Mechanics, state and effect of the Graceli thermal wave field.

As radiative variations of plasmas also propagate in the form of thermal waves both within materials, within electromagnetic currents, and in space.

These thermal wave fields have direct actions on particle decays and fusions, where the two potentials both the types and the potentials of the radioactive materials are also the radiation waves of the thermal field.

It also has direct actions on currents and electromagnetic conductivity.

And it also has direct actions on the electron stabilities, entropies, and renumeralizations of charges within the particles, and even on their periphery.



Graceli Statistic of Energy Matter 8.

It is possible several quantum states of matter and energy in a single phenomena, structure, particle. And time and space.

The states of matter and energy do not only depend on the distribution of electrons within atoms and molecules but on:
Graceli Statistic of energy matter, interactions, material potentials, transformations, interactions, entanglements, parities, momentums.

The states of matter and energy do not depend only on the distribution of particles in the formation of molecules, but fundamentally in the processes of transformation and of producing other particles, energies, momentums, etc. Leading the state to a dynamic and transcendent condition. That is, there is no state of matter and energy being static, but rather they are determined by the quantum fluxes, and quantum transformations involving the transpassages if they have alterations on these phenomena refraction, diffraction, spectra, dilations, entropies, thermal variations, electromagnetic, decays , Interactions, transformations, parities, and entanglements. Senses of movements and spins, potentials of materials and energies, and their potentials of interactions and transformations [as from the magnetic to the electric and vice versa, from the thermal, to the dynamic, to the dilatant, to the entropic, and the electromagnetic, and To spectra of light and color during journeys].

And that some also act on others, forming a relativistic and indeterminate system.

As well as the effects proposed by Graceli from the first to the last. Let's see the last ones.


Mechanics of Effetology Graceli 2. Effects 116, 117, 118, 119, 120. 121.

Imagine a metal in great rotations near great magnets, being that these metals are being hit of photons with great intensities of energies.
And it is also possible to be approached in these metals radioactive elements with great potentials of decay, or even the rotating metal itself can be a radioactive.
Or even get away from the photons and radioactivity if it has large near thermal variations.
And that some materials have greater entropic potential than others.
Or even that there are variations of dilation from some metals to others. With actions on the magnetic effect and the electricity produced in momentum.

And that all these phenomena have actions on entanglements, parities, refractions and diffractions, spectra, entropies, variational dilation of mass and energy, renormalization of positions of particles and actions of charges.

And even on the production of smaller particles like meson pi, or even gluons.

And that has actions on potential transformations and interactions.



116] Photoelectric-magnetic-dynamic effect.
117] Radiofotoelectricomagnetic-dynamic effect.
118] Thermofotoelectricomagnetic-dynamic effect.
119] Thermo-photomechanical-magnetic-thermographic effect.
120] entropic and therapeutic effect.
121] Thermoradiofotoeletricomagneticdynamicodilating effect. [Mass variation, energy, inertia, momentum, time, and space [relativity for the purposes of Graceli].

Spectral efeitologia.
Spectroentropia.
Spectroradioactivity.
Spectrodilation.
Spectroconductivity.

The spectra are determined and produced by quantum and also transquant phenomena, which in turn also produce changes in other phenomena, and even in those that produced them, forming an integrated system of cause and effect, and effect as successive causes.

The effects and their variations can be visualized in the spectrometry according to the phases and potentials in which they are crossing at certain moments. Like the aforementioned Graceli effects of 122, to 126.
The same can serve for parities, interactions, transformations, production of new smaller particles but with potentials of oscillating and varied energies. And entanglements, or even renormalization of charges.


And also a mechanic of mass dilation, energy and inertia not only by movement, but fundamentally by the interactions and transformations, entropies, refractions and radioactive transpassages.

Forming this way, a generalized indeterminist transcendent quantum system involving states of matter and energy, effects and also indeterministic transcendent dimensions.



Graceli Mechanics of Transpassage and Effectology 115.
Transpassage produces variational effects depending on the types of materials, energies, distances, momentums, and other agents.
Since these effects occur both in the transporter and in the transpassed agent.

Causing it to occur before, in the vicinity, during, and after the transpass.

Where there is an overpassing mechanism and overrunning effect. With variations on loads, positions and poles of charges and particles, potential transformations on other particles and charges, and production of new smaller particles, quantum jumps, and other phenomena.

Changes in currents and electromagnetic conductivity.

During the transpassages we have alterations on these phenomena refraction, diffraction, spectra, dilations, entropies, thermal variations, electromagnetic, decays, interactions, transformations, parities, and entanglements. Senses of movements and spins, potentials of materials and energies, and their potentials of interactions and transformations [as from the magnetic to the electric and vice versa, from the thermal, dynamic, dilatant, entropic, and electromagnetic decays, and To spectra of light and colors during journeys].

And that some also act on others, forming a relativistic and indeterminate system.