Expanding flow nozzle

What is claimed is: 1. An expandable, steerable nozzle for a device, the nozzle comprising: a rigid ring mounted to the device and operatively coupled to a steering mechanism of the device; a rigid plate; and a flexible bellows coupling the ring to the plate according to a configurable operating angle, so that a fluid traversing the ring and contacting the plate produces a reactive force according to the operating angle; wherein the flexible bellows has a first configuration in which the nozzle does not extend beyond an exterior surface of the device, and a second configuration in which the nozzle extends beyond the exterior surface of the device. 2. A nozzle according to claim 1 , wherein either or both of the ring and the plate comprises a plastic, a metal, a composite material, or any combination of these. 3. A nozzle according to claim 1 , wherein the flexible bellows comprises a rubber, a flexible plastic, a fabric, or any combination of these. 4. A nozzle according to claim 1 , wherein the steering mechanism of the device comprises a gear, and the ring has teeth that mesh with teeth of the gear. 5. A nozzle according to claim 1 , wherein the flexible bellows is shaped so that, in the second configuration, the operating angle is between 0 and 90 degrees. 6. A nozzle according to claim 5 , wherein the operating angle is approximately 15 degrees. 7. A nozzle according to claim 1 , further comprising a rod for retaining the nozzle to the steering mechanism, the rod mechanically coupled to the plate. 8. A nozzle according to claim 7 , wherein the ring comprises a bearing for the rod. 9. A nozzle according to claim 7 , wherein the rod comprises a metal, a plastic, a composite material, or any combination of these. 10. An unmanned underwater vehicle (UUV) comprising: a steering mechanism; and an expandable, steerable nozzle having: a rigid ring operatively coupled to the steering mechanism; a rigid plate; and a flexible bellows coupling the ring to the plate according to a configurable operating angle, so that a fluid traversing the ring and contacting the plate produces a reactive force according to the operating angle; wherein the flexible bellows has a first configuration in which the nozzle does not extend beyond an exterior surface of the UUV, and a second configuration in which the nozzle extends beyond the exterior surface of the UUV. 11. A vehicle according to claim 10 , wherein either or both of the ring and the plate comprises a plastic, a metal, a composite material, or any combination of these. 12. A vehicle according to claim 10 , wherein the flexible bellows comprises a rubber, a flexible plastic, a fabric, or any combination of these. 13. A vehicle according to claim 10 , wherein the steering mechanism of the device comprises a gear, and the ring has teeth that mesh with teeth of the gear. 14. A vehicle according to claim 10 , wherein the flexible bellows is shaped so that, in the second configuration, the operating angle is between 0 and 90degrees. 15. A vehicle according to claim 14 , wherein the operating angle is approximately 15 degrees. 16. A vehicle according to claim 10 , further comprising a rod for retaining the nozzle to the steering mechanism, the rod mechanically coupled to the plate. 17. A vehicle according to claim 16 , wherein the ring comprises a bearing for the rod. 18. A vehicle according to claim 16 , wherein the rod comprises a metal, a plastic, a composite material, or any combination of these. 19. A method of operating an unmanned underwater vehicle (UUV), the method comprising: containing the UUV within a housing, the UUV comprising a steering mechanism and an expandable, steerable nozzle having (a) a rigid ring operatively coupled to the steering mechanism, (b) a rigid plate, and (c) a flexible bellows coupling the ring to the plate according to a configurable operating angle; wherein containing the UUV includes compressing, by an interior surface of the housing, the flexible bellows into a first configuration; and ejecting the UUV from the housing, thereby causing the flexible bellows to expand into a second configuration having a different operating angle than the first configuration; wherein when the flexible bellows is in the second configuration, water traversing the rings and contacting the plate produces a reactive force for steering the UUV according to the operating angle. 20. A method according to claim 19 , further comprising controlling a position or orientation of the underwater vehicle according to a guidance objective by automatically varying a volume of the water traversing the ring, automatically steering the reactive force using the steering mechanism, automatically varying the operating angle of the flexible bellows, or any combination thereof.