Rear steering cylinder dampening

The invention claimed is: 1. A hydraulic system for controlling at least one steerable caster wheel of an agricultural machine, the hydraulic system comprising: a tank operable to store a supply of fluid; a first side actuator for controlling a first rear caster wheel, the first side actuator having a piston moveable in a first direction and an opposing second direction, and including an inboard fluid port for supplying fluid to a first side of the piston to move the piston in the first direction, and an outboard fluid port for supplying fluid to a second side of the piston to move the piston in the second direction; a first steering command valve and a rear steering control valve; a first side steering fluid circuit interconnecting the first steering command valve and the inboard fluid port of the first side actuator in fluid communication; a first side line in fluid communication with the outboard fluid port of the first side actuator; a fluidic tie rod fluid circuit connecting fluid communication between the first side line and the rear steering control valve; a tank return fluid circuit interconnecting the rear steering control valve, the first steering command valve, and the tank in fluid communication; and a first fluid pressure equalizer fluidically coupled to the first side actuator and operable to equalize fluid pressure over a period of time between the first side and the second side of the piston of the first side actuator. 2. The hydraulic system set forth in claim 1 , wherein the first side steering fluid circuit is split to include an inboard port section in fluid communication with the inboard fluid port of the first side actuator and an outboard port section in fluid communication with the outboard fluid port of the first side actuator. 3. The hydraulic system set forth in claim 2 , wherein the first fluid pressure equalizer includes a first side restrictive orifice disposed in the outboard port section of the first side steering fluid circuit. 4. The hydraulic system set forth in claim 1 , wherein the first fluid pressure equalizer includes a fluid passage defined by the first side actuator and interconnecting the first side and the second side of the piston of the first side actuator. 5. The hydraulic system set forth in claim 4 , wherein the fluid passage of the first side actuator includes an opening extending through the piston of the first side actuator. 6. The hydraulic system set forth in claim 4 , wherein the fluid passage of the first side actuator includes a gap extending at least partially around a periphery of the piston of the first side actuator, wherein the gap extends between the first side and the second side of the piston of the first side actuator. 7. The hydraulic system set forth in claim 1 , further comprising: a second side actuator for controlling a second rear caster wheel, the second side actuator having a piston moveable in a first direction and an opposing second direction, and including an inboard fluid port for supplying fluid to a first side of the piston to move the piston in the first direction, and an outboard fluid port for supplying fluid to a second side of the piston to move the piston in the second direction; a second steering command valve; a second side steering fluid circuit interconnecting the second steering command valve and the inboard fluid port of the second side actuator in fluid communication; a second side line in fluid communication with the outboard fluid port of the second side actuator; wherein the fluidic tie rod fluid circuit connects fluid communication between the second side line and the rear steering control valve; wherein the tank return fluid circuit connects the second steering command valve in fluid communication to the rear steering control valve, the first steering command valve, and the tank; and a second fluid pressure equalizer fluidically coupled to the second side actuator and operable to equalize fluid pressure over a period of time between the first side and the second side of the piston of the second side actuator. 8. The hydraulic system set forth in claim 7 , wherein the second fluid pressure equalizer includes a fluid passage defined by the second side actuator and interconnecting the first side and the second side of the piston of the second side actuator. 9. The hydraulic system set forth in claim 8 , wherein the fluid passage of the second side actuator includes an opening extending through the piston of the second side actuator. 10. The hydraulic system set forth in claim 8 , wherein the fluid passage of the second side actuator includes a gap extending at least partially around a periphery of the piston of the second side actuator, wherein the gap extends between the first side and the second side of the piston of the second side actuator. 11. The hydraulic system set forth in claim 7 , wherein the second side steering fluid circuit is split to include an inboard port section in fluid communication with the inboard fluid port of the second side actuator and an outboard port section in fluid communication with the outboard fluid port of the second side actuator. 12. The hydraulic system set forth in claim 11 wherein the second fluid pressure equalizer includes a second side restrictive orifice disposed in the outboard port section of the second side steering fluid circuit. 13. The hydraulic system set forth in claim 11 , wherein the outboard port section of the first side steering fluid circuit and the outboard port section of the second side steering fluid circuit are connected together and to the fluidic tie rod fluid circuit in fluid communication. 14. The hydraulic system set forth in claim 11 , wherein the first side line is connected in fluid communication to the outboard port section of the first side steering fluid circuit, and wherein the second side line is connected in fluid communication to the outboard port section of the second side steering fluid circuit. 15. The hydraulic system set forth in claim 1 , further comprising: a pressure source configured to supply a flow of pressurized fluid; a supply pressure fluid circuit interconnecting the pressure source and the rear steering control valve in fluid communication; and a command valve supply fluid circuit interconnecting the rear steering control valve with both the first steering command valve and the second steering command valve in fluid communication. 16. A hydraulic system for controlling a pair of steerable caster wheels of an agricultural machine, the hydraulic system comprising: a left side actuator for controlling a left rear caster wheel, the left side actuator having a piston moveable in a first direction and an opposing second direction, and including an inboard fluid port for supplying fluid to a first side of the piston to move the piston in the first direction, and an outboard fluid port for supplying fluid to a second side of the piston to move the piston in the second direction; a right side actuator for controlling a right rear caster wheel, the right side actuator having a piston moveable in a first direction and an opposing second direction, and including an inboard fluid port for supplying fluid to a first side of the piston to move the piston in the first direction, and an outboard fluid port for supplying fluid to a second side of the piston to move the piston in the second direction; a left steering command valve, a right steering command valve, and a rear steering control valve; a left side steering fluid circuit interconnecting the left steering command valve and the inboard fluid port of the l