Bottom pan torque bearing attachment

That which is claimed is: 1. A torque bearing attachment for a passenger seat, the attachment comprising: an elongated body comprising a hollow conduit, a flat upper surface, and a concave lower surface; a first bearing element configured for connecting the torque bearing attachment with a passenger seat frame and connected with the elongated body at a first end of the elongated body; a second bearing element configured for connecting the torque bearing attachment with the passenger seat frame and connected with the elongated body at a second end of the elongated body opposite the first end; and one or more connecting features positioned at a forward edge of the elongated body between the first end and second end, and configured to receive an aft end of a seat bottom panel. 2. The torque bearing attachment of claim 1 , wherein the elongated body further comprises a ramped upper surface from the forward edge to the flat upper surface, and wherein the flat upper surface terminates at an aft edge of the elongated body. 3. The torque bearing attachment of claim 1 , wherein the elongated body comprises a trussed construction comprising at least three integrally joined or coextruded elongate panels configured to resist bending. 4. The torque bearing attachment of claim 1 , wherein the elongated body comprises an extruded structural member connected with the first and second bearing elements. 5. The torque bearing attachment of claim 1 , wherein the forward edge of the elongated body comprises a channel sized to receive the aft end of the seat bottom panel to a nonzero depth. 6. The torque bearing attachment of claim 5 , wherein the nonzero depth is preferably in a range of 0.635 cm to 6.35 cm. 7. The torque bearing attachment of claim 1 , wherein: the first bearing element comprises a first bearing configured to movably mate with a first receiving element of the passenger seat frame; and the second bearing element comprises a second bearing configured to movably mate with a second receiving element of the passenger seat frame. 8. The torque bearing attachment of claim 1 , wherein: the first bearing element comprises a first roller configured to be received in a first roller track connected with the passenger seat frame; and the second bearing element comprises a second roller configured to be received in a second roller track connected with the passenger seat frame. 9. The torque bearing attachment of claim 1 , further comprising the seat bottom panel connected with the elongated body at the forward edge of the elongated body, wherein the seat bottom panel comprises a substantially flat composite panel. 10. A passenger seat, comprising: a seat frame; and a seat bottom assembly connected with the seat frame, the seat bottom assembly comprising: a torque bearing attachment comprising an elongated body comprising a hollow conduit, a flat upper surface, and a concave lower surface; a first bearing element at a first end of the elongated body connecting the torque bearing attachment with the seat frame; a second bearing element at a second end of the elongated body opposite the first end and connecting the torque bearing attachment with the seat frame; and a substantially flat seat bottom panel connected with a forward edge of the elongated body. 11. The passenger seat of claim 10 , wherein the first bearing element and second bearing element comprise rotating connectors configured to permit the seat bottom assembly to pivot with respect to the seat frame. 12. The passenger seat of claim 10 , wherein: the seat frame further comprises a first roller track and a second roller track positioned proximate an aft end of the seat bottom assembly; and the first bearing element and second bearing element comprise respective first and second rollers that mate with the first roller track and second roller track and permit the seat bottom assembly to articulate forward and aft by the first and second rollers rolling on the first and second roller tracks. 13. The passenger seat of claim 12 , wherein: the elongated body comprises a ramped shape from the forward edge of the elongated body to an aft edge of the elongated body, the ramped shape configured to clear the seat frame when the seat bottom assembly articulates forward or aft. 14. The passenger seat of claim 12 , wherein the first roller track and second roller track are configured to cause the first roller and the second roller, respectively, to move downward when the seat bottom assembly articulates forward, and to move upward when the seat bottom assembly moves aft, such that the seat bottom assembly tilts in response to being moved forward and levels in response to being moved aft. 15. The passenger seat of claim 10 , further comprising: a seat back assembly comprising a seat back and a mechanical linkage connected with a lower extent of the seat back, the mechanical linkage pivotally connected with the torque bearing attachment such that, when the seat back assembly actuates, the seat bottom assembly actuates in tandem with the seat back assembly. 16. The passenger seat of claim 15 , wherein the mechanical linkage comprises a first mechanical fuse and a second mechanical fuse, the first and second mechanical fuses connected with the torque bearing attachment at the first end of the elongated body and at the second end of the elongated body, respectively. 17. A method of installing a seat bottom assembly in a passenger seat, the method comprising: a torque bearing attachment comprising an elongated body comprising a channel along a forward edge of the elongated body, a first bearing element connected with the elongated body at a first end of the elongated body, and a second bearing element connected with the elongated body at a second end of the elongated body opposite the first end; partially inserting a substantially planar seat bottom panel into the channel of the forward edge of the elongated body of the torque bearing assembly; and connecting the assembled torque bearing attachment and seat bottom panel with a frame of the passenger seat by attaching the first bearing element with a first receiving element connected to the frame and by attaching the second bearing element with a second receiving element connected to the frame. 18. The method of claim 17 , further comprising: securing the seat bottom panel to the elongated body of the torque bearing attachment by installing one or more connectors through the seat bottom panel and one or more flanged elements of the channel along the forward edge. 19. The method of claim 17 , wherein: the first bearing element and the second bearing element comprise respective first and second rollers; the first receiving element and the second receiving element comprise respective first and second roller tracks configured to receive the first and second rollers, respectively; and connecting the assembled torque bearing attachment and seat bottom panel with the frame of the passenger seat comprises mating the first bearing element and second bearing element with the first roller track and second roller track, respectively. 20. The method of claim 17 , further comprising: attaching a mechanical linkage with both of a lower extent of a reclinable seat back assembly of the passenger seat and with the torque bearing attachment such that, when the seat back assembly actuates, the seat bottom assembly actuates in tandem with the seat back assembly.