Information exchange within the atom

The nucleus of an atom consists of entities in interference with spatial manifestations configured into twin dodecahedrons. All are interlinked within the nucleus and with the entities configured in electrons in the electron shells.

The architecture and dynamics of the Periodic Table of Elements reflect the factual situation, along with the events that form the nuclei from the proton to the most complex nuclei.

The nucleus of atoms of elements listed in the table exhibits properties of inertia, gravitation, electric vectors, and rotational speed distributed over three orthogonal axes. 

Each nucleus is surrounded by one or more electron shells. The number of electrons in these shells matches the number of protons in the nucleus. The electrons exhibit properties such as frequency, speed, spin, and spinor oscillation, which are influenced by the configuration of the nucleus. Consequently, the properties of the electrons reflect the arrangement of the nucleus.

The mirror-like relationship between electron shells and the nucleus suggests an inherent system of information exchange and conservation. Any action occurring within a shell results in a corresponding reaction in the energy states of the entire system. These actions are triggered by interactions of free electric energy among entities both within and outside the atom. The variations in energy levels represent subtle signals within the macrocosm, aligning with all electric and magnetic manifestations at gamma frequencies. These signals contribute to a system that continually renews the experience of the “now” at a rate of 10⁴⁴ times per second.

Electrons, whether in the shells or the nucleus, display the asymmetric electric manifestation of the free electric quant of each entity. This free electric quant guides the entity in space. The impact of this behavior is direction-sensitive due to the inherent anisotropic nature of the asymmetric electric manifestation of the photon entity within each electron.

The prevailing paradigm assumes isotropic electric charges, which does not allow for such information mirroring. Hence, there is currently no recognition of such an information exchange.

In The Dutch Paradigm, the entire system operates with two fundamental enities: gamma photons and gamma neutrinos, along with free electric energy, an electromagnetic system, and the phenomena of interference as previously discussed. Consequently, the constructs involved are quite limited, primarily consisting of the electron and the dodecahedron.

While the number of participating entities is nearly infinite, the number of variables remains restricted, and the processing frequency is exceptionally high.

Despite this complexity, it is understandable.

This is the world we observe.