Vehicle flow influencing assembly and method

What is claimed is: 1. A vehicle flow influencing assembly, comprising: a deflector formed together with a seal that provides a portion of a glass run for a side window of a vehicle, the deflector projecting outward from the vehicle when the side window is lowered such that the deflector influences flow over an opening to a passenger compartment of the vehicle, the deflector configured to move from a deployed position to a retracted position in response to movement of the side window toward a closed position. 2. The vehicle flow influencing assembly of claim 1 , wherein the deflector and the seal are formed together as a continuous, monolithic structure. 3. The vehicle flow influencing assembly of claim 1 , wherein the deflector is formed together with the seal providing an exterior side of the glass run such that the deflector is outside the passenger compartment when the side window is closed. 4. The vehicle flow influencing assembly of claim 1 , wherein the deflector is biased toward the deployed position. 5. The vehicle flow influencing assembly of claim 1 , wherein the deflector is a passive deflector. 6. A vehicle flow influencing assembly, comprising: a deflector formed together with a seal providing an interior side of a glass run for a side window of a vehicle, such that the deflector is inside a passenger compartment of the vehicle when the side window is closed, the deflector projecting outward from the vehicle when the side window is lowered such that the deflector influences flow over an opening to the passenger compartment. 7. A vehicle flow influencing method, comprising: lowering a side window to provide an opening to a passenger compartment of a vehicle; influencing flow over the opening using a deflector aligned with a pillar that is upstream from the side window relative to the direction of flow, the influencing occurring without utilizing an actuator to deploy the deflector; and raising the side window to move the deflector away from a deployed position. 8. The vehicle flow influencing method of claim 7 , wherein the deflector is formed together with a seal that provides a portion of a glass run for the side window. 9. The vehicle flow influencing method of claim 7 , wherein the deflector projects outward from a primary surface of the pillar when the side window is closed and when the side window is open. 10. The vehicle flow influencing method of claim 9 , wherein the deflector projects outward 20 millimeters or more from the primary surface of the pillar. 11. The vehicle flow influencing method of claim 7 , wherein the deflector is a passive deflector.