Powered surgical cutting and stapling apparatus with manually retractable firing system

What is claimed is: 1. A surgical fastening apparatus, comprising: an end effector comprising a firing member, wherein said firing member is movable between a starting position and an ending position within said end effector; a rotary drive shaft operably interfacing with said movable firing member such that rotation of said rotary drive shaft in a first rotary output direction causes said movable firing member to linearly advance in a distal direction within said end effector and rotation of said rotary drive shaft in a second rotary output direction causes said movable firing member to linearly retract in a proximal direction within said end effector; a motor mechanically coupleable with said rotary drive shaft such that operation of said motor in a first rotary input direction causes said rotary drive shaft to rotate in said first rotary output direction and operation of said motor in a second rotary input direction causes said rotary drive shaft to rotate in said second rotary output direction; and a manually actuatable bailout system configured to selectively mechanically decouple said motor from said rotary drive shaft and manually apply rotary control motions to said rotary drive shaft in said second rotary output direction. 2. The surgical fastening apparatus of claim 1 , wherein said firing member comprises a cutting member, and wherein a drive nut operably interfaces said rotary drive shaft with said cutting member. 3. The surgical fastening apparatus of claim 2 , wherein said rotary drive shaft comprises a helical thread formed on an outer surface thereof and is in threaded engagement with said drive nut. 4. The surgical fastening apparatus of claim 1 , wherein said motor comprises a rotary drive gear, and wherein said manually actuatable bailout system comprises: a pinion gear movable between an engaged position wherein said pinion gear is in meshing engagement with said rotary drive gear and a disengaged position wherein said pinion is disengaged from said rotary drive gear; and means for selectively retaining said pinion gear in said engaged position, wherein said means automatically moves said pinion gear to said disengaged position upon the actuation of said means. 5. The surgical fastening apparatus of claim 1 , wherein said motor comprises an electric motor powered by a battery, and wherein said manually actuatable bailout system is configured to selectively electrically decouple said electric motor from said battery. 6. The surgical fastening apparatus of claim 5 , wherein said battery cannot apply a voltage potential to said electric motor when said bailout system has electrically decoupled said battery from said electric motor. 7. The surgical fastening apparatus of claim 1 , wherein said end effector comprises: a first jaw; a second jaw, wherein said first jaw is movable relative to said second jaw between an open position and a closed position; and a fastener cartridge comprising a plurality of fasteners removably stored therein. 8. The surgical fastening apparatus of claim 7 , wherein said fastener cartridge is supported by said second jaw. 9. The surgical fastening apparatus of claim 1 , wherein said motor is supported in a handle, and wherein said manually actuatable bailout system is supported by said handle. 10. The surgical fastening apparatus of claim 9 , wherein said movable firing member linearly moves along a shaft axis, and wherein said manually actuatable bailout system comprises a retraction lever movably supported on said handle, said retraction lever being manually movable along another axis that is transverse to said shaft axis. 11. A surgical fastening apparatus, comprising: an end effector, comprising: a first jaw; a second jaw, wherein said first jaw is movable relative to said second jaw between an open position and a closed position; and a fastener cartridge comprising a plurality of fasteners removably stored therein; and a firing member movable between a starting position and an ending position within said end effector; a handle; a rotary drive shaft operably interfacing with said movable firing member such that rotation of said rotary drive shaft in a first rotary output direction causes said movable firing member to linearly advance in a distal direction within said end effector and rotation of said rotary drive shaft in a second rotary output direction causes said movable firing member to linearly retract in a proximal direction within said end effector; an electric motor supported by said handle and being mechanically coupleable with said rotary drive shaft such that operation of said electric motor in a first rotary input direction causes said rotary drive shaft to rotate in said first rotary output direction and operation of said electric motor in a second rotary input direction causes said rotary drive shaft to rotate in said second rotary output direction; a battery supported by said handle and being configured to supply power to said electric motor; and a manually actuatable bailout system supported by said handle and being configured to selectively mechanically decouple said electric motor from said rotary drive shaft and manually apply rotary control motions to said rotary drive shaft in said second rotary output direction. 12. The surgical fastening apparatus of claim 11 , wherein said fastener cartridge is supported by said second jaw. 13. The surgical fastening apparatus of claim 11 , wherein said movable firing member linearly moves along a shaft axis, and wherein said manually actuatable bailout system comprises a retraction lever movably supported on said handle, said retraction lever being manually movable along another axis that is transverse to said shaft axis. 14. A surgical fastening apparatus, comprising: an end effector comprising a firing member, wherein said firing member is movable between a starting position and an ending position within said end effector; a rotary drive shaft operably interfacing with said movable firing member such that rotation of said rotary drive shaft in a first rotary output direction causes said movable firing member to linearly advance in a distal direction within said end effector and rotation of said rotary drive shaft in a second rotary output direction causes said movable firing member to linearly retract in a proximal direction within said end effector; a motor mechanically coupleable with said rotary drive shaft such that operation of said motor in a first rotary input direction causes said rotary drive shaft to rotate in said first rotary output direction and operation of said motor in a second rotary input direction causes said rotary drive shaft to rotate in said second rotary output direction; and a manually actuatable means for selectively mechanically decoupling said motor from said rotary drive shaft and manually applying rotary control motions to said rotary drive shaft in said second rotary output direction. 15. The surgical fastening apparatus of claim 14 , wherein said firing member comprises a cutting member, and wherein a drive nut operably interfaces said rotary drive shaft with said cutting member. 16. The surgical fastening apparatus of claim 15 , wherein said rotary drive shaft comprises a helical thread formed on an outer surface thereof and in threaded engagement with said drive nut. 17. The surgical fastening apparatus of claim 14 , wherein said motor comprises an electric motor powered by a battery and wherein said manually actuatable means is configured to selectively electrically decouple said electric motor from said battery.