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Trans-intermechanics and effects 8,051 to 8,060.Term-status. Photon-state. And peripheral effects.


During the propagation of thermal radiation if the ice cube is placed, the next thermal radiation will tend to lose intensity, velocity and has a small concave curvature to the ice, where an effect and trans-intermechanic form.
And where there is also a relationship between states of thermal, electric, magnetic, radioactive, dynamic, luminescent energies.
When these energies with thermal radiation or do not go through these cubes altering their thermal stability and other energies.
The same happens with photons that go through ice cubes.
Or even these phenomena happen in all these when they pass close to imas with action of magnetic monopoles, dielectric, pressure system, dynamic systems, and others.

That is, if you have a system with energies and photons, Graceli termons, and other forms of energies that go through ice cubes, or in kinetic systems of gases, or systems of tunneling of solids, and others, dynamic and thermal means, dynamic and electrified, dynamic, pressurized and magentisza, and also in radioactivities.

That is, if it has system for variations in energies in systems of varied energies and states.And vice versa. [states that change according to energies]. And vice versa.
And systems of energy variations in energies, such as electricity in radioactivity, in magnetism, in pressurized [under pressures], and others. And vice versa.

That is, if there is a system of effects between states, energies, structures, dynamics, thermal and pressures, and others.

With chain and variational effects, and a trans-intermechanic.


Peripheral effects Graceli.
Another point is that every photon carries with it peripheral loads, and diversified luminosity, where the red and white more to the center, and bluish more in the borders of the photons.
This also happens in bodies charged with central and peripheral magnetism, the same for radioactivity, and Graceli termons [where the center has varying colors and intensities relative to the center.
In this case a body will present differentiations according to its states and energies involved.

With chain and variational effects, and a trans-intermechanic.

Trans-intermecânica e efeitos 8.051 a 8.060.

Termo-estado. Fóton-estado. E efeitos periféricos.

Durante a propagação de radiação térmica se for colocado cubo de gelos, a radiação térmica próxima tenderá a perder intensidade, velocidade e tem uma pequena curvatura côncava ao gelo, onde se forma assim, um efeito e trans-intermecânica.

E onde se tem também uma relação entre estados de energias térmica, elétrica, magnética, radioativa, dinâmica, luminescente.

Quando estas energias com radiação térmica ou não passam por estes cubos alterando a sua estabilidade térmica e de outras energias.

O mesmo acontece com fótons que passam por cubos de gelos.

Ou mesmo estes fenômenos acontecem em todos estes quando passam próximos de imas com ação de monopolos magnético, dielétricos, sistema sob pressão, sistemas dinâmicos, e outros.

Ou seja, se tem um sistema com energias e fótons, termons Graceli, e outras formas de energias que passam por cubos de gelo, ou em sistemas cinético de gases, ou em sistemas de tunelamentos de sólidos, e outros, meios dinâmicos e térmicos, dinâmicos e eletrizados, dinâmicos, pressurizados e magentisza, e também em radioatividades.

Ou seja, se tem sistema para variações em de energias em sistemas de energias variadas e estados. E vice-versa. [estados que mudam conforme energias]. E vice-versa.

E sistemas de variações de energias em energias, como de eletricidade em rdioatividade, em magnetismo, em pressurizados [sob pressões], e outros. E vice-versa.

Ou seja, se tem um sistema de efeitos entre estados, energias, estruturas, dinâmicas, meios térmicos e sob pressões, e outros.

Com efeitos de cadeias e variacionais, e uma trans-intermecânica.

Efeitos periféricos Graceli.

Outro ponto é que todo fóton carega consigo cargas periféricas, e luminosidade diversificada, onde o vermelho e branco mais ao centro, e azulado mais nos bordos dos fótons.

Isto também acontece em corpos carregados de magnetismo central e periférico, o mesmo para radioatividade, e termons Graceli [onde o centro tem cores e intensidades diversificadas em relação ao centro.

Neste caso um corpo apresentará diferenciações conforme os seus estados e energias envolvidas.

Com efeitos de cadeias e variacionais, e uma trans-intermecânica.

Relationship between energy and mass Graceli.

  the relationship between the mass (m) and the electric charge (e) of the electron was: m / e + agents and Graceli categories [ACG].

thus: m / e [ACG].


thus forming what can be called mass and categorical energy Graceli.

As both electrons and other particles have their properties and potentialities not in relation to the mass [structure], but in relation to the category agents of Graceli.

That are phenomena, states, families, structures, effects, means, forms, phenomenal dimensionality, and others, and all with potentialities of intensities according to levels, type, potentials, time of action, action of quantity and types, and other categories.

And with effects on other secondary phenomena.

Relação energia e massa categorial Graceli.

 a relação entre a massa (m) e a carga elétrica (e) do elétron valia: m/e + agentes e categorias de Graceli [ACG].

ficando assim: m/e [ACG].

Conforme tanto os elétrons quanto outras partículas possuem suas propriedades e potencialidades não em relação à massa [estrutura], mas sim em relação aos agentes categoriais de Graceli.

Que são fenômenos, estados, famílias, estruturas, efeitos, meios, formas, dimensionalidade fenomênica, e outros, e todos  com potenciais de intensidades conforme níveis, tipo, potenciais, tempo de ação, ação de quantidade e de tipos, e outras categoriais.

E com efeitos sobre outros fenômenos secundários.

Trans-intermechanic and effects 8,041 to 8,050.

Termons Graceli and quantum of fractional energies according to categories.

Waves and packages of thermal radiation. Termons Graceli. with varying intensities according to the agents and categories of the materials emissions and means of pressures and energies.

That is, they are neither constant nor homogeneous and uniform, with varied and indeterminate flows at all times.

This also fits into the photons.

All with effects on other secondary phenomena such as:

Tunnels, entropies, enthalpies, vibrations and dilations, cohesive fields of space-propagating thermal radiation, action and electrostatic effect, entanglements, quantum fluxes and quantum state, vibratory flows, and other phenomena and agents.


Termons Graceli - Consistent of temperature and termicities, electricity and electricity, magneticity and magnetivicity, radioactivity and radioactivity (variable potential of energies for emissions, conductivity, electrostaticity, entropicity, enthalcity, tunnelamenticity, entangling, interactivity, and others.


Since each particle has potentials of its own energies, as we see in materials, where wood has a conductivity intensity different from iron, mercury of dilation other than iron and other minerals, and even crystals, and other families and states.

That is, the Graceli termons have a quantum of fractional energies according to categories of both structures and energies, states, families, densities, quantity, time of action, potentials to sustain under pressure.


In that they have fractional quantum indices in relation to potentials, levels and types, time and intensity, and potential for variations of flows and progressions, that is, a fractional quantum system according to energies and energy potentials for each category type.

A body when under pressure, or within kinetic energy, or within system with large thermal variations tends to have dilations in some situations, and in other compression [when under pressure], but in all energies tend to increase .



Graceli's categorial relativity.

the mass (m) of a mass body of rest (m0), grows with its velocity (v), according to the expression: m = m0 (1 - v2 / c2) -1/2. Note that in this expression, when the body is at rest (v = 0), then m = m0. However, all energies also grow in a random and indeterminate and transcendent progression with other secondary phenomena.

Since both the mass dilations by velocity and the energies will depend directly on the categories of Graceli.

That is, at the same speed one has varied dilations and variations for differentiated structures, and the same for energies, effects, families, states, and others.

As for fractional quantum emissions, one has to:

the emission of radiation is always discontinuous, but also in absorption, it is always continuous. This makes the propagation in transit discontinuous and in random oscillations. Being discontinuous for both space and time.

The discontinuity follows flows according to the categories of Graceli and his agents.


In effect on other phenomena.

And according to the categories of Graceli of types, levels and potentials. Quantity, density, time of action, distributions and spreading potential.




Thus, there is a trans-intermechanical and indeterminate trans-intermechanic with variational effects and chains with and on the tunnels, entanglement, ion and charge interactions, dissipative transformations and energies, electrostatic effects, entropies and enthalpies, wave emissions, transformations in other forms of energies such as from electric to magnetic and vice versa, or thermal, or dynamic, etc. light decays with varied flows, quantum and vibratory flows, chains among all with varied flows, and others.

The categories are:

[eeeeeffdp [f] [mcCdt] [+ mf] [cG]. The categorical equation of Graceli.


[+ Cmf] = colors, media and shapes.


Trans-intermechanic and effects 8,041 to 8,050.

Termons Graceli.

Waves and packages of thermal radiation. Termons Graceli. with varying intensities according to the agents and categories of the materials emissions and means of pressures and energies.

That is, they are neither constant nor homogeneous and uniform, with varied and indeterminate flows at all times.

This also fits into the photons.

All with effects on other secondary phenomena such as:

Tunnels, entropies, enthalpies, vibrations and dilations, cohesive fields of space-propagating thermal radiation, action and electrostatic effect, entanglements, quantum fluxes and quantum state, vibratory flows, and other phenomena and agents.



Principle Graceli categorial relativistic materials and waves for energy conservation and linear momentum and effects of x-ray, gamma, alpha, beta and Graceli termons.


That is, if there are varied indices for conservation and


Trans-intermechanic and effects 8,041 to 8,050.

Termons Graceli.

Waves and packages of thermal radiation. Termons Graceli. with varying intensities according to the agents and categories of the materials emissions and means of pressures and energies.

That is, they are neither constant nor homogeneous and uniform, with varied and indeterminate flows at all times.

This also fits into the photons.

All with effects on other secondary phenomena such as:

Tunnels, entropies, enthalpies, vibrations and dilations, cohesive fields of space-propagating thermal radiation, action and electrostatic effect, entanglements, quantum fluxes and quantum state, vibratory flows, and other phenomena and agents.



Principle Graceli categorial relativistic of materials and waves for conservation of energies and linear momentum and effects of spreads.


That is to say, if it has varied indices for the conservations and momentum, with this it has variational effects also on the scattered particles by magnetic and electric action, or of x-rays, or even of radioactivity involving other types of particles and waves.


the spread of X-rays by matter. considering the relativistic principles according to agents and categories of Graceli for energy conservation and linear momentum, both for X-radiation and for the constituent electron of matter,
where l and l respectively represent the wavelengths of the X-rays, after and before being scattered by electrons of mass m, and according to the categorial relativity of the agents and energies of Graceli.


that is, if it has a scattering system with category parameters according to the types, levels and potentials of energies, structures, means, pressures, phenomenal dimensionality Graceli, states, correlated effects, and others.

Trans-intermechanic and effects 8,041 to 8,050.
Graceli effects on x-rays.


to the radiation dosage unit: Roentgen (R) - amount of X-ray that releases an electrostatic unit of electric charge in 1 cm3 of air under normal conditions of pressure, temperature and humidity.

If we have Graceli temporal effects, under pressure, magnetic, electric and thermal depending on the time and temperature, that is, as the temperature increases if it has a progressive intensity effect.

And the same with time.

And if there are other correlated effects on other phenomena, such as: tunneling, entropies, enthalpies, entanglements, decays, transmutations in fissions and fusions,
Electrostatic action, particulate emissions and fields, Graceli field of radioactive cohesion during propagation of radiation in space, and within structures, quantum fluxes, jumps, and vibrations,

 and others.