The 22 Models -atomic relativistic quantum of Graceli. And efectologia 272.

According to the intensities of interactions and transmutations involving entanglements, parities and exchanges of positive and negative ions that are determined by the models 1 to 22. And that in turn the models are in fact the result and product of the quantum interactions.

Where these quantum interactions are variational and follow infinitesimal effects and increasing instabilities as the number, intensity and types of energies increases, and decreases the distances between ions, particles, and increases electrical and magnetic currents, radioactivity, and temperatures and rotations.

That is, each atom follows near patterns of patterns [but not absolute because they vary according to variables of quantum phenomena.

That is, a fission atom does not equal a fusion atom, and vice versa. And with or without high temperatures.
An atom with large thermal variations does not equal an atom in zero degree.
A magnet or even a large electric current does not equate to a metal without fields of forces.
And a semi-static atom does not equate to an atom within a dynamic process, or even within blackbody materials.

Each has its own entanglements, parities, ions, interactions, and transmutations.

There is no atomic model for all types of atoms, each has its particularities, let us see:
They are divided into:
1 e2] Those of simple and high temperature fusions.
3 and 4] Those of simple fissions and with high temperatures.
5 and 6] The simple thermal and with high temperatures.
7 and 8] Electromagnetic simple and with high temperatures.
9 and 12] And electromagnetic with fissions or fusions [simple and or with high temperatures].
13 to 22] And all in relation to a system in great rotations with transmutable actions and vortices.

Example:
1] Those of simple fusions and with great temperatures. The atom during the fusion process and with low temperatures tends to maintain a low radiation and moderate jumps of electrons.

The dynamics are fundamental in the vibrations of the electrons, production of radioactivity, temperatures, and electromagnetism. That is to say, if it has transmuting electrons and with great potentials of production of energies and vibrations.

Those of simple fissions and with great temperatures. If they have great potentials of energies and radioactivity inside protons and neutrons and electrons destabilizing the energies and increasing the potential of transmutation of the same ones.
The same happens with fusion processes in plasmas, where during each stage and stage of molecules there are phases of neutron formations, protons, electrons, transmutable energies and energy displacements between particles, not between supposed orbital layers.

An electron does not jump from one orbit to another, but instead exchanges charged ions among other electrons, positrons, protons, and neutrons.

So you do not have an atom with so many electrons and so many protons, but you have an atom that can be transmuted into every minute moment.

That is, for each situation one has a transmutable type of atom, proton, neutron, and electrons and their interactions and transmutations.

Thus, for the fusions one has an atomic model, and if in plasmas another transmutable model.

If in electromagnetic ion-laden magnets another model of atomic interactions, these models vary according to the radioactivities, temperature variations, conductivities of the materials, and potential interactions and transmutations of the same.
And all with variations and variational effects according to temperature potentials, and are in rotation with the influence of the agents of changes by the rotation and effect of vortices with centrifugal and centripetal action.


Efeitologia 264 a 270.
Being that all 22 atomic models Graceli go through potential of effects of variations.
Effects of variability, intensity, range and progression of acceleration of process time during radiations in fusions and fissions.

Thus, for each type of model there are types of atoms that depend on their energies and their interactions and transmutation potentials.

And with all effects of variations according to potential energy.

Quantum atom Graceli.
Trans-interactions lead to transmutations and trans-entanglements, and parities and ion interactions, that is, electron from one end may be in entanglement with another at the other end of the atom, and producing transmutation processes between the two without having changes with Others static in terms of entanglements.

That is, the quantum atom forms blocks of transposable energies from one to another, and from electrons to electrons, and from protons to protons.

Thus, what we have are diverse atoms according to their potentials and types of energies, such as radioactivities, thermal and dynamic variations, with actions on dilations, entropies and oscillations of electrons. And electromagnetism with currents and conductivity according to the materials in which they are. And dynamic variations.

Since each one also has its quantum phenomena that vary according to the types and patterns of potentialities of energies and materials.

That is, it is an interlacing between quantum and also atomic phenomena, where some produce and act upon others.

The atom is ionic, therefore, has different and transmutable quantities in quantum and relativistic interactions of negative and positive ions relativistic quantum atom Graceli.

Relativistic quantum ionic atom.
The atom is entropic relativistic, that is, in variations and transmutations with potential for dilation and variations of potential and intensity.
With the thermal, dynamic, variations of positions within molecules, radioactivity and radioisotopes and electromagnetic.
If you have the variations and dilations of mass, inertia, momentum, positions, patterns of potentialities and other phenomena, so have the relativistic atom.

And with the variations along with the thermals, one has a relativistic thermodynamics.
Forming a uniqueness between how much and relativity, and forming an integrated system between thermodynamics, radioisotopes and radioactivities, dynamics and changes of positions, and patterns of potentialities of variations of materials, and fields.

That is, an integrated system coupled with quantum phenomena such as entanglements and, parities, exclusion, and others.

Interactions and entropies with dilations produce variations and effects of intensity, range, quantity, and distribution on radiations and their refractions and spectra, as well as on electromagnetic waves and particles, both inside and outside the atoms when stimulated by temperature, radioactivity, or Fields and or rotations.


Gracli Effect 271.
When a metal plate is struck with Alpha particles, most of the alpha particles pass through the metal plate without causing any damage to the plate. That is, they pass through, but this transpassage depends on the potentials and types of energies of this metal, with different and forceful variations for sheet with radioactivity, electromagnetism, in fusions or fissions, or with varying temperatures.

That is, if a Graceli effect is formed for types of overpass. For, according to the physical agents it can be confirmed if radioactivity is inserted into a metal sheet, it will have types and intensities of deflection and transpassage,

If electricity is added to another type and intensity of defrexions and transpassage,
If another type of magnetism is added, and if other thermal variations are added. That is, the energies and types of the materials determine the defrexions and transpassages together with the nuclei and the protons within the atom.



Conclusion.
This confirms that the 22 Graceli atoms are different from each other.
And the 22 can be transformed into infinite types of atoms.

And all are variable according to their interactions, transmutations, parities, entanglements, and depend on types of energies and materials.

That is, it does not relate to the atoms of Graceli nor an orbital system, nor a system of waves in a relation particles waves.

In that the 22 relativistic quantum atoms of Graceli are related to the potentials and types of energies and materials, the quantum phenomena as parities, entanglements, interactions, and transmutations. And the relativistic effects of dilations and entropic variations.

Another point of fundamental importance here is that Graceli's atoms are indeterministic and relativistic, and another point is that Graceli's quantum does not make a relation between waves and particles, but phenomena, transmutations, interactions, energies, entanglements, and parities. And that these phenomenal agents that produce the structures and not the structures that produce the phenomena.

That is, the quantum of Graceli differs from the current quantum of waves and particles, just as it differs in the matter of the atoms of Graceli.

And from a relativism comes to have an indeterminism.


The potentiality of transmutability and interactions.

Power emerges as a new agent of action in matter and energy, introduced in physics as a fundamental factor, as inertia in mechanics was introduced. The power to transform, to destabilize, to stabilize, to entrap, to refract, to speculate, to entangle, to paride, to interact, to act on fusions and fissions for each chemical element or molecule. From each electron vibrate with energy potential x, or even jump at time t, with reach and intensity [ia], that is, if so, an agent of fundamental importance.

For, like the inertia that is based on mechanics and dynamics, the power that is part of any form of energy and matter is of fundamental importance in Graceli's interactive and indeterministic transmutable physics.

Transmutation and interactions arise as a new form and type of physics, where it is responsible for the formations of structures, phenomena, variations, entropies and dilations and thermal, electromagnetic, radioactivity, and tc variations.

That is, if mechanics was a type of physics for dynamics and its various types, transmutations, interactions and potentialities arise as a new branch for structural physics, phenomena and transcendences.


What makes an electron or photon emitted are these relativistic quantum variables in activities, and according to the potentials of materials energies and radioactivity energies, thermodynamics for each type of material, electromagnetism and dynamics.

That is, if it has a relativistic and quantum atom forming an integrated system between structures, phenomena and variations.