#Atom

What does the Olavian Atom Model tell about molecular bindings

Particle Scattering

Ever wondered what happens if you shoot an electron at a proton or any other type of nucleus? At the CERN for instance a lot of such experiments take place.

Antimatter

Think of antimatter as entities, that rotation into the opposite direction as matter. So they will not produce a positive attractive gravitational force but a repulsive one. This can be compared to the

Assessment

On basis of the Roton-Model, we predict additional attractions within an atom which do not match with calculations by a pure Coulomb potential.

Hypthesis:

• The individual electron-proton entanglement leads to a constant additional attraction between each electron and the nucleus.
• Non-Entangled additional electrons in a Ion (e.g. H-Atom) should not show such a tight coupling.
• The Shell-Rotons (and Resonons) lead to additional attraction which are dependent on the total number of electrons and their spatial (x,y,z) contributions to a shell of specific size.

Observation

Verification:

Why is this chapter necessary?

Originally the Roton-Model was no intended to make use of any standard concepts. Instead it lives from hierarchical structure self-sustained resonances. The world is built up from scratch. This approach does not define, whether a certain level of rotational construct corresponds to e.g. a real photon, electron or neutron.