Vehicle wheel location and path determination

What is claimed is: 1. A vehicle, comprising: a vehicle body including suspension components; multiple wheels coupled to the vehicle body by the suspension components; a suspension sensor coupled to one of the suspension components or at least one of said multiple wheels; a camera carried by the vehicle body; a display carried by the vehicle body and connected to the camera to display at least part of the camera view; a processor receiving input from the suspension sensor; and memory coupled to the processor and including a program from which an actual horizontal wheel position is determined as a function of a vertical position of the at least one of said multiple wheels, wherein the actual horizontal wheel position changes with movement of at least one of the suspension components relative to the vehicle body and resulting changes in the vertical position of the at least one of said multiple wheels relative to the vehicle body, wherein the processor causes an image representative of the actual horizontal wheel position to appear on the display, and wherein vertical is in the direction of gravity and horizontal is perpendicular to the direction of gravity. 2. The vehicle of claim 1 wherein the suspension sensor is a ride height sensor coupled to at least one of the suspension components and responsive to vertical movement of the at least one of the suspension components. 3. The vehicle of claim 1 wherein the program causes the processor to provide on the display at least a graphic representation of the position of two horizontally spaced apart wheels of said multiple wheels, and wherein the suspension components comprise an independent suspension for each of said two horizontally spaced apart wheels. 4. The vehicle of claim 1 wherein the program causes the processor to provide on the display a graphic representation of the position of two horizontally spaced apart wheels of said multiple wheels, and wherein the suspension components include an axle to which each of said two horizontally spaced apart wheels is coupled. 5. The vehicle of claim 1 which also includes a steering sensor coupled to a portion of a steering assembly of the vehicle and coupled to the processor to provide a signal indicative of a steering angle, and wherein the program causes the processor to provide on the display a projected wheel path that is based in part upon the actual horizontal wheel position. 6. The vehicle of claim 5 wherein the projected wheel path is determined as a function of both the actual horizontal wheel position and the vertical position of the at least one of said multiple wheels. 7. A vehicle, comprising: a vehicle body including suspension components; multiple wheels coupled to the vehicle body by the suspension components; a suspension sensor coupled to one of the suspension components or at least one of said multiple wheels; a camera carried by the vehicle body; a display carried by the vehicle body and connected to the camera to display at least part of the camera view; a processor receiving input from the suspension sensor; a steering sensor coupled to a portion of a steering assembly of the vehicle and coupled to the processor to provide a signal indicative of a steering angle; and memory coupled to the processor and including a program from which an actual horizontal wheel position is determined as a function of a vertical position of the at least one of said multiple wheels, wherein the processor causes an image representative of the actual horizontal wheel position to appear on the display, wherein vertical is in the direction of gravity and horizontal is perpendicular to the direction of gravity, wherein the program causes the processor to provide on the display a projected wheel path that is determined as a function of both the actual horizontal wheel position and the vertical position of the at least one of said multiple wheels, and wherein the projected wheel path is determined as a function of a difference between the steering angle and the angle of the at least one of said multiple wheels determined by the program as a function of the vertical position of the at least one of said multiple wheels. 8. The vehicle of claim 1 wherein the suspension sensor is a first suspension sensor responsive to movement of a first one of the suspension components that is associated with a first wheel of the multiple wheels, and wherein the vehicle includes a second suspension sensor that is coupled to a second one of the suspension components that is associated with a second wheel of the multiple wheels that is horizontally spaced apart from the first wheel, and wherein the program causes the processor to provide on the display graphics representative of the position of both the first wheel and the second wheel based at least in part upon the actual horizontal position of the first wheel and second wheel. 9. The vehicle of claim 8 wherein the camera is a forward facing camera having a view of the terrain to be traversed by the vehicle when traveling in a forward direction, and wherein the first wheel and second wheel are front wheels of the vehicle. 10. The vehicle of claim 8 wherein the camera is a rearward facing camera having a view of the terrain to be traversed by the vehicle when traveling in a reverse direction, and wherein the first wheel and second wheel are rear wheels of the vehicle. 11. The vehicle of claim 4 wherein the suspension sensor is responsive to movement of the axle caused by movement of the wheels coupled to the axle, and wherein the actual horizontal position of the wheels coupled to the axle is determined as a function of the vertical position of the axle and of an angle of axle indicative of the vertical position of the wheels coupled to the axle. 12. A method of determining wheel position in a vehicle, comprising the steps of: a) determining at least one of a height of: 1) a suspension component associated with at least one wheel of the vehicle, or 2) the at least one wheel of the vehicle; b) determining the horizontal position of the at least one wheel as a function of a horizontal shift of the at least one wheel that occurs as a result of a change of the height; c) determining a steering angle of the vehicle; d) calculating a path of the vehicle as a function of the steering angle and either a) the horizontal position of the at least one wheel or 2) the height determined in step a); and e) displaying the horizontal position of at least one wheel, or the wheel path or both. 13. The method of claim 12 wherein the vehicle has a pair of front wheels and a pair of rear wheels, and step a) is accomplished by determining a height of suspension components associated with at least one of: a) both front wheels of the vehicle; or b) both rear wheels of the vehicle. 14. The method of claim 13 wherein the height is the height associated with both front wheels. 15. The method of claim 12 wherein step e) is accomplished by displaying a graphic on a display of the vehicle, with the symbol located in a position indicative of the actual position of the at least one wheel. 16. The method of claim 12 wherein step a) is accomplished with a suspension sensor that is responsive to changes in the position of a suspension component. 17. The method of claim 16 wherein step a) is accomplished with a first suspension sensor responsive to changes in position of a first front wheel of the vehicle and with a second suspension sensor responsive to changes in position of a second front wheel of the vehicle. 18. The method of claim 17 wherein t