The forces between elementary particles are inversely proportional to the fourth power of distance, unifying the four types of interactions

A fundamental particle is composed of two "half element charges" that revolve around each other: a negative fundamental particle, a positive fundamental particle, and a neutral fundamental particle. It can exist in both the interior and exterior space of matter, and half element charges cannot exist independently. The force between elementary particles is inversely proportional to the fourth power of the distance, f=Gh ^ 2/λ ^ 4c ^ 2, f electric=Kh ^ 2/λ ^ 4c ^ 2, where K is the electrostatic gravitational constant and G is the universal gravitational constant. The distance between two positive elementary particles where protons exist is 10 ^ -15m, and the average distance between neutral elementary particles in 1836 is approximately 10 ^ -20m. A proton contains 1836 elementary particles, and the gravitational force between protons is: f=1836Gh ^ 2/λ ^ 4c ^ 2=1.2 × 10 ^ 73/h ^ 2/c ^ 2; The electrostatic force f of protons is Kh ^ 2/λ ^ 4c ^ 2=9 × 10 ^ 69/h ^ 2/c ^ 2. Theoretically, the gravitational force between protons can be greater than the electrostatic force between protons. The interaction between macroscopic objects is the result of the interaction of fundamental particles in outer space through radiation. The conclusion is that gravity, electromagnetic force, strong interaction, and weak interaction are unified under the action of fundamental particles.