled to a battery, wherein the light emitting device is in a deactivated state before the arrow is fired and an activated state after the arrow is fired; and a battery stop attached to the battery at a location offset from the nock and releasable coupled within a center opening of the bushing to resist longitudinal translation of the battery relative to the bushing, wherein the nock translates within the center opening between an activated configuration that activates the light emitting device and a deactivated configuration that deactivates the light emitting device without removing the light assembly from the bushing. 2. The lighted nock assembly of claim 1 wherein the polymeric material comprises one of polycarbonate, polyurethane, polyetherimide, nylon, polyetheretherketone, polyetherketone, thermoplastic polyimide, or combinations thereof. 3. The lighted nock assembly of claim 1 wherein the reinforcing material comprise about 20% by weight glass fibers or filamentous glass. 4. The lighted nock assembly of claim 1 wherein the reinforcing material comprises an average aspect ratio of at least about 5:1. 5. The lighted nock assembly of claim 1 wherein the reinforcing material comprises an average aspect ratio of at least about 10:1. 6. The lighted nock assembly of claim 1 wherein the polymeric material comprises a tensile strength of greater than about 10,000 pounds per square inch (psi) as determined by ASTM D638. 7. The lighted nock assembly of claim 1 wherein the polymeric material comprises a flexural strength of greater than about 20,000 psi as determined by ASTM D790. 8. The lighted nock assembly of claim 1 wherein the polymeric material comprises a flexural modulus of greater than 0.50×10 6 psi as determined by ASTM D790. 9. The lighted nock assembly of claim 1 wherein a portion of the light emitted by the light emitting device is transmitted through the nock and a portion of the light is scattered by the reinforcing material. 10. The lighted nock assembly of claim 1 wherein the polymeric material comprises a light transmittance of at least 75%. 11. The lighted nock assembly of claim 1 comprising a bushing interposed between the nock and the arrow, wherein the battery is at least partially located in a center opening in the bushing. 12. The lighted nock assembly of claim 1 wherein the light assembly is normally biased to a deactivated configuration. 13. The lighted nock assembly of claim 1 comprising a gap between the head of the nock and the rear of the arrow before the arrow is fired, wherein displacement of the head of the nock toward the rear of the arrow after the arrow is fired biases the light assembly to an activated configuration. 14. The lighted nock assembly of claim 13 wherein the light assembly automatically returns to the deactivated configuration when the gap between the head of the nock and the rear of the arrow is reestablished. 15. The lighted nock assembly of claim 1 comprising a switch electrically coupling to the light emitting device to the battery that is triggered when the arrow is fired to convert the light emitting device from the deactivated state to the activated state. 16. The lighted nock assembly of claim 1 comprising a switch electrically coupling to the light emitting device to the battery, wherein the switch comprises at least one accelerometer that is triggered when the arrow is fired to convert the light emitting device from the deactivated state to the activated state. 17. The lighted nock assembly of claim 16 wherein the switch comprises at least two accelerometers acting along orthogonal axes. 18. A high impact strength lighted nock assembly for an arrow that is activated when the arrow is fired with a bowstring, the lighted nock assembly comprising: a nock molded from a high impact strength, transparent polymeric material containing about 20% by weight reinforcing material, wherein the polymeric material comprises a tensile strength of greater than about 10,000 pounds per square inch (psi) as determined by ASTM D638 and a flexural strength of greater than about 20,000 psi as determined by ASTM D790, the nock comprising a head configured to engage with the bowstring and a shank configured to couple with a bushing extending into a rear end of the arrow, the shank comprising a recess extending from a distal end of the shank toward the head; a light assembly comprising a light emitting device located in the recess in the shank that is electrically coupled to a battery, wherein the light emitting device is in a deactivated state before the arrow is fired and an activated state after the arrow is fired; and a battery stop attached to the battery at a location offset from the nock and releasably coupled within a center opening of the bushing to resist longitudinal translation of the battery relative to the bushing, wherein the nock translates within the center opening between an activated configuration that activates the light emitting device and a deactivated configuration that deactivates the light emitting device without removing the light assembly from the bushing. 19. A high impact strength lighted nock assembly for an arrow that is activated when the arrow is fired with a bowstring, the lighted nock assembly comprising: a nock molded from a transparent, high impact strength polymeric material containing at least 10% by weight reinforcing material, the nock comprising a head configured to engage with the bowstring, a shank configured to couple with a bushing extending into a rear end of the arrow, the shank extending in a distal end of the arrow toward the head; and a light assembly comprising a light emitting device that is electrically coupled to a battery, wherein the light emitting device is in a deactivated state before the arrow is fired and an activated state after the arrow is fired; and a battery stop attached to the battery at a location offset from the nock and releasably coupled within a center opening of the bushing to resist longitudinal translation of the battery relative to the bushing, wherein the nock translates within the center opening between an activated configuration that activates the light emitting device and a deactivated configuration that deactivates the light emitting device without removing the light assembly from the bushing.