Theory graceli light.

The light undergoes action of magnetic fields and radiation suffering deceleration and deformation. And the light varies in type and density.


The laser has a type and can be stationary within liquid and leave for cracks in other lower plane than entered or higher. And other types of plasmas to have other rates and intensities.



The same applies to radiation and radioactivity of uranium and thorium.




Theory of transcendental numbers.


Every result of the function x, y will be incorporated into the function that will result w, so the procedure continues infinitely.


Log x / x [n].




1 / p / [p / p P] [n].



Transcendent geometry values ​​of transcendental numbers.



Where x is a distance, an angle, or a geometric deformation that will produce other strains, and can also be compared to the intensity values ​​over time.




Imaginative geometry.

Which is neither Euclidean nor curve.


These are images that change as intensity values, movements, time and positions and observers offsets.


Example.

1  / p r / [p r / p P] [n]. [i, m, speed, t, [p, d [observer].


R = radius, or angle, p = progression.



For example geo-algebra by headquarters functions.


Here the functions we do not have numbers, but results of functions sequences or partial results until w limit, or average statistics to ML limit.



1 / p / [p / p P] [n]. {*] X / p / [p / p P] [n]. {*] W / w / [p / p P] [n].


Log xr / xr [n].    {*]    Log x / x [n].      {*]                 Log x / x [n].


Where the result can be obtained by diagonal, or vertical relationship or horizontal.


Geometry spacetime wave speed.


Imagine a tape that is pulled in a wave radiation system often flows x, i intensity.


Thus, this tape will have an angular variation of x wave flows.


Tape speed / wave flow / time. So we have a mathematical and physical reality to a gravitational system, and light in a radiation system.


Where the medium deforms agents and produce another reality.


That is, even if gravity does not become waves to be in a radiation system. And radiation becomes waves. The same eat light and gravity in a radiation system.


Light, gravity = Tape speed / wave / time flow.


And we have a system of a continuum between radiation waves flow, gravity, light, space weather and waves. And radiation.


Sequential progressive analytics.


Function range-graceli.



       [P / γ]
1/3 =



Sequence of equal and increasing numbers.

Since γ = p.

P = progression.




Mathematics graceli.


Transcendent mathematics.



When the elements involve more than one result of a function, when they involve more than one branch of mathematics such as algebra, geometry, polynomial, exponents and progressions, and other matrices and statistics. [see theory unified mathematics graceli.


And when it involves results of functions that jump to other functions and become part of them. As the sigma function and gamma- graceli.



Symmetric geometry.



When calculating one side and the results become part of the other side, or the front and smaller in size or larger. Flowers, and members and wings represent it.



Homofórmica geometry.

Where everywhere look, but with a few changes. We see this in the spiral [see hat graceli [published on the Internet].




Infinitesimal for infinitesimal variations on variations.


Infinitesimal variables at x limit the equation passing other stick increasing or decreasing progressive variables.


This can be seen on a horse shooting and tends to reduce its acceleration. That is, within a system infinitesimal infinitesimal have other systems.


Or even a wave having a flow rate and x is replaced by x variables in these flows unstable.

LSG = graceli sequences limit.


Log y / y '[n] to limit [LSG] [a, q, r, p / p P [n], 0]].

 a = alternância.

This can be used in geometry, in the calculation, the headquarters, statistics, algebra and theory of sub-infinitesimal numbers.


In this sense we see that employs exponent functions and fractions of these functions. And where you have large numbers when you add or multiply the results of these sequences of sequential functions.

That is, if you have a partial system, infinitesimal and large numbers with the multiplication and even division.


Which can be:


Log y / y '[n] to limit [LSG] [a, q, r, p / p P [n], 0]] / γ.



That is found by a statistical average, or even a matrix system where the results may be different.





That is, if can have varying results, infinitesimal and also great for divisions. Or even have results in ways that are not for addition and multiplication.



So graceli developed another system for calculating it is not by derivatives, differential and integral.



But, for exponents, roots, irrational and transcendental numbers and divisions to address and find great numbers.





In this role you may have limits to the sequence [LSG x], or even have a mean variability involving up to the limit x, or even arrays with crossed sequences results to the x limit, or until the limit x W limit.


And where in this case the symbol leaves the scene, which will serve to other infinitesimal in the same position, or results of infinitesimal numbers to large.

The infinitesimal graceli are not continuous but progressive decreasing sequences and transcendent. You see this in the number of graceli to find the value of pi.


Or the sigma graceli and gamma functions.


          * √P X [n] [+, -, / *] log w / w [n] [+, -, /, *] [p / p P [n]
    U


P = progression.
          X √ * / p [n] [+, -, / *] log w / w [n] [+, -, /, *] [p / p P [n]
 U / γ.



Here we have a system that involves root, logarithms and exponents progressions, which may produce large or infinitesimal numbers.