Graceli effect of atomic structure, physical and quantum states, and electromagnetism.
About emissions from electronics and other phenomena.

The specific heat of the solids does not cancel when the temperature approaches absolute zero.
Also, each type, material level and potential, atomic structure, ion and entanglement interactions, Graceli quantum and quantum physics phase change potential.

As well as inside any solid, condensed, and other states and in each phase in which one finds oneself has levels and potentials of transformations of structures and energies.

Thus, each solid or condensate, liquid or gas, has other types of energies within itself where the specific heat undergoes changes, variations and effects, which are variable according to types, levels and potentials of energies, states, atomic structures and categories and parameters Of Graceli.

Where also the chains of Graceli pass through these varations and have actions on all other phenomena, and effects of atomic structures, isotopes, decays, entropies, dilations, quantum fluxes and vibratory flows, entanglements, and other agents and phenomena.
The specific heat of the solids does not cancel when the temperature approaches absolute zero.
That is, it follows variables and variational and chain effects of Graceli, with variables for agents, phenomena, and atomic structure involved.

Thus, the iron has a specific heat, the other mercury, the other diamond. This is confirmed in the acceleration of expansion and entropy, and in all other phenomena, which are found in:
Which varies according to energy levels and indices, as well as tunneling potentials, types of radioactivity [fissions, fusions], and isotopes, intensity, spacing, isotope transformation potential, spreading potential, bonding and unbundling potential, Potential and type of entanglement, insertion time, frequency and intensity, color [in the case of photoelectric effect of Graceli], categories of energies and materials [type, levels and potentials [such as emission capacity, temperature and thermicity, electromagneticity And electromagnetism, radioactivity and radioactivity, isotopes and isotopecity, and other variable agents with effects of intensity and scattering, range, dynamic potential [dynamics and momentum], variable and random fluxes of emissions, and on the emissions of electrons and thermal field, Electric and magnetic field, radioactive field, dynamic field. With variables according to the parameters of Graceli.


With this, we also have an indeterministic transcendentalism of Graceli chains for the condensed, solid, and specific heat states, where a trans-intermechanical is formed for types, levels, and potentials of energies, transformations, ion and intermolecular interactions, Of entanglements, and other phenomena such as those cited above.


Thus, one has the general trans-intermechanism of Graceli for condensed state, specific heat, emissions, tunnels, radioactivity and other phenomena in a relation:

Tim [tig] = undetermined trans-intemechanical transcendent of Graceli
Ces [c] = specific heat of solids and variational effects of condensates.
Pacc [dc] [tec] [G] = parameters, agents, categories, strings, dimensions categories, trans-states categories, Graceli.

Tim [tig] = Ces [c] / Pacc [dc] [tec] [G].


The same atomic structure can have more than one quantum state, and transcendent state. [With potentials and levels of different energies].

When placing a container with mercury on a magnet it will be seen that it forms peak almost mayors in the dilation of the mercury.

However, at the lowest level it is observed that each peak has differences in relation to other peaks, this also happens with the acceleration of growth of the peaks.

Two patterns of variational effects occur in these phenomena of growth, acceleration, expansion, entropies, dilations, entanglements, ion interactions, electron emissions, conductivity, and other phenomena and effects.
One of the own magnetic actions of varied flows and states with quantum actions, and so does mercury.

This also happens for undetermined transcendentality for other effects and quantum states.

Effects states and atomic structure and electromagnetism.


Effects states and atomic structure and electromagnetism.

3,371 to 3,390.

Thus, the action of dilation is not uniform and isometric, and neither symmetric, but with variations and effects according to types, levels, and potentials of energies, materials, and according to distance action potentials, and distribution potentials.

Thus, nature also confirms that in this case distributions of non-uniform actions, therefore probabilistic peaks and not a uniform growth, and peaks also with variations and effects, in the same peaks in the same material, and also with variations and effects for materials many different.

Where a type of electromagnetic effect is formed on physical and quantum states, with variations on several phenomena such as:


Which varies according to energy levels and indices, as well as tunneling potentials, types of radioactivity [fissions, fusions], and isotopes, intensity, spacing, isotope transformation potential, spreading potential, bonding and unbundling potential, Potential and type of entanglement, insertion time, frequency and intensity, color [in the case of photoelectric effect of Graceli], categories of energies and materials [type, levels and potentials [such as emission capacity, temperature and thermicity, electromagneticity And electromagnetism, radioactivity and radioactivity, isotopes and isotopecity, and other variable agents with effects of intensity and scattering, range, dynamic potential [dynamics and momentum], variable and random fluxes of emissions, and on the emissions of electrons and thermal field, Electric and magnetic field, radioactive field, dynamic field. With variables according to the parameters of Graceli.

And that varies according to states, atomic structures, energy binding and disaggregation, and electromagnetism.