Graceli quantum field theory.

Quantum field graceli the fotoradioativo effect, which produces mass of the quantum field, the quantum field inertia, and momentum of the quantum field.

And where the mass becomes a property of quantum field, and which have a triality within the quantum field, or a unified and equivalent continuum and interactions: quantum field, particles, waves and energy.

Ie two continuuns: the between the structural elements [field, particles, waves and energy], the dynamic phenomenal elements within the quantum field graceli [mass, energy, inertia, momentum], the phenomenal dimensional elements, and the relationship between equivalence continuum and uniqueness.

A good example of quantum field graceli have during welding of metals. Where the physical environment is changed, both the space within the metals and the electrodes and own electricity and their chains. And in light photons and the temperature produced.

And where you have an instant instability leading to an overall indeterminalidade both dynamic, dimensional, geometric, structural, and phenomena and interactions and internal and external transformations.

During the quantum field time space, the geometry, the orbits of electrons, jumps, cargo systems, spins, parities, binding energy, sense of movement, vibration, the rienced oscillations, particle density wave lfuxos, scope of fields and photons, and many other phenomena all come in a huge instabildaide system and indeterminaldiade phenomena and mechanics, as well as the interactions and transformations.

Ie have a dimensional and geometric physical reality and in particular the quantum field.

Graceli principle of expansion in graceli quantum field.

Within the quantum field mass, space, inertia, momentum, time, energy dilate a tiny progression, unstable and transcendent of an agent and the other.

Φ = tG

    

   

tG=      I = CQG = R + M / d2 = FDVIII

           

i = 1

      

CQG = R + M / d2 = FDVIII

Quantum field graceli = radiation + metal / distance squared. = Phenomena expansion unstable, unpredictable and indeterminate variations.

Transcálculo.

Sigma function [ς] graceli.

 It is an endless results function, and outputs that produce other results, other shapes producing shapes from it, an infinite production system for production. Also working in sequence of infinitesimal numbers and boundaries between parts, or partial, or full of functions.

[ς] s sigma representing progressive sequences and or the same, as the number of graceli to find the value of pi. [see already published on the Internet].

The graceli transcálculo is a type of calculation that has more than one result for the same function, or the result of a function that produces another result, and that of others, so infinitely.

In other words, we have several results, and also intermediate results and results that change and produce different results.

1- result of a sequence [/, *, -, +] by a sequence of u r function.

[ς] FW] p / p P [n]

[ς] FW] x / p P [n]

ς] FW x / 1 + p P [n]

[ς] FW] x / p P [n] + Logg / G [n].

[ς] FW] p / p P [n] + Logg / G [n].

                 p / p P [n] + Logg / G [n].

    [ς] FR

               p / PPC [n] + Logg / G [n].                     p / ppb [n] + Logg / G [n].

[ς] FR] S                                        [/, *, -, +]        FT

[ς] Sgx fw [/, *, -, +] sgu fr [n] [n]

2- Where we results of all sequences function w [/, *, -, +] for all sequences r function.

[ς] Sgx the y fw [/, *, -, +] sgu the h fr [n].

[ς] the QMS y fp [/, *, -, +] sgb the fz h [n]. Sgx the y fw [/, *, -, +] sgu the h fr [n].

3- sum Results sequences to the limit L w function [/, *, -, +] by L limit of sum of r function.

[ς] LSgx the y fw [/, *, -, +] Lsgu the h fr [n].

4- or just sequence by sequence.

To have a geometry overlapping curves, or if it is to have spiral coils one within the other in an overlapping process, and where each has its rays in different openings.

In this case just switch one of the radius function by function [r] if it is to spirals.