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A device including an outboard motor including a jet outlet portion, a stabilizer plate, and a rudder, where the stabilizer plate includes a first end portion and a second end portion, where the first end portion is proximal to the jet outlet portion, where the second end portion is distal to the je

A device including an outboard motor including a jet outlet portion, a stabilizer plate, and a rudder, where the stabilizer plate includes a first end portion and a second end portion, where the first end portion is proximal to the jet outlet portion, where the second end portion is distal to the jet outlet portion, where the rudder extends from the stabilizer plate between the first end portion and the second end portion.

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1. An outboard motor comprising: a midsection, a lower unit, a jet outlet portion, a first stabilizer plate, a second stabilizer plate, a first rudder, and a second rudder, wherein the first stabilizer plate includes a first end portion and a second end portion, wherein the first end portion is prox

1. An outboard motor comprising: a midsection, a lower unit, a jet outlet portion, a first stabilizer plate, a second stabilizer plate, a first rudder, and a second rudder, wherein the first stabilizer plate includes a first end portion and a second end portion, wherein the first end portion is proximal to the jet outlet portion, wherein the second end portion is distal to the jet outlet portion, wherein the first rudder extends from the first stabilizer plate between the first end portion and the second end portion, wherein the second rudder extends from the second stabilizer plate, wherein the lower unit includes the jet outlet portion, wherein the lower unit extends between the first stabilizer plate and the second stabilizer plate, wherein at least one of:the first stabilizer plate and the second stabilizer plate are configured to controllably flap with respect to the lower unit toward the midsection and away from the midsection, orthe first rudder and the second rudder are configured to controllably pivot with respect to the first stabilizer plate and the second stabilizer plate toward the midsection and away from the midsection. 2. The outboard motor of claim 1, wherein at least one of the first rudder or the second rudder is flexible. 3. The outboard motor of claim 1, wherein at least one of the first rudder or the second rudder includes a sensor. 4. The outboard motor of claim 1, wherein at least one of the first stabilizer plate and the first rudder are in a first T-shape relationship, or the second stabilizer plate and the second rudder are in a second T-shape relationship. 5. The outboard motor of claim 1, wherein the first rudder is parallel to the second rudder. 6. The outboard motor of claim 1, wherein the first rudder is non-parallel to the second rudder. 7. The outboard motor of claim 1, wherein the first rudder extends from the first stabilizer plate in a first direction and the second rudder extends from the second stabilizer plate in a second direction, wherein the first direction opposes the second direction. 8. The outboard motor of claim 1, wherein the first rudder and the second rudder are structurally different. 9. The outboard motor of claim 1, wherein the first rudder and the second rudder are structurally identical. 10. The outboard motor of claim 1, wherein the second rudder is distal to the lower unit. 11. The outboard motor of claim 1, wherein at least one of the first rudder or the second rudder includes a light source. 12. The outboard motor of claim 11, wherein the light source includes a black light. 13. A method of coupling a rudder to a stabilizer plate of an outboard motor, the method comprising: accessing an outboard motor including a midsection, a lower unit, a jet outlet portion, a first stabilizer plate, and a second stabilizer plate, wherein the first stabilizer plate includes a first end portion and a second end portion, wherein the first end portion is proximal to the jet outlet portion, wherein the second end portion is distal to the jet outlet portion, wherein the lower unit includes the jet outlet portion, wherein the lower unit extends between the first stabilizer plate and the second stabilizer plate;coupling a first rudder to the first stabilizer plate between the first end portion and the second end portion; andextending a second rudder from the second stabilizer plate,wherein at least one of: the first stabilizer plate and the second stabilizer plate are configured to controllably flap with respect to the lower unit toward the midsection and away from the midsection, orthe first rudder and the second rudder are configured to controllably pivot with respect to the first stabilizer plate and the second stabilizer plate toward the midsection and away from the midsection. 14. A method of operating a boat, the method comprising: moving a boat with an outboard motor, wherein the outboard motor is equipped with a midsection, a lower unit, a jet outlet portion, a first stabilizer plate, a second stabilizer plate, a first rudder, and a second rudder, wherein the first stabilizer plate includes a first end portion and a second end portion, wherein the first end portion is proximal to the jet outlet portion, wherein the second end portion is distal to the jet outlet portion, wherein the first rudder extends from the first stabilizer plate between the first end portion and the second end portion, wherein the second rudder extends from the second stabilizer plate, wherein the lower unit includes the jet outlet portion, wherein the lower unit extends between the first stabilizer plate and the second stabilizer plate, wherein at least one of: the first stabilizer plate and the second stabilizer plate are configured to controllably flap with respect to the lower unit toward the midsection and away from the midsection, orthe first rudder and the second rudder are configured to controllably pivot with respect to the first stabilizer plate and the second stabilizer plate toward the midsection and away from the midsection; andsteering the boat with at least one of the first rudder or the second rudder. 15. The outboard motor of claim 1, wherein the first stabilizer plate and the second stabilizer plate are configured to controllably flap with respect to the lower unit toward the midsection and away from the midsection. 16. The outboard motor of claim 1, wherein the first rudder and the second rudder are configured to controllably pivot with respect to the first stabilizer plate and the second stabilizer plate toward the jet outlet portion and away from the jet outlet portion.