Efeitology 681 to 700.
Graceli radio-quantum-photoelectric effect.
Graceli's radiation effects of materials and energies.


Basic laws of quantum thermodynamics of Graceli.


That is, in some materials and their energies one has greater entropy and less dilatation and momentum, and in others larger dilatation and momentum and less entropy.

That is, nature itself is relativistic and indeterministic.

Relativist for varying and entropy according to types, states, potentials of materials and energies.
Indeterministic by the infinity of phenomena in a single moment and place.

That is, the entropy, the dilation, and the momentum and interactions are indeterminate and relative.


The amount, intensity, accelerations, oscillatory fluxes, scattering, scopes and time of radiation in space will depend on:
The incidence of photons or laser on a black body will depend on the spectrum and temperature of the photos or laser, and the type, state and potentialities of the blackbody, and the temperature and fields that fields, thus, the radioactivity and the configuration between The particles and the atomic number that makes up the material of the black body.

For a system within an enclosed oven the radiation will also depend on the temperature, type, potentialities, energies and fields that form the walls of the furnace, i.e. whether it has varying quantum indices for each type of the above-described freezing agents. As well as the configuration and quantity of the atoms and protons, electrons, interactions of ions, and other phenomena that form the atoms of the furnace wall.

Laws.
The hotter a gas, the higher the speed. That is, the velocity increases, but the acceleration is not uniform for all types, states and potentialities of materials, particles and energies.


Laws of the radio-field-quantum thermodynamics of Graceli.
 This is relative because it depends on the potentials and types and states of the materials.
A correlation of proportionality between entropy, refraction, dilation, instability and momentum [velocity] is not formed. For it depends on the types, states and potentialities of materials and energies, such as types of metals, types of fusions and fissions, types of fields, types of momentum, types of interactions, types and potentialities of Graceli transmutations.


Mercury differs from helium, this from hydrogen, from oxygen, from iron, from uranium, from cesium, and there it goes.


Entropias de Graceli.
They are variables, relativistic and indeterminist
The entropies are variable and relativistic and indeterministic, that is, they depend on the positioning between the particles inside the atoms, these inside molecules, these inside chemical elements. Where it will produce the ionic interactions between charges, producing transmutations of Graceli, Omo also types and potentialities of entanglements and refractions, parities, exclusions, jumps, radiations, spreads and other phenomena.


And that in turn determine and are determined by the types, potentials and states of matter and energies that make up the physical phenomena and the transcendent structures.


Quantum fluctuations, random motions, acceleration entropies, entropies of flows and interactions between positive and negative ions, differential variations during phase changes do not follow a uniformity in relation to all materials and types of energies, nor are they uniform for all Particles.


That is, whether it has within the same system of particles and interactions, or even within a same potential particles and different types producing phenomena and different random variations.


And with actions on causes, on radiations with their scatterings and distributions [intensity and reach], both in the photoelectric effect and in the radio thermo-quantum-photoelectric effect of Graceli.

Thus forming the probabilistic physics of fluctuations are abrupt and unpredictable variations of energy, governed by the probabilistic laws of quantum mechanics, with variational and differential potential for all kinds of interactions and transmutations of Graceli within matter and its radiations in space.


By heating the gas from one container while cooling the other's gas, committed the sin of violating the second law of thermodynamics.


That is, both the second law and the entropy depend on the types and potentials of energies, materials, electromagnetic fields, potential for ion interactions, entanglements, and other phenomena, forming an indeterminate probabilistic quantum system, where both the second law of Thermodynamics as to entropy are relative to the materials and types and positions and potentials of particles and molecules, that is, if it has a system that depends on quantum fluctuations and also the nature of materials and energies.




That is, whether it has within the same system of particles and interactions, or even within a same potential particles and different types producing phenomena and different random variations.


And with actions on causes, on radiations with their scatterings and distributions [intensity and reach], both in the photoelectric effect and in the radio thermo-quantum-photoelectric effect of Graceli.

Thus forming the probabilistic physics of fluctuations are abrupt and unpredictable variations of energy, governed by the probabilistic laws of quantum mechanics, with variational and differential potential for all kinds of interactions and transmutations of Graceli within matter and its radiations in space.


By heating the gas from one container while cooling the other's gas, committed the sin of violating the second law of thermodynamics.


That is, both the second law and the entropy depend on the types and potentials of energies, materials, electromagnetic fields, potential for ion interactions, entanglements, and other phenomena, forming an indeterminate probabilistic quantum system, where both the second law of Thermodynamics as to entropy are relative to the materials and types and positions and potentials of particles and molecules, that is, if it has a system that depends on quantum fluctuations and also the nature of materials and energies.


That is, entropy tends to increase with time in a closed system, however, the increase is not uniform for all chemical elements, molecules, particles and interactions between ions. That is, both is relative as indeterminate and relativistic.


And this both responds to the second law of thermodynamics, as well as to entropy, thus forming the term-field-quantum-dynamics radius.

That is, a response to the incompatibility between entropy and the second law of thermodynamics.

That is, the second law of thermodynamics and the variations of entropy can not be affirmed with absolute certainty, nor can entropy and dilation vary from element to element.