Think this through more carefully. Mentally list and examine the factors involved.

Wind deflection is a function of the bullet's time of flight. During that interval, it's moving laterally, driven by the speed of the cross-wind vector that's blowing it off-course. The time of the bullet's exposure to that lateral vector and the speed of the wind produce deflection. Double the speed, and you double the deflection. Increase the time of flight, and you increase the deflection. I can not imagine how four times as much force laterally applied could move the bullet laterally twice as fast as the cross-wind speed. How would you explain the bullet being deflected at twice the speed of the cross-wind?

I do not know how to factor-in the gyroscopic stability of the spinning bullet. You may have a point, but I don't see it yet.


"Good enough" isn't.

Always take your responsibilities seriously but never yourself.