This work introduces the Voting Force as a statistical mechanism describing how ordered rotational motion can emerge during accretion. Rather than assuming rotation as an initial condition, the theory explains how repeated anisotropic momentum transfers lead to the dominance of a preferred angular direction. The model incorporates both statistical reinforcement of aligned impacts and the influence of localized mass concentration, which enhances gravitational contribution from denser regions within the accreting environment. This produces a weighted accumulation process that strengthens directional coherence over timeThe framework is applied to the emergence of planetary rotation, the formation of rotational planes, the persistence of ring and disk structures, and the creation of spiral galaxies. The Voting Force is not proposed as a new fundamental interaction, but as an emergent physical principle arising from repeated accretion dynamics.
Samuel Miensinompe (Mon,) studied this question.