transcendent and indeterminate Graceli categorial atom.
uncertainties of Graceli.
principle of the exclusion of Pauli in the Graceli categorical system.


the atom is a system of particles that follows the decadimensional and categorial Graceli system. therefore, it is unstable, changeable, and indeterminate.



Graceli decadimensional system.

1] Cosmic space.
2] Cosmic and quantum time.
3] Structures.
4] Energy.
5] Phenomena.
6] Potential.
7] Phase transitions of physical [amorphous and crystalline] states and states of energies and phenomena of Graceli.
8] Types and levels of magnetism [in paramagnetic, diamagnetic, ferromagnetic] and electricity, radioactivity [fissions and fusions], and light [laser, maser, incandescence, fluorescence, phosphorescence, and others.
9] thermal specificity, other energies, and structure phenomena, and phase transitions.
10] action time specificity in physical and quantum processes.

Graceli categorical matrix.

T l    T l     E l       Fl         dfG l 
N l    El                 tf l
P l    Ml                 tfefel
Ta l   Rl
         Ll
         Dl


the vibrations of particles, as well as the scattering of electrons and light follow and are produced according to the decadimensional and categorial Graceli system.


two postulates:

 First - The energy (W) of each electron in a transcendent categorial configuration is given in a decadimensional system Graceli e:
T l    T l     E l       Fl         dfG l 
N l    El                 tf l
P l    Ml                 tfefel
Ta l   Rl
         Ll
         Dl


 Second - The passage of systems between different indeterminate transcendent categorial configurations is followed by the emission of a categorical undeterminable and variable radiation, for which the ratio between its frequency (ν) (or wavelength λ) and the amount of emitted energy Wτ2 - Wτ1) is given by: Wτ2 - Wτ1 = h ν.
x
T l    T l     E l       Fl         dfG l 
N l    El                 tf l
P l    Ml                 tfefel
Ta l   Rl
         Ll
         Dl

in the undetermined transcendent categorical system Graceli the atom does not divide into orbitals and atomic numbers, but into transcendent categories, where the electrons are free, and not trapped in orbits.


every particle is transcendent by its internal interactions and relations with the outer world, and also that the energies are transformed into other energies, phenomena altering the structures themselves.



these variables can be found in the Balmer spectral series, whenever some form of energy is approached, or even in some radioactive, or luminescent, or even ferromagnetic atoms.




frequency of LAMOR in the GRACELI CATEGORY SYSTEM.

It is worth noting that, also in 1897 (op cit), Larmor presented another theoretical explanation for EfZ. According to him, the magnetic effect of a magnetic field H on charged particles describing circular orbits was that of superimposing on the proper frequency of rotation a precessional frequency around H and of the same value calculated by Lorentz. This precessional frequency was known as Larmor frequency

 νL = [e / (2m)] × [H / (2π c)].

X
T l    T l     E l       Fl         dfG l 
N l    El                 tf l
P l    Ml                 tfefel
Ta l   Rl
         Ll
         Dl


General Law of the Phenomenon of Magnetic Disturbance of Spectral Lines, according to which the spectral series of a given substance have the same pattern (pattern) of components in the presence of a magnetic field; on the other hand, spectral lines of different elements of the same family (eg, alkalis or rare earths) have the same EfZ. This law (rule) of Preston was tried to be explained, without success, by Lorentz, still in 1899, using his Theory of the Electron.
X

X
T l    T l     E l       Fl         dfG l 
N l    El                 tf l
P l    Ml                 tfefel
Ta l   Rl
         Ll
         Dl



the state CATEGORY of energy (E) of an atom in an external magnetic field (H) was given by the expression: E = E1 + gmh L ν, where E1 is the energy state of the undisturbed atom eg is a "proportionality factor "

IT IS TRANSFERRED BY:


E = E1 + g m h L ν
X
T l    T l     E l       Fl         dfG l 
N l    El                 tf l
P l    Ml                 tfefel
Ta l   Rl
         Ll
         Dl


TO APPROACH OTHER ENERGIES TO ELETRONS AND ATOMS AS THE SPECTRUM LINES WILL HAVE APPROXIMATE INDEXES OF VARIATIONS, BUT NOT AT THE SAME INTENSITY.

with this one has a single quantum number for the atom, or infinite quantum numbers, that is, the transcendent and indeterminate categories of Graceli and its decadimensional system.

T l    T l     E l       Fl         dfG l 
N l    El                 tf l
P l    Ml                 tfefel
Ta l   Rl
         Ll
         Dl



HERE, IT FOLLOWS THE PRINCIPLE OF THE TRANSCENDENT UNCERTAIN UNCERTAINTY OF Graceli.

WHERE THE TIME AND SPACE [of phenomena happen], THE PHENOMENA, STRUCTURES AND ENERGIES VARY AS GRACELI CATEGORIES.

principle of the exclusion of Pauli in the Graceli categorical system.


  Principle of Exclusion (PE): - Two electrons in a central force field can never be in bonding energy states with the same four quantum numbers. because they vary and interact according to the decadimensional and categorical Graceli system.

T l    T l     E l       Fl         dfG l 
N l    El                 tf l
P l    Ml                 tfefel
Ta l   Rl
         Ll
         Dl