Rotatable cutters and elements for use on earth-boring tools in subterranean boreholes, earth-boring tools including same, and related methods

What is claimed is: 1. A rotatable cutter for use on an earth-boring tool in a subterranean borehole, comprising: a rotatable element comprising a cutting surface over a support structure; and a stationary element comprising: a sleeve defining a cavity, the rotatable element disposed at least partially within the cavity, the rotatable element configured to move relative to the sleeve between a first axial position and a second axial position along a longitudinal axis of the rotatable cutter; and an index positioning feature positioned laterally between the rotatable element and the sleeve, the index positioning feature comprising at least one protrusion and at least one track, wherein engagement of the at least one protrusion in the at least one track is configured to rotate the rotatable element relative to the sleeve when the rotatable element is moved toward the second axial position. 2. The rotatable cutter of claim 1 , further comprising a motivating element interposed between the stationary element and the rotatable element configured to move the rotatable element between the first axial position and the second axial position. 3. The rotatable cutter of claim 1 , wherein interaction between the at least one protrusion and the at least one track is configured to impart rotation on the rotatable element when the rotatable element moves between the first axial position and the second axial position, and wherein the at least one track is configured to substantially inhibit rotation of the rotatable element when the rotatable element is in at least one of the first axial position or the second axial position. 4. The rotatable cutter of claim 1 , wherein the at least one protrusion comprises at least two pins arranged about the longitudinal axis. 5. The rotatable cutter of claim 1 , wherein the at least one protrusion is positioned on the support structure of the rotatable element and the at least one track is defined on the stationary element. 6. The rotatable cutter of claim 1 , wherein the at least one protrusion is positioned on the sleeve and the at least one track is defined on the support structure of the rotatable element. 7. The rotatable cutter of claim 1 , wherein interaction between the at least one protrusion and the at least one track is configured to impart rotation on the rotatable element when the rotatable element moves from the first axial position to the second axial position and when the rotatable element moves from the second axial position to the first axial position. 8. The rotatable cutter of claim 7 , wherein interaction between the at least one protrusion and the at least one track is configured to at least partially inhibit rotation of the rotatable element when the rotatable element is in both the first axial position and the second axial position. 9. The rotatable cutter of claim 1 , wherein rotation of the rotatable element by the index positioning feature is configured to incrementally rotate the cutting surface of the rotatable cutter relative to an earth-boring tool on which the rotatable cutter is attached. 10. The rotatable cutter of claim 9 , wherein the index positioning feature is configured to incrementally rotate the cutting surface a first portion of a desired interval when the rotatable element moves from the first axial position to the second axial position, and a second portion of the desired interval when the rotatable element moves from the second axial position to the first axial position, where the first portion is smaller than the second portion. 11. The rotatable cutter of claim 1 , wherein the rotatable element is associated with a biasing element, where the biasing element is configured to bias the rotatable element in the first axial position in a direction away from the stationary element. 12. An earth-boring tool, comprising: a tool body; and elements carried by the tool body, at least one element of the elements comprising: a movable element comprising a surface configured to engage a portion of a subterranean borehole; a sleeve element coupled to the movable element, the movable element configured to move relative to the sleeve element between a first axial position and a second axial position along a longitudinal axis of the movable element; and an index positioning feature defined between the movable element and the sleeve element, the index positioning feature configured to rotate the movable element relative to the sleeve element when the movable element is moved from the first axial position toward the second axial position and when the movable element is moved from the second axial position toward the first axial position. 13. The earth-boring tool of claim 12 , wherein the index positioning feature further comprises at least one protrusion and at least one track, wherein the interaction between the at least one protrusion and the at least one track is configured to at least partially inhibit rotation of the movable element when the movable element is in both the first axial position and the second axial position. 14. The earth-boring tool of claim 12 , wherein the index positioning feature further comprises at least one pin retained in a track, the track configured to impart rotation on the movable element when the movable element slides between the first axial position and the second axial position the track being configured to stop rotation when the movable element is in the first axial position or the second axial position. 15. The earth-boring tool of claim 12 , wherein the index positioning feature comprises at least one pin disposed within a support structure of the movable element and at least one track disposed within the stationary element. 16. The earth-boring tool of claim 12 , wherein the index positioning feature comprises at least one pin disposed within the stationary element and at least one track disposed within the support structure of the movable element. 17. A method of reorienting a cutting face of a cutting element on an earth-boring tool for use in a subterranean borehole, the method comprising: translating an inner cutting element component comprising a cutting face and at least partially disposed in an outer sleeve between a first axial position and a second axial position along a longitudinal axis of the cutting element; rotating the inner cutting element component with an index positioning feature as the inner cutting element component is translated between the first axial position and the second axial position; and at least partially impeding rotation of the inner cutting element component when the inner cutting element component is in at least one of the first axial position or the second axial position with the index positioning feature. 18. The method of claim 17 , further comprising biasing the inner cutting element component toward the first axial position with a biasing element. 19. The method of claim 17 , wherein rotating the inner cutting element component with the index positioning feature comprises turning the inner cutting element component in response to travel of at least one pin through a track of the index positioning feature. 20. The method of claim 19 , wherein at least partially impeding rotation of the inner cutting element component comprises at least partially preventing travel of the at least one pin in the track of the index positioning feature.