Mobility vehicle

What is claimed is: 1. A mobility vehicle, comprising: a frame having a longitudinal axis; and a steering assembly coupled to the frame and having a steering input, a left front wheel, a right front wheel, and a steering linkage, wherein the steering assembly is configured and dimensioned to steer the vehicle based on input from the steering input, and such that each of the left front wheel and the right front wheel have: a maximum inward turn angle characterized by a limit to which either the left front wheel or right front wheel can turn toward the longitudinal axis, and a maximum outward turn angle characterized by a limit to which either the left front wheel or right front wheel can turn away from the longitudinal axis, and wherein when one of the left front wheel or the right front wheel is an outside wheel turned to a respective left or right maximum inward turn angle, the other of the left front wheel or right front wheel is an inside wheel turned to an intermediate maximum outward turn angle that is less than the maximum outward turn angle unless a biasing force is applied to the inside wheel to urge the inside wheel to a respective maximum outward turn angle. 2. The vehicle of claim 1 , further comprising: a first motor coupled to at least one controller and a first drive wheel and a second motor coupled to the at least one controller and a second drive wheel, wherein the first drive wheel is driven by the first motor and the second drive wheel is driven, independently of the first motor, by the second motor in response to one or more drive signals from the at least one controller. 3. The vehicle of claim 2 , wherein the first motor is configured to drive the first drive wheel in a first direction and the second motor is configured to drive the second drive wheel in a second direction opposite the first direction. 4. The vehicle of claim 2 , wherein the first motor receives a first drive signal of the one or more drive signals from the at least one controller to drive the first drive wheel and the second motor receives a second drive signal of the one or more drive signals from the at least one controller to drive the second drive wheel. 5. The vehicle of claim 4 , wherein the second drive signal represents a current magnitude such that, when the drive signal is received by the second motor, the drive signal causes the second motor to drive the inner drive wheel at a speed of 0 revolutions per minute. 6. The vehicle of claim 2 , wherein, while the vehicle is turning in a left or right direction, the first drive wheel is the outer drive wheel and the second drive wheel is the inner drive wheel, the inner drive wheel being closer to a center of a turning path of the vehicle than the outer drive wheel and wherein the first motor is configured to drive the outer drive wheel in a first direction at a speed greater than 0 revolutions per minute and the second motor is configured to drive the inner drive wheel at a speed of 0 revolutions per minute. 7. The vehicle of claim 2 , wherein the at least one controller is configured to: receive one or more position signals related to the position of the steering input and at least one of i) a rate of change of position of the steering input, and ii) a steering position time; and command the first motor and the second motor to drive the first drive wheel and the second drive wheel in opposite directions based upon the one or more position signals. 8. The vehicle of claim 1 , wherein the biasing force is a result of a difference between a voltage in a first drive signal provided to a first motor to drive a first drive wheel and a voltage in a second drive signal provided to a second motor to drive a second drive wheel. 9. The vehicle of claim 1 , wherein the biasing force is applied to the inside wheel independent of the movement of the steering input. 10. The vehicle of claim 1 , wherein a tiller, when operated by a user, is configured to turn the inside wheel up to, without exceeding, the intermediate maximum outward turn angle. 11. The vehicle of claim 1 , wherein the biasing force includes a force exerted by the ground. 12. The vehicle of claim 1 , wherein the intermediate maximum outward turn angle is different from the maximum outward turn angle by approximately 10°. 13. The vehicle of claim 1 , wherein the steering linkage is configured to engage a stop when one of the left front wheel or the right front wheel reaches the respective maximum outward turn angle to prevent the left or right front wheel from turning beyond the respective maximum outward turn angle. 14. The vehicle of claim 1 , wherein the steering assembly further comprises: a steering stem, a stem tab coupled to the steering stem, an axle beam pivotably mounted to the frame, the axle beam comprising a left stop and a right stop, a left king pin and a right king pin coupled to the axle beam, and a left tie rod and a right tie rod, each of the left tie rod and right tie rod being pivotably coupled to the stem tab and to one of the left king pin and the right king pin, wherein each of the left tie rod and right tie rod is configured to pivot in response to movement of the steering input and to engage one of the left stop or the right stop when one of the left front wheel or the right front wheel reaches a respective maximum outward turn angle to prevent said left front wheel or right front wheel from turning beyond the respective maximum outward turn angle. 15. The vehicle of claim 14 , wherein the left king pin is rotatable about a left king pin axis and the right king pin is rotatable about a right king pin axis, and wherein each of the left king pin and the right king pin is pivotably coupled to one of the left tie rod and the right tie rod respectively such that movement of the left tie rod or right tie rod translates relative to the axle beam when the left king pin or right king pin rotates about the respective left king pin axis and right king pin axis. 16. The vehicle of claim 14 , wherein the axle beam is further coupled to the frame with at least one suspension member configured to allow each of the left front wheel and the right front wheel to translate relative to the frame. 17. The vehicle of claim 14 further comprising: a left and a right steering arm coupled to the left and right king pin respectively, each of the left and right steering arm being rotatable about and projecting from the left and right king pin axis respectively; and a left and right wheel axle coupled to the left and right king pin respectively, each of the left and right wheel axle being rotatable about the left and right king pin axis respectively and projecting from the left and right king pin respectively, the left front wheel and right front wheel being rotatable about the respective left and right wheel axle, wherein each of the left and right steering arm is fixed relative to the left and right wheel axle respectively at an angle of approximately 73°. 18. The vehicle of claim 17 , wherein the each of the left and right king pin axes is oriented relative to the frame at a camber angle of approximately 4 degrees. 19. A mobility vehicle comprising: a frame having a longitudinal axis; a steering assembly coupled to the frame and having a steering input, a left front wheel, a right front wheel, and a steering linkage, the steering assembly configured and dimensioned to steer the vehicle based on input from the steering input, and; a steering position sensor configured to detect a position of the steering input; and at least