The density of the spacetime continuum is fairly uniform since the global counts of H+ and H- are equal. However, at the local infinitesimal regions of the spacetime continuum the spacetime quantization of spacetime charges H+ and H- allows the local infinitesimal spacetime density to vary in accordance with the odd and even distributions of H+ and H-. These are discrete distributions following the laws of discrete probability. Therefore the use of finite mathematics provides effective numerical predictions, for example predicting the masses of elementary particles.

Where and when this finite mathematics is applied for the physical description of the force of gravity, it gives a better theory than either quantum mechanics or general relativity. Moreover, the numerical or matrix representations can be exclusively that of two values binary system. This system is analogous to the binary system used in the digital computer sciences together with the logic analysis using Boolean algebra.
Consequently, gravity is an attractive force toward the spacetime regions of greater density (greater numbers of either H+’s or H-‘s). That is toward the uneven distributions. Applied to the formation of a hydrogen atom of 1 proton and 1 electron with given respective spacetime charge distributions: (11H+, 5H-) and (1H+, 7H-) gives a neutral spacetime charge configuration of 12H+ and 12H- for a single hydrogen atom.