To achieve Motor Dysfunction through a Fluid Shock Wave Strike, what is the minimum factor that needs to be doubled?

To achieve Motor Dysfunction through a Fluid Shock Wave Strike, focusing on doubling velocity is crucial because of the relationship between velocity and the impact delivered to the target. Fluid Shock Wave Strikes rely on transferring energy effectively, and increasing the velocity of the strike enhances the energy delivered upon impact.

When velocity is doubled, the kinetic energy, which is calculated using the formula ( KE = \frac{1}{2} mv^2 ), increases exponentially, specifically by a factor of four, since energy is proportional to the square of the velocity. This exponential increase in energy results in a more significant shock wave, leading to greater Motor Dysfunction.

The other factors like acceleration, time on contact, and mass do play a role in the overall effectiveness of a strike, but they do not contribute to the same level of exponential increase in energy as velocity does. The focus on velocity is fundamental in defensive tactics as effective strikes can incapacitate an opponent more quickly and effectively, making it the critical factor in achieving the desired Motor Dysfunction.