Rotorcraft fly-by-wire control laws

What is claimed is: 1. A rotorcraft, comprising: a body; a power train coupled to the body and comprising a power source and a drive shaft coupled to the power source; a rotor system coupled to the power train and comprising a plurality of rotor blades; a flight control system operable to change at least one operating condition of the rotor system; a pilot control assembly configured to receive commands from a pilot, wherein the flight control system is a fly-by-wire flight control system in electrical communication with the pilot control assembly; and a flight control computer is in electrical communication between the flight control system and the pilot control assembly, the flight control computer is configured to: receive, from the pilot control assembly, a pilot command to change a first flight characteristic, wherein changing the first flight characteristic would result in an expected change to a second flight characteristic; instruct, in response to the received pilot command, the flight control system to change a first operating condition of the flight control system based on an inherently-coupled relationship between the first flight characteristic and the second flight characteristic; and instruct, in response to the expected change to the second flight characteristic, the flight control system to change a second operating condition of the flight control system to at least partially offset the expected change to the second flight characteristic such that the flight control system at least partially decouples aircraft motions that are inherently coupled. 2. The rotorcraft of claim 1 , wherein operating in the second steady state comprises returning to the first steady state. 3. The rotorcraft of claim 1 , wherein the flight control computer is configured to instruct the flight control system to change the second operating condition of the flight control system by instructing the flight control system to change the second operating condition by a first amount and then washing out the change to the second operating condition over a period of time. 4. The rotorcraft of claim 3 , wherein the period of time is less than ten seconds. 5. The rotorcraft of claim 1 , wherein: the rotorcraft is operating in a first steady state condition prior to instructing the flight control system to change the first operating condition of the flight control system; the rotorcraft is operating in a second steady state condition after instructing the flight control system to change the first operating condition of the flight control system; and the flight control computer is configured to instruct the flight control system to change the second operating condition of the flight control system by instructing the flight control system to change the second operating condition by a first amount and then washing out the change to the second operating condition over a period of time. 6. The rotorcraft of claim 1 , wherein: the pilot control assembly comprises a pilot control stick and a motor configured to move the pilot control stick in response commands from the flight control computer; and the flight control computer is configured to not command the motor to move the pilot control stick in response to instructing the flight control system to change the second operating condition of the flight control system. 7. The rotorcraft of claim 6 , wherein the flight control computer is configured to command the motor to move the pilot control stick based on positions of the swashplate during steady state conditions and is configured to not command the motor to move the pilot control stick during transitory conditions. 8. The rotorcraft of claim 1 , wherein the rotor system comprises at least one of a main rotor system and a tail rotor system.