Vibration damper

What is claimed is: 1. A vibration damper for damping a vibration of a cable, the vibration damper comprising: an attachment portion configured to be attached to the cable, the attachment portion including a clamp for fixed attachment to the cable; a first flexible leg portion attached to the attachment portion; a second flexible leg portion attached to the attachment portion; and a weighted portion attached to the first flexible leg portion and the second flexible leg portion, the weighted portion spaced a distance from the attachment portion. 2. The vibration damper of claim 1 , wherein the attachment portion is crimped around the first flexible leg portion and the second flexible leg portion to attach the first flexible leg portion and the second flexible leg portion to the attachment portion. 3. The vibration damper of claim 1 , wherein the weighted portion defines: a first opening into which the first flexible leg portion is received; and a second opening into which the second flexible leg portion is received. 4. The vibration damper of claim 1 , comprising: a first fitting configured to attach the first flexible leg portion to the weighted portion; and a second fitting configured to attach the second flexible leg portion to the weighted portion. 5. The vibration damper of claim 1 , comprising an attachment structure attached to the attachment portion configured to attach the attachment portion to the cable. 6. The vibration damper of claim 1 , wherein: the first flexible leg portion extends along a first leg axis, the second flexible leg portion extends along a second leg axis, and the first leg axis and the second leg axis lie within a plane perpendicular to a line passing through the cable and between the first flexible leg portion and the second flexible leg portion. 7. A vibration damper for damping a vibration of a cable, the vibration damper comprising: an attachment portion configured to be attached to the cable, the attachment portion including a clamp for fixed attachment to the cable, the attachment portion having a first attachment side and a second attachment side; a first flexible leg portion attached to the attachment portion, the first flexible leg portion extending away from the first attachment side and extending away from the second attachment side; a second flexible leg portion attached to the attachment portion, the second flexible leg portion extending away from the first attachment side and extending away from the second attachment side; a first weighted portion attached to the first flexible leg portion and the second flexible leg portion, the first weighted portion spaced a first separation distance from the first attachment side; and a second weighted portion attached to the first flexible leg portion and the second flexible leg portion, the second weighted portion spaced a second separation distance from the second attachment side. 8. The vibration damper of claim 7 , wherein the first separation distance is not equal to the second separation distance. 9. The vibration damper of claim 7 , wherein: the cable extends along a cable axis, the first flexible leg portion extends along a first leg axis, the second flexible leg portion extends along a second leg axis, and the first leg axis and the second leg axis lie within a first plane perpendicular to a second plane extending along the cable axis. 10. The vibration damper of claim 7 , wherein the first flexible leg portion has a first length that is equal to a second length of the second flexible leg portion. 11. The vibration damper of claim 7 , wherein the first weighted portion has a first weight that is not equal to a second weight of the second weighted portion. 12. The vibration damper of claim 7 , wherein: the first flexible leg portion has a first section and a second section, the second flexible leg portion has a third section and a fourth section, the first section and third section extend away from the first attachment side toward the first weighted portion, and the second section and the fourth section extend away from the second attachment side toward the second weighted portion. 13. The vibration damper of claim 12 , wherein: the first section has a first diameter; the second section has a second diameter; the third section has a third diameter; the fourth section has a fourth diameter; the first diameter is equal to the third diameter; and the second diameter is equal to the fourth diameter. 14. A method of damping a vibration of a cable comprising: attaching a vibration damper to the cable, the vibration damper comprising: an attachment portion configured to be attached to the cable, the attachment portion including a clamp for fixed attachment to the cable; a first flexible leg portion attached to the attachment portion and extending along a first leg axis; a second flexible leg portion attached to the attachment portion and extending along a second leg axis; and a weighted portion attached to the first flexible leg portion and the second flexible leg portion; and damping the vibration of the cable through first movement of the weighted portion in a first direction: perpendicular to at least one of the first leg axis or the second leg axis; and at least one of toward the cable or away from the cable. 15. The method of claim 14 , comprising: inhibiting second movement of the weighted portion in a second direction perpendicular to the first direction. 16. The method of claim 15 , wherein inhibiting the second movement comprises: inducing a tension force in the first flexible leg portion and inducing a compression force in the second flexible leg portion. 17. The method of claim 14 , wherein the first leg axis is parallel to the second leg axis. 18. The method of claim 14 , wherein: the first flexible leg portion has a first point that is a first distance from a mid-point of the attachment portion and the first flexible leg portion is attached to the attachment portion at the first point; the second flexible leg portion has a second point that is a second distance from the mid-point of the attachment portion and the second flexible leg portion is attached to the attachment portion at the second point; the first distance is equal to the second distance; the weighted portion attached to the first flexible leg portion at the first point; and the weighted portion attached to the second flexible leg portion at the second point. 19. The method of claim 14 , wherein the first direction of the first movement of the weighted portion is perpendicular to a plane within which the first leg axis and the second leg axis lie. 20. The method of claim 19 , comprising: inhibiting second movement of the weighted portion in a second direction parallel to the plane.