More complex is that if the bullet accelerates during flight, its trajectory becomes as messy as Planck's hair, making it very difficult to locate and depict.
As a result, Tang Pin's team spent over a month constantly conducting ballistic simulations after extensive research.
Finally, after spending more than two million on electricity bills and losing a significant amount of hair, they developed a miniature weak force array.
This array is connected to a strong acceleration array via a tiny technological switch, with a very simple logic:
It activates once the bullet's horizontal speed reaches a certain threshold.
Upon activation, this weak force array provides a downward thrust, giving the bullet a slight but cumulative downward acceleration to fine-tune the trajectory, thereby accelerating the bullet's fall to hit the target.
And if one wishes to increase the bullet's range, this weak force array can be removed, and another tactical rail can be installed for guided shooting.
