Chemical reactions

Chemical reactions are fundamentally the same as nuclear reactions. Although chemical phenomena are not typically considered physical phenomena in our science, in Reciprocal Physics, they are based on the same principles. The differences are as follows:

Nuclear reactions depend on the shape of the atomic nucleus. Chemical reactions depend on the shape of the entire atom.

Nuclear reactions result from changes in the amount of concentrated energy on the surface of the atomic nucleus up to the region of sphere 'A.'

Chemical reactions result from changes in the amount of concentrated energy beyond the region of sphere 'A' (see Figure 8). In other words, in the space where gravitational force dominates over the repulsive force of concentrated energy.

Chemical reactions, like nuclear reactions, lead to changes in mass. In chemical reactions, energy is released beyond the boundary of sphere 'A,' where the concentration of energy is very small and difficult to measure. 

Many chemical reactions can be easily reversed, allowing for energy storage. By altering the chemical nature of molecules, their surface changes, which enables the addition or removal of a certain amount of energy, whether in the form of electricity or heat.