Este post es la continuación del capítulo 3 del libro
3.4 Variation of the gravitational and magnetic forces
3.6 Conclusion
The hypothesis of a universe
formed by four-dimensional Planck atoms impedes the formation of singularities
inside a black hole, because a force is needed to compress the atoms of space
and time. The aforementioned force is also deduced from the Schwarzschild
radius.
Moreover, the
gravitational potential energy with respect to the origin verifies the
Heisenberg Uncertainty Principle. This gives rise to the fact that the
relationship between the total mass of the universe, and its radius, fulfills
the relation of Schwarzschild, which clearly indicates that we live in inside a
black hole.
Finally, the four-dimensional Planck atom evolves so that
its mass decreases until reaching the mass of the electron. At the same time,
the time it takes to make a turn in the fourth dimension increases, giving rise
to the charge of the electron, so that mass and charge are joined as are the
gravitational and electric forces. While the gravitational force due to the
rotation decreases, the electric force increases. The expansion of the universe
separates Planck's four-dimensional atoms, producing a decrease in both forces.
In discreet space-time, neither the renormalization nor
singularity are necessary, since the infinites disappear.
As the electric
charge turns out to be the period in the fourth dimension, electric charge is
imaginary, and therefore, while the masses of the same sign attract, the
electric charges of the same sign are repelled.