FggEFiin... = fg1e [â]. fg2 e [â]. fg3 e [â]. fg4 e [â]. fgn... e [â] .pi. tr.a.r. /[ fc/t] + oo + cf/ c.
Universal function Graceli .
Mathematics Graceli undetermined relativistic , and relativity, quantum indeterministic .
Ie , the function connects and develops a mathematical variation as the connection is requested . With this one makes a mathematical relativity matrix as a variational function . Ie , it ceases to be just link and becomes algebraic .
Function graceli infinite algebraic and variational graceli infinite numbers and infinite oscillatory matrices ..
FggEFiin... = fg1e [â]. fg2 e [â]. fg3 e [â]. fg4 e [â]. fgn... e [â] .pi. tr.a.r. /[ fc/t] + oo + cf/ c.
FggEFiin... = fg1e [â]/ fg2 e [â]/ fg3 e [â]/ fg4 e [â]/ fgn... e [â] .pi. tr.a.r. /[ fc/t] + oo + cf/ c.
FggEFiin... = fg1e [â].log fg2 e [â].log fg3 e [â].log fg4 e [â]+ fgn... e [â] .pi. tr.a.r. /[ fc/t] + oo + cf/ c.
FggEFiin... = fg1e [â].ee fg2 e [â] .ee fg3 e [â]+ fg4 e [â]+ fgn... e [â] .pi. tr.a.r. /[ fc/t] + oo + cf/ c.
Ee = high potency.
Imagine hundreds of children swinging each two ropes connected by thousands of lines , we have in this case a ripple geometry dinâmica.e oscillatory dynamics matrices for speed and time.
And that the strings and lines are forms of elastic and can stretch . So we have more of x n- dimensions Graceli where we have varied forms and with greater space between strings and lines , but stretched and with less movement .
Where the strings are fgx , and the lines are the thousands of points , and the kids energy, and moves one more dimension of n- dimensions Graceli , and when they are are the interactions and entanglements , and the vision for observers own positions relativity is that each has at every moment , and the speed and acceleration of the movements have the time and own and relative geometric shapes of each observer with a geometry that we graceli dynamic , mutable and relative oscillatory variational matrix .
And an algebraic calculation that produces variable and changeable forms for the energy , time and motion . And a scope for interactions and quantum chaos , statistics and probability , and quantum uncertainty and quantum statistical mechanics .
As well as a geometry of entanglement of quantum fields , interactions , chaos , uncertainty , and probability and statistics . That is, the quantum statistical mechanics .
And it opens the possibility of production of new algebraic calculation for infinitesimal , derivatives and integrals . Ie , forms that structure from graceli matrix algebra .
And a cube formed wire with interconnected internal parts , where each observer has a picture of the cube as its positioning , we have in this case a relativity in relation to observers.
And when it comes to math and have infinite numbers graceli or negligible , and indeterminate complex numbers as each function will be variational .
See graceli comprehensive variational theory .
FggEFiin... = fg1e [â]+ fg2 e [â]+ fg3 e [â]+ fg4 e [â]+ fgn... e [â] .pi. tr.a.r. /[ fc/t] + oo + cf/ c.
Universal function Graceli .
Graceli function for arrays of statistics , and quantum oscillatory matrices , interactions and infinitesimal uncertainties . And interaction diagrams and uncertainties , flows and connections , and even transformations and disintegrations .
And that leads to produce a tangle of tiny matrices that lead to infinitesimal statistics .
Where we have the infinitesimal quantum statistical mechanics graceli links between tiny interactions present in graceli functions .
And it's the same happening with quantum physics , oscillatory , interactions , quantum oscillations and flows of gases and electrons when super activated .
And that is exactly what happens with the frequency of sounds and sound waves .
And a new calculus of derivatives and integrals between points of an infinitesimal motion system is formed.
And we have an infinitesimal dynamic geometry flows and interactions n -dimensional , where forms become mutable and variable , and carried a negligible see the grooves and crevices , and even the smallest peaks between points, lines , curves , waves , and even particles and molecules.
It is the geometry that determines the phenomena , but the universal Graceli function that covers the phenomena and geometry and algebra to varied and dynamic forms , and variational .
General function Graceli to entanglement of quantum interactions . And quantum streams of particles.
FggEFiin... = fg1e [â]+ fg2 e [â]+ fg3 e [â]+ fg4 e [â]+ fgn... e [â] .pi. tr.a.r. /[ fc/t] + oo + cf/ c.
= E = energy.
E = INTERACTIONS Quantum entanglement .
F = FLOW PULSES QUANTUM PARTICLE .
ii = negligible interactions , and negligible uncertainties .
Graceli general function for oscillatory matrices and quantum chaos , and physical interactions , radiation , and uncertainties .
Graceli function to quantum chaos . And graceli general function for oscillatory matrices and uncertainties .
Fggn ... FG1 = [ â ] + FG2 [ â ] + FG3 [ â ] + FG4 [ â ] + fgn ... [ â ] . pi . tr.a.r. / [ Fc / t ] oo + + cf / c .
Cf = flow cycles .
Where fg1â may be the first column.
Where fg2â may be the first line. Thus successively .
Taking into consideration all the movements and flows with respect to speed of light and time.
For this sole function is possible to find all oscillatory matrices and support new mothers giving them varied movements and flows .
Producing Graceli geometry that changes at the speed of light divided by time [ c / t ] .
Quantum geometry and dynamics Graceli both can be used in quantum chaos of radiation and links interactions between radiation fields and loads between particles .
Ie , can also be brought to general and universal quantum uncertainty .
And both can be used for particles , waves and wave interactions , or even interactions of fields , actions or loads .
It differs from other geometries because the quantum wave infinitesimal geometry is based Graceli the variability and dynamic while the others are static .
And you can have more than one function for both the physical world and for the mathematical world .
Ie , the infinitesimal work and changeable graphics, and works in the same function both curling , oscillating world of particle interactions , fields and radiation . Quantum Etc. , of chaos and uncertainty .
Ie , a general function for both mathematics and for physics.
This can also be used for oscillatory matrices.
And the points are interconnected in other systems with the same variables .
Ie we have this interconnection points between dimensional geometric systems geometry itself. Forming various shapes every interconnection between points .
The same is true of physical interactions between systems , and produce dimensions and geometries themselves as the intensity and quantity of interactions , or even interconnections .
Fg 1 = 1 point of the system [ with acceleration 1 , 2 direction , toward 3 ] with section 1b of the system b [ with acceleration 4 , 5 direction , toward 6 ] . And with points n ... accelerations with n ... No way ... No way ... .
Fg2 = 2 point system b [ with acceleration 4 , 5 direction , toward 6 ] . 2b with point c system [ 7 accelerated , meaning 8 towards 9 ] . And with points ... n with accelerations n ... n ... directions , directions n ... . so forth.
Fggn ... FG1 = [ â ] + FG2 [ â ] + FG3 [ â ] + FG4 [ â ] + fgn ... [ â ] . pi . tr.a.r. / fc / t ] + o / c .
Imagine an image with wave motion and varied forms in relation to the speed of light [ c ] and time [ T ] .
And covers the theories :
Graceli theory of oscillatory matrices dessimétricas frequencies of the sounds and movements and flows of particles .
statistical mechanics and quantum uncertainty Graceli .
And graceli variational theory of flows and oscillating movements of particles .
Enigma Graceli .
In the physical world , when you:
1 +1 = 1.
2 = 2 +2 .
3 +3 = 3 .
+ n ... n ... = N ...
Wave dynamics and geometry Graceli .
As movements function source movement interactions and connections between them , changing the positioning of points between the parts which connect them.
Fggn ... FG1 = [ â ] + FG2 [ â ] + FG3 [ â ] + FG4 [ â ] + fgn ... [ â ] . pi . tr.a.r. / fc / t ] + o / c .
More oo = oscillating motion of waves divided by the speed of light .
Quantum geometry Graceli n -dimensional . Interactions and connections between lines of particles and radiation .
Fggn ... FG1 = [ â ] + FG2 [ â ] + FG3 [ â ] + FG4 [ â ] + fgn ... [ â ] . pi . tr.a.r. / fc / t ] + fp / c .
More fp = periodic flows divided by the speed of light .
Infinitesimal geometry curve Graceli n -dimensional .
Fggn ... FG1 = [ â ] + FG2 [ â ] + FG3 [ â ] + FG4 [ â ] + fgn ... [ â ] . pi . tr.a.r. / fc / t ] .
And the points are interconnected in other systems with the same variables .
Ie we have this interconnection points between dimensional geometric systems geometry itself. Forming various shapes every interconnection between points .
The same is true of physical interactions between systems , and produce dimensions and geometries themselves as the intensity and quantity of interactions , or even interconnections .
Fg 1 = 1 point of the system [ with acceleration 1 , 2 direction , toward 3 ] with section 1b of the system b [ with acceleration 4 , 5 direction , toward 6 ] . And with points n ... accelerations with n ... No way ... No way ... .
Fg2 = 2 point system b [ with acceleration 4 , 5 direction , toward 6 ] . 2b with point c system [ 7 accelerated , meaning 8 towards 9 ] . And with points ... n with accelerations n ... n ... directions , directions n ... .
Fggn ... FG1 = [ angle + ] + FG2 [ angle + ] + + FG3 [ angle ] + + FG4 angle ] + fgn ... + [ angle ] , or pi radians . [ multiplied ] acceleration. [ multiplied ] . translação.rotação / [ fc / t ] . speed of light by time.
Geometry Graceli infinitesimal n -dimensional .
Fggn ... FG1 = [ â ] + FG2 [ â ] + FG3 [ â ] + FG4 [ â ] + fgn ... [ â ] . pi . A. R. / fc / t ] .
The graceli geometry is based on interconnections of interactions forming lines between points or between particles , or energy systems , and these particles are in motion stretching and shortening the line of interactions that hold them .
N-dimensional geometry changing infinitesimal .
Imagine a rubber band stretching and changing, filling and withering .
A balloon in rotation and deformation in space and moving .
Imagine a balloon inside that varies according to wind action .
More r , PI , more spin , more speed . About deformation.
Changing geometry deformations . Rotations and translations , and n- dimensions .
And where the infinitesimal distance between two points are peaks and troughs up and down according to variations in intensity of the system is located. Even in a straight line we see that the electron pulse and fluxonam everywhere . And the gases vary with the energy they are .
Limits , series and sequences , and algebraic graceli des - sequences , exponential , progressions , real and irrational function , logarithms and trigonometric numbers. What about pi .
Graceli limit.
The least whole or divided from the part , and the result being divided from the whole is equal to a threshold that never reaches 0 not 1 wound .
P / [ - ] = r .
R / t = g1 = +0 and -1 .
Infinitesimal Serie graceli
P / [ - ] = r .
R / t = g1
G1 / G2 = t .
G2 / t = g3 . gn ...
Infintesimal sequence graceli series.
P / [ - ] = r .
R / t = g1
G1 / G2 = t .
G2 / t = g3 . gn ...
Infinitesimal algebra Graceli series.
P / [ - ] = r .
R / t = g1
G1 / G2 = t .
G2 / t = g3 . gn ...
G1 + G2 + G3 . Gen. ... / t = g .
G2 + -g2.g3/gn / t = gn ...
G1 . G2 . g3 / t = g .
G2 / g4.gn. log g5 / t = gn ...
G1 + G2 + G5 / G9 with potential 3 / t = g .
G1 . G2 . + Speed = pi g .
Fggigipq = fgx + fgn ... / FEAM / [ fc / t ] .
Super- unified Graceli .
Infinitesimal theory of quantum interactions and transformative Graceli . [ Infinitesimus Graceli ] .
Graceli geometry of quantum interactions .
[ the shortest distance between two particles interactions are varied and infinitesimus flows ] . And not a straight line or a curve .
Fggigipq = fgx + fgn ... / FEAM / [ fc / t ] .
Universal function Graceli .
Interactions of energies of particles , intensity and scope , range particle radiation , uncertainties and probabilities , quantum structures and transformations , quantum radiation actions between quantum field changeable geometry and n-dimensional systems .
Ie , we have an integrated and unified system between phenomena , forms , structures , dimensions , transformations , probabilities and uncertainties .
Ie we have only function [ graceli universal function ] for interactions of particles and energy , quantum structures and transformations with respect to speed of light [ c ] systems , uncertainties and probabilities also in relation to the speed of light and time [ cet ] n- dimensions that change according to changes in energy and quantum interactions , and a geometry that changes as the variables which produces universe of quantum interactions , or variable forms and structures.
Infinitesimal quantum Graceli transformative .
Where have the changes according to the intensity of energy production and their interactions .
Thus we have a general and universal unification, a system of interactions that happen in intensity and quantity systems and range in relation to the time of production compared to the speed of light .
The speed of light with time unit for intensity and amount of quantum transformations for photoelectric effect , photons , and quantum radiation . And also radioactive decay and isotope production .
A quantum radiation a beam of light passes through transformations and an intensity range and intensity of weather in relation to the speed of light .
Ie , a photon of light , cosmic rays , x and gamma particles , quantum radiation are in intense transformative activity that happens at an intensity level of the time the speed of light . In this case the speed of light [c ] is the time parameter variation that occurs quantum change.
This also happens with the flow of electrons and quantum oscillation gases when activated by temperatures . Also happens to gases when under great pressure .
Every particle consists of three basic parts :
The material structure.
And peripheral layer of radiation fields.
And lines interconnections interactions with other particles and energies and energy fields .
Fggigipq = fgx + fgn ... / FEAM / [ fc / t ] .
Universal function Graceli .
Graceli function to uncertainties and geometries . Derivatives and integrals . Where lines of interactions are replaced by tangent points .
Its range in physics and in mathematics [ calculations and geometries ] .
Where the perfect symmetrical and universal does not exist in a very small scale and changeable . Where the plan , the straight and curved perfect and there are no universals , only points of peaks and changing variables and interconnections .
The dimensions are infinite and variable and changeable .
For thousands of hadrons , gluons , leptons , positrons , electrons million shares of fields and particle interactions and quantum energy systems . And the geometry of Graceli mutational forms .
IE , the particles are billion since become all the tiniest moment, why we have the speed of light divided by time . And where the determinant of the particles and their actions are the interactions of all the systems in which they are included .
And where we have an infinitesimal changing geometry, because there is no universal and final form , because all forms are the dimensions variational Graceli and in relation to time and the speed of light as quantifiers .
That is, the universal geometry is changeable, not one of the predetermined angles and shapes.
Even the hexagonal shape of snowflakes snows will never be the same as another .
Even the shape and density of an electron never be equal to each other, because both structures as geometric shapes are changeable and unrepeatable , or related changes and that the ends indeterminate . With this we have the uncertainty principle graceli structures , forms , and quantum transformations and quantum interactions .
Fggigipq = fgx + fgn ... / FEAM / [ fc / t ] .
Graceli function for quantum transformations between particle interactions and energy systems .
Quantum interactions between particles and energy systems divided by the speed of light divided by time . Scattering quantum interactions , entanglement transformation. And quantum uncertainties between particles and energy systems and quantum field .
Between gluons , leptons , electrons , positrons , etc. . for n - and n- dimensional interactions of energies between n- particle systems .
Using Feynman diagrams , the same calculation would take about 500 pages of algebra. While Graceli functions can be used to get all the results .
Not the tangent point to a derived , but derived from interactions between points in energy systems . Where we have fp / ft . function of the split part of the whole . Or even the function time divided by the speed of light function , function or speed of light divided by the time function .
Thus, the integral features have a function lines derived from interactions between energy or n- particle systems that undergo transformations n- n- entanglement , and n- dispersions by the equation c / time.
Thus , we function interactions and transformations of entanglements and dispersions led to uncertainties of n- energy intensity , scope and means of action / [ c / t ] .
Fggigipq = fgx + fgn ... / FEAM / [ fc / t ] .
Fggigipq = Graceli General function of geometry and quantum uncertainty and process interactions .
Fgx graceli function x + [ with ] n- function Graceli .
Feam = function energy range [ away ] and a half -is processes .
Fc / t = function of the speed of light / by time.
Fggn ... = FG1 + FG2 FG3 + + + FG4 fgn ...
Graceli general function for changing geometry, interactions and quantum uncertainty .
Author : Luiz Ancelmo Graceli .
Graceli function to sum dimensional systems , and transgeométrico and transdimensional .
A points system dimensions including translation, rotation , acceleration, and with directions own directions and accelerations for each dimensional system in motion , where each system has its points changed every second. Ie we have a variation of time , movement and space that changes every tiny point .
And the points are interconnected in other systems with the same variables .
Ie we have this interconnection points between dimensional geometric systems geometry itself. Forming various shapes every interconnection between points .
The same is true of physical interactions between systems , and produce dimensions and geometries themselves as the intensity and quantity of interactions , or even interconnections .
Fg 1 = 1 point of the system [ with acceleration 1 , 2 direction , toward 3 ] with section 1b of the system b [ with acceleration 4 , 5 direction , toward 6 ] . And with points n ... accelerations with n ... No way ... No way ... .
Fg2 = 2 point system b [ with acceleration 4 , 5 direction , toward 6 ] . 2b with point c system [ 7 accelerated , meaning 8 towards 9 ] . And with points ... n with accelerations n ... n ... directions , directions n ... .
So with FG3 FG4 + + fgn ... the same perspective of FG1 and FG2 .
Thus we have the general function of Graceli transgeometria and transdimensionality with transfenômenos transinterações and between systems , and leading to a quantum uncertainty taken to extremes.
Fggn ... = FG1 + FG2 FG3 + + + FG4 fgn ...
Between systems of systems between points and between a point with all points of other systems , or all points of all systems .
General Function graceli taken to extreme points of interconnections .
And this in a series Graceli system , we have graceli system and points interconnected infinitesimal decimal series . Forming a geometry of infinitesimal points .
Thus , infinitely between points depending on the system in question can ask .
Ie a physical system of indeterminacy and uncertainty between points and phenomena . Where some phenomena act in other forming a system of interactions and variational tiny quantum uncertainty .
And a variational geometric and dimensional variational system with dimensions and interconnections between each point with other points of other dynamic systems .
And interconnections between points of infinitesimal gracel series .
Fg1 = point of the 1st series of the system [ with acceleration 1 , 2 direction , toward 3 ] with section 1b of the second series of the system b [ with acceleration 4 , 5 direction , toward 6 ] . And with points n ... accelerations with n ... No way ... No way ... .
Fg2 = point 2 of the second graceli system serial b [ with acceleration 4 , 5 direction , toward 6 ] . 2b with point c system [ 7 accelerated , meaning 8 towards 9 ] . And with points ... n with accelerations n ... n ... directions , directions n ... .
So with FG3 FG4 + + fgn ... the same perspective of FG1 and FG2 .
Fggn ... = FG1 + FG2 FG3 + + + FG4 fgn ...
What we have is the spider web between points forming a geometry transposition and varied forms between all parties and tiny dots .
And we have an infinitesimal system interactions and uncertainties when taken to infinity .
As each fgx [function graceli x ] points that form with directions , directions and different accelerations in each moment and acceleration have interactions links as lines cobwebs that interlock in all directions as the amount of fgn ... when brought to the infinitesimal . Thus we have a system to function graceli real numbers or even for graceli decimal series of algebraic functions and their potentiation , multiplication, division , or even both progressions and statistics .
Thus we have the Graceli function to the physical world of phenomena and interactions between particles and energy , and the quantum world of physical uncertainties , and also a geometric world and transgeometrico formed with the function of links between points of systems in motion with direction own direction and acceleration.
1 - So , we have graceli functions interconnections .
2 - Forming geometric lines and shapes transgeometricas producing . Where are the forms change as graceli dimensions of movement.
3 - Where are other dimensions such as movement . And the dimensions become mutable .
4 - And where have the function of quantum uncertainty graceli interactions between systems , and these systems points in interactions with all points of all points of all systems to fgx fgn ...
5 - With this we have a direct connection with the decimal system function and infinitesimal graceli series .
Graceli ndimensional mutational geometry and three-dimensional shapes .
For rectangles and squares . With four points x direction and y direction up to a height limit a1 , meaningful x2e y2 direction to a longitudinal limit l2 , and meaningful direction x3 and y3 to a latitudinal limit l3 .
For rectangles in rotation - with acceleration tr4 translation or rotation . With meaning and direction x4 and y4 .
For triangles. With three points of origin with slope i1 between all points or only two or one.
And with meaning and direction of x and y for height , longitude and latitude .
Tubes and cones . And in movements and deformations .
Sum of points with a small perpendicular to each other in relation to a circle of origin.
Have no inclination tubes . And with slope we cones .
And bequeathing relative rotation or translation have the dimension of the movement of meaning , direction and acceleration.
And taking into account at any point have a small slope pies and changing forms as the movements .
And assuming tubes and cones may have thicknesses between an inner side and outer side we have the general function graceli [ fgg ] , where as the distance between each side have joined the lines of the function graceli x with y graceli function , and function n ... forming the wall thickness of the cone .
Fgx + + FGY fgn ... = Thickness .
With the slope at certain points we pies forms .
Fgx + + FGY fgn ... + Fg incl at certain points.
And with the momentum we have:
Fgx + + FGY fgn ... Incl + fg + fg dynamic [ with meaning , direction and acceleration ] .
For systems in rotation and translation .
For systems in rotation and in translation and deformation as balloons that change with the wind.
As the action of external agents have deformations and dynamics as seen above.
Answer Graceli puzzle .
When a frame or image is superimposed exactly on another image of the same and relative to an observer .
Principle Graceli the disappearance of similar with respect to an observer or receiver.
Unified theory Graceli Transfenomênica , and transdimensional traansgeométrica .
Author : Luiz Ancelmo Graceli .
In a phenomena and interactions that change characteristics and types have electricity system that changes the dynamics of rotations and translations , and even inertia in large dynamic start to increase your natural feature and enhances its function duante the route increases gradually increases as the dynamic speed.
Ie we have the phenomena that range of types and characteristics , and change intensities according to the interactions of energy and intensity .
With this etemos a changing system , and on which unified the phenomena mudfam feneomenos as others involved in the system . As the vibration of electrons in thermodynamics and dilatation.
Ie we have phenomena that change types and characteristics that produce variations in the physical dimensions and the geometry itself .
And where inertia also arises as a variational and changeable physical dimension .
[see on the internet graceli superdimensões and ¨ for over forty dimensions Graceli ¨ ] .
Theory of Inter - dimensionality Graceli , and overall uniqueness .
Interactional dynamics and inter -dimensional graceli and changeable infinitesimal geometry.
Why do they seem to move in three dimensions of space and change over time . However, time does not determine the meaning . Direction, flows of meanings and directions, tiny streams of meaning and direction and the concave and convex variation.
That is, the geometry and dimensions of space and time must be included in other dimensions, that is the movement and dynamic , as well as their types of energy , intensity , density and variability .
Ie we have a universe of inter - dimensionality where each act on each other, and the interactions between energy producing other forms of energy such as electricity and the magnetism term , or even the action of the dynamics on all forms of energy and dynamics ie , we have a [ graceli interactional dynamics and inter -dimensional infinitesimal geometry and changeable ] inter -dimensional interactions dynamicism phenomenal .
One point is the quantum particle flux with a variation of intensity I q depends on the intensity and type and form of energy and their interactions with the system and the internal and external environment .
Here we have a relationship and a dependency between physical interactions and inter - dimensions , where the physical interactions produce dynamic dimensions , dimensions and dynamics to produce dynamic and changeable geometry.
Ie we have a uniqueness between physical interactions , energy, inter - dimensional, and phenomenal and dynamic geometry.
Changing geometry , variational and double Graceli . Quantum principle Graceli the appearance and disappearance .
Author : Luiz Ancelmo Graceli .
Changing from concave to convex , concave and convex geometry.
Like jellyfish moving through the water .
Or even infinitesimal changeable geometry that vary in both sides of a concave-convex changing them diagram and the changing of infinitesimal , such pores that open and close up and down , or even maps cardiograms .
That is, a geometry within another larger and mutations.
Principle Graceli the appearance and disappearance .
Interactions between particles with large energy potentials and fields with loads and strong and weak fields can produce disappearance of particles much the same phenomenon as for observers .
Where these particles can reappear and even disappear and never reappear.
And particles that arise within the energy system interactions . That is, the power system can cluster large amounts of energy making groupings forming particles arise from the energy of visible radiation .
Geometry and transpositional transdimensional Graceli . And the relative positions and distances of observers . Theory of actions and interactions on ways and means graceli general uncertainty .
Function and Diagrams Graceli probability of uncertainties in interactions with energy and distance . Phenomenality and improbable versus structure.
diagramatical function Graceli interactions and uncertainties FDG = ii .
Author : Luiz Ancelmo Graceli .
Or look in precious stones and even within compact ice and glasses . The forms change according to the variable density, which form the structures thus have a structural geometry, variable and discontinuous , and not homogeneous .
That is, the space becomes variable and related to power system and structures and transposition time also becomes variable. Ie , the space is not homogeneous within the energies and structures. With this geometry and dimensions shall be not homogeneous .
Even within auroras within Rainbow have a trans-dimensional geometry and transpositional and transgeométrico . And that according to the position of observers each observer will have a sense of space .
Time also within these structures also becomes variable and inhomogeneous .
The geometry can also follow colors , forming the colormetria and dimensioestruturas .
Thus , between two points does not have space, but different colors and densities and structures .
Ie , it is not curved nor straight , but the density and forms that are relative positions and distances and observers.
Ie , it is not the space or time , but the structures , densities and colors that forms shapes , distances , space and time.
Upon entering the water the light changes direction and direction of movement. The same happens on the ice.
In crystals the light changes direction and direction at various points as found densities and different structures . And it brought a sense we see that the smallest dimensions and geometries are infinitesimal , inhomogeneous and discontinuous .
Phenomenalism Graceli .
Theory of actions and interactions on ways and means graceli general uncertainty .
The physical reality are interactions , actions and phenomena . And no structures .
Within any means we have no means isolated , and we are particles in interactions producing actions on each other , so a particle is not and will never represent a constant of its physical nature , but the universe of interactions in which see where we have a universe of stocks [ not homogeneous ] and infinitesimal discontinuous media .
So what we have is not particle but actions of interactions that take place in a medium .
With that we will never have with absolute certainty what is a particle and a means and not a complete action .
With this we have an uncertainty principle in physics and particle action, and we have a physical interactions and not a physical particle structure .
That is, we will never know a boson , gluon , neutrino , electron, proton in its physical and chemical integrity , but a proximity and likelihood of action that they may be playing .
An electron changes position constantly and infinitesimally thus transforming it into a component variational that this variability depends on all phenomena , actions and structures that are occurring at that particular time .
With this we have not the time , position , structure , loads at any given time , spin , spin the exact sense , shape and geometrization passing the particle or even the action at that particular moment . Ie we have a general uncertainty principle Graceli and structures .
With this we have are likely and improbable , and energy , actions, interactions and shapes and densities actions are fundamental components of reality . And no space and time .
For this we need the geometry and physics of energy density graceli actions , where the dimensions become part of the universe of actions and interactions .
The higher the interactions and actions that take place between energy systems as close as possible the greater the uncertainty and improvabilidade .
Graceli uncertainty function in a power system.
Isi = e / d .
Uncertainty in interactions = amount of energy system divided by the distance .
[ odds and develop diagram improvabilidade ]
Diagrams Graceli probability of uncertainties in the interactions .
Of a with b . a system where only two particles or actions between two particles .
Of a with b to c . a system where we only have three particles or very close action between three particles .
A to B , with C , with d. . n ... so infinitely . In a system of n particles , and is what we have in nature and within the means of actions and interactions .
Where is also taken into account the quantum state , power , temperature , and electric field , dynamic [ spin speed ] etc. .
Thus we have a diagram which increases the variability and uncertainty of action and position , time , shape , spin variation of particles , actions and means .
The + b. n ... + E / d and phenomenality graceli diagram improvabilidade of uncertainty and probability between particles and media phenomena between particles .
[ Graceli uncertainty in interactions of particles = n + energy systems interactions divided by distance function] .
Where energy and distance are taken into consideration and is not taken into account the structure , such as gluons , leptons , electrons , protons , positrons , etc. .
And this differs from the function of Graceli and other diagrams .
For other diagrams are taken into account the structure of the particle, while the diagram of Graceli function is taken into account the energy and distance .
And in Graceli system we have are phenomena of actions and interactions and not structures .
Even within a what keeps are the phenomena of actions and interactions that take place and that the particle remains inside.
And the uncertainty and improvabilidde and phenomenality increase as energy and superenergy and the distance involved in the system .
A particle within a particle accelerator will never sure what it is or at any particular time .
Graceli function to universal diagram for interactions and uncertainty improvabilidade between phenomena and interactions in the media and within the particle system , or a system of system interactions .
When all the tends to explode and radiation produces a n ... infinitesimal r n ... quantity , intensity , density , range , variation and transformation along the way.
This happens when a balloon tends to explode, or even a gas cylinder , or even fire tricks , or even dynamite explosions , or even with radiation with atomic bombs , or even with radiation from electrons when super radioactive. Where the particle interactions within or between particles depends on the amount of particles , energy intensity and distance between them .
Thus we have the function diagramatical Graceli to uncertainty and systems interactions .
FDG i = a = r n ... E * . d / [ c / t ] .
diagramatical function Graceli interactions and uncertainties FDG = ii .
A = half or interactions between particles system.
R = radiation.
n ... = The endless high radiation , shapes, densities , intensities , scope , etc. .
* = Multiplied .
E = energy of particles and systems .
D = distance .
C = speed of light , and t = the time.
With this we have a variational and interactions and transformations for the 2nd smallest system, leading to an uncertainty of minute variations by time.
And where the speed of light determines the time that these variations , uncertainties and interactions happen in billions per second .
Supermecância Graceli holes in super - mechanics and relativistic plasmas Graceli . And quantum state and uncertainty of the variation of the quantum state . Oneness of mechanical instabilities . Supergravity and graceli rays.
Author : Luiz Ancelmo graceli .
We have a quantum system with a mechanical phenomena of instabilities and uncertainties and negligible variations .
On bodies and a half stars and a relationship between stability and movement inertia and centrifugal gravity system.
In a super- mechanics have a universe of super centrifugal phenomena which produces inflation of the universe , where we have holes and bright radioactive supergravitacionais and superinerciais occurring within superburacos of superplasmas bright radioactive graceli . And where is produced inflation of the universe , anomalous movements and graceli superburacos and superinstabilidade that happen within the hole superplasmas Graceli .
Thus, we have four basic types of mechanical . Quantum , the bodies and stars and super- bright graceli holes , and the inflation of the universe itself .
Where we actually have holes and super plasmas are produced plasmas where Graceli supergravity and super inertia and super - spins and super spin .
With this we actually have four basic types of mechanical , quantum , of the stars, the holes super plasmas radioactive graceli and bright , and the general universe.
Ie , the mechanics are not absolute , but relative to the size and density amount of energy that the system produces .
And what we have inside a suspected black hole is actually a super hole plasma radioactivity and capable of ejecting large blocks of matter and energy in space and super graceli fields with superinércia , super spin and super spin .
Graceli principle of the quantum state and its variability . With the phenomena of super- phenomenality .
Quantum phenomena are processed according to their energy state , where the energy change modifies the quantum state of particles and phenomena in production.
Ie we have the quantum states and their variability . And this uncertainty and variability follows a quantum improvabilidade therefore does not follow the same proportion of cause and effect between these phenomena .
That is, because it can increase a hundred percent, but can increase the effect more or less than one hundred percent.
Even in the hole superplasmas phenomena do not follow the same proportion of cause and effect where we always have a improbability and uncertainty.
Thus we have a unity between the quantum universe and the universe of superburacos energy .
For all our two are super unstable. Both the quantum universe as the super plasmas and the universe itself.
Thus we have the mechanical instability and improvabilidade , and its uniqueness between quantum mechanics and super- Graceli .
And where energy is ejected into blocks by transverse part of the plan of arms of galaxies .
Where Graceli rays , which are produced in super hole plasmas can traverse any type of matter and field.
Super - Graceli universe .
System Graceli super- speed super- inertia -gravity super super - phenomenality , super- centrifugacidade , super and super- dimensional geometry.
Quadrant Graceli . Relativisms Graceli phenomena in the universe of bright Graceli holes .
Mechanics Graceli for super - speed and super - phenomena . And quantum dynamics .
Author : Luiz Ancelmo Graceli .
Between : Phenomenon [ question ] - physical and chemical structures - dimensions - graceli geometries [ variables and changing forms ] . [See changeable geometry and integral functions Graceli ] .
The phenomena activated by energy producing structures and their changes , and the structures are changed also by changing the dimensions and other dimensions such as producing energy which is the fifth dimension graceli . With this change also the shapes and begin to depend on the size of energy.
all space between two points within a variable power system , will depend on this energy system and will never be the same , ie , will always be variable and thus relative and indefinite [ graceli uncertainty ] .
And between two points in a system we have always the smallest graceli decimal variables , or between two points do not have a curve and not a straight line , but always peaks and troughs always varied according to the graceli decimal series .
Where was the energy and transform matter phenomena producing the chemical elements and their phenomena , and new activations energies and fields .
Quadrant - energy, radiation, dimension , geometry .
Where energy producing fields , radiation , dimensions and geometry flows graceli both the curve and quantum pulses and variable flows , and intermediate empty .
Pulsantica Graceli and new theory of uncertainty.
graceli theory of pulse- field - radiation. Transformation.
As the pulsar , particles and radiation also act as a variable flow operation pulses and scope , intensity and diameter , and variable and non-repeatable or is uncertain and where some on and follow the decimal series graceli density.
Ie , if the quantum is in the uncertainty of radiation, Graceli pulsantica follows the uncertainty of the frequency of the pulses . Where pulses are natural , but can be activated and modified activation energy fields at higher speeds.
Thus, at the same time does not know the position , time , shapes , structures, and reach the same time. As the intensity variations and new forms and structures and new phenomena.
Mechanics graceli for super - speeds . And quantum dynamics .
When particles are within a particle accelerator , the same out of their natural state and modifies its physical and chemical constitution of internal and peripheral , which also fields and energy that composes and become modified and be variable .
Following thus a quantum uncertainty as your speed , where also the internal electrical inertia and the same is modified . Ie , starts to produce more electricity than normal .
Where the structure , forms , geometry and other physical phenomena come into stage .
With this we have a dynamic relativistic and quantum physics .
Ie , when measuring a particle within a particle accelerator , and even a cosmic ray at high speeds it is another phenomenal energy in physical, structural , and loads of fields .
So we have a relativism and quantum flows , specific uncertainties for these situations .
Where inertia becomes part of the universe as modifier also began to have a mechanic for super - speed, speed of light , cosmic rays and x-rays , and gamma rays , and in relation to states within particle accelerators .
Where we have another quantum , relativistic and uncertainties physical universe .
In a super-speed system near the speed of light inertia , momentum , range , position , uncertainty shall vary with the speed and loads , inertia also varies with speed , and does not follow the same proportionality, ie , progressively increases and follows an unlikely and indeterminalidade of graceli inercialidade for super - speeds , and thus have the dynamicism graceli dinamicialidade [ physical values in relation to the universe at super speed ] .
Dynamicism and Inercialidade Graceli .
Inertial relativism.
With this follow-up relativism and inertial uncertainty.
And then , there follows an equivalence gravity - inertial , because the inertia does not follow the same proportionality of increased gravity . Ie , the universe of super- speed in the same proportionality follows the phenomena of inertia and gravity, so there is no equivalence for different situations between gravity and inertia. Soon there is an inertia -gravity equivalence in these situations super speeds , and even super- power , and super- rotation.
While gravity follows a proportional and some increase .
The inertia follows a progressive increase in uncertainty about the speed increase.
And at great speeds have inertia as a graceli physical dimension , which happens to change their own agents other dimensional parameters such as space, time, energy and inertia itself. And we now have relativism for different situations and relativism between own variations with the progressive increase of the speed , energy and spin .
Where also modifies the action of loads within the particles and photons , and flows , position and momentum of particles . Leading to a quantum pulsantica and uncertainty.
Mutacionalidade graceli [ mechanical changeable graceli ] [ mechanism and graceli inercialismo ] .
Relativistic mechanics and mutational graceli .
Thus , mechanical graceli follows mutational variational parameters and with the super- speeds , and thus have a mechanical speeds for small and super - speeds .
Where also changes the state of matter and energy from unstable to stable semi super with super speed .
Ie , with the super-speed builds its own world of values and transformations , shapes , and structures , dimensions and geometrizações . Where the perfect way noes there and that there is a dimensional universe and super flows and variable geometry shapes . Ie , a mutational and variational extreme, with rates of change for own own situations such as super- speed , super - power, and super- speed.
Relativisms Graceli phenomena in the universe of bright graceli holes .
Inside bright holes graceli radiation centrifugal effect out too inertia is not obeyed , and we are phenomena that vary with the internal super speed within the holes graceli bright white, and this causes the inertia has other parameters values and phenomenality .
And with this we have a own universe within the black holes .
A super speed.
Another super energy and super speed and super inertia in the whole system is .
And the super centrifugation, which exists inside the holes graceli light .
Where leave bundles of energy as graceli tubes perpendicular to the plane of the galaxy .
For that all phenomena are not obeyed, where we have the anomalous motions of galaxies and that we also have the graceli supergravity . And where inflation of the universe is produced .
That is, until the geometry is super energetic and super centrifugante rotational curve.
Where light inside the light passing hole graceli the speed of normal light [c ] [ is much greater than c . Where physical and chemical universe is another and particularly within the galaxies and perpendicular axes where huge amounts of energy , light and radiation are ejected .
And where nuclear , and quantum phenomena pulsanticos graceli are particular to situations of great energy , super dynamic , super - inertia , and super - spin that exists within the bright radioactive graceli holes .
Where forms centrifugation and follow the curvature of the light that exists within holes radioactive graceli .
And where graceli dimensions shall be seven which is included the energy , super - inertia with curved centrifugante sense , and super dynamic .
With this we have a super- dimensionality of values and variations according to the system of super- phenomena . And a proper geometry for conditions of super energy and super- phenomena .
Functions Sequence graceli series and its algebraic variational calculus .
Variable functions of sequences Graceli series .
The share split or subtracted from the whole, and the result divided the whole.
p- [/ ] = t R, R / T = g . n ... functions becomes infinitesimal series graceli .
Sequence series .
SSD = sequence Graceli g = decimal series . x
g.x high y.n. the powers ..
Following progressions Graceli series .
g.x. prog . Geometric .
g.x. raised to the power of progressions .
Sequence varied Graceli series .
g.x. progressions or power or log , or division, multiplication , subtraction , where x or y or a third coefficient tends to limit any change in Graceli , or any decimal number .
That also tends to change in a range of decimal series .
Or even that change tends to follow a progression and after certain series or sequence tends to change and return the progression or reverse power .
Integral functions Graceli from summations of graceli decimal series with dimensional variables , and real numbers . and geometry Graceli for more than four dimensions .
Author : Luiz Ancelmo Graceli .
In the first to the last series the result value of the series is added to real numbers , and even unrealistic .
In the second series is a longitudinal x-axis and a latitudinal axis y and a height axis g .
In each series the results of the series power, fractions , division, subtraction, and multiplication and addition logarithms can be high.
Or even every series can be upgraded to variables of real numbers , and with the first series with fractional longitudinal direction, the second powers the latitudinal and even progressions powers , or even the logarithms of power , and the third series being a high multiplication .
And with the sums of [ whole ] of the points we derived forms which are produced by varying the series .
First series . High power and progressions or power .
The second series progressive proportionalities .
Third grade to high fractions .
Fourth grade was elevated to a multiplication of real numbers .
Fifth grade division , infinitely so .
Hence the differentiation in miniscule of ye , and integral to the summation of the series .
Graceli dimensional geometry .
Ie , we have ways of points that are found by the function graceli series with real numbers .
And with the sums being represented by longitude , latitude and height have forms from the equations of graceli series .
And if you include the time dimension and motion to have variable forms with energy , movement and time.
Examples of infinitesimal and graceli dimensional geometry.
The first series times real numbers 1-9 . Is the longitude .
From 0.1 and 0.9 is the latitude.
The potency 1-9 height .
The fraction 1-9 for each series rotational motion through time.
Or each high proportion of power series 1 through 9 ta represents longitude.
And to the power in the second series latitude .
All series the higher the division point, and the rotation or translation with respect to time.
Ie , we have a system of integral involving dimensions , Graceli series elements and functions with real and irrational numbers .
Ie , we have four key components .
Graceli series . Dimensions , real and irrational numbers , and elements of algebraic functions .
Where we have only geometric shapes , but its movement and deformation over time and in relation to the time series motion of deformation, ie, new formations .
With this we have a variable geometry with movement and time .
And we have a system of integral and differential equations changeable .
Ie , replaced by a much larger than usual differential and integral calculus reach, because this integral and differential calculus and graceli dimensional geometry starts working all forms and variations and deformations and movements that they will have with the movements and time .
With this system we have negligible values , limits , graceli series from concept graceli , integral and summation limits , forms and mutations [ deformations of forms in relation to time and motion ] as a bag inflated that varies with the wind , and forms changeable in rotational and translational motion.
Thus we have:
Graceli limits .
Of differential and integral calculus Graceli system.
And changing dimensional geometry .
And an algebraic calculation graceli involving real and irrational numbers .
Quantum calculation Graceli from the series Graceli quantum geometry.
For every pair being visible and invisible all odd .
For any infinitesimal serie Graceli be visible and subsequent invisible. [ divided the whole part , and the result of the whole] .
Be visible for all positive and all negative invisible.
And all through the tangent point of the infinitesimal infinitesimal number graceli .
Ie , becomes relative to grade level that the tangent will be determined .
If the first series, will be a tangent at point in the second series, another tangent , thus infinitely . Ie , where the series is a high level infinitesimal .
At this point develops a system for differential and integral calculus , and even a quantum calculation of positive and negative , visible and varied forms invisíveis.de flows .
And with a discontinuous quantum geometry , even
And regarding observers will disappear .
Geometry Graceli the disappearance and reappearance , and varied and transverse to a flat plane flows .
Mechanics and quantum geometry Graceli .
An example of a system that appears and disappears instantly and returns to reappear moments later and not pre - determined and varied intensities that do not repeat the same intensity .
Ie space with varying intensities of empty space and events .
It is confirmed in a sphere attached to a shaft at its center , where it passes through a system ablaze with high temperatures , when this sphere rotates the direction becomes more intense and the other less. And another cross more and others less. And parallel to the front or back disappears because the greatest intensity is already elsewhere.
That example is with radiation apparatus to break kidney stones . Where with turning the radiation appears and disappears instantly .
Another example is a ball with colorful buds in a part of the ball , according to the position where it appears and disappears . When in rotational motion .
Some fireworks that have only one side of the light output produced by gunpowder.
The same happens with quantum radiation flows , and flows with loads of action between particles , and within larger particles with smaller therein.
This flow voids and varying intensities depends on the rotation , intensity of production over time.
Graceli geometry and transverse quantum calculation of voids and no wave .
Movement of cross peaks followed by depressions in a plan system and that these peaks are followed by depressions are produced after voids , that is, as a map of the heartbeat [ as seen in cardiogram ] , but can also occur between a peak and that depression occurs empty space.
Where it is not curved or straight, or wave .
Cross geometry and quantum computation does not wave graceli .
And that varies in scope and enlargement, and meaning and direction as the intensity of heartbeat as seen in the cardiogram and actions by time.
Some electrons in their path and also in its workflow experience this , or this quantum geometry graceli , oscillations and irregularities and instabilities .
Where the dimensions shall be measured by not being straight and not curved but irregular and transverse negligible .
This we see a tiny universe that we not straight and not curved , but peaks and troughs .
See calculation and unstable and irregular graceli infinitesimal geometry.
If you look at any straight or curved or wave we see that are formed from tiny infinitesimal parts .
The electrons oscillate in higher flows and lower intensities , as well as all particles and their electric field.
This irregularity of the tiniest also confirmed in all fields - strong, weak , gravitational and magnetic , or even graceli supergravity of bright white holes within galaxies .
Transdimensional and photoelectric energy holes Graceli system. Hole Graceli bright and white .
Holes photoelectric energy and concave dimensions and dimensional universe of variable values within holes photoelectric energy and cosmic rays , gamma and x .
A black hole is not actually black , but super bright and intense activity of production of thermal , electric and photoelectric energy.
So what we have is a particular universe of cosmic radiation graceli that is produced within the bright graceli holes .
Where dimensions are not straight but , as concave curved movement within the bright white graceli holes .
That is, we now have another dimensional universe and values that vary the energy is processed in its immense intensity and propagates inside the black hole in concave and not straight movements .
Where energy production causes have another dimensional universe , with curved and concave .
And another way of looking at black holes , thus being Graceli black holes of intense production of electricity and light .
And being that within these holes have the graceli rays passing through huge walls and through the very stuff with his immense speed and dynamics. That reaches the speed of light [ c ] .
Spatial geometry Graceli to Graceli series of spaces between peaks and troughs [ added or subtracted , or multiplied , or divided , or logarithms , or potentiated series of layers [ as onions ever infinitesimal decimal series within series ] and all, or multiplied , or divided , or logarithms , or a potentiated any variable .
Series spaces between peaks and troughs + series of layers each point within + [/ ] of variable flow .
S [ + ] CS [ / ] V.
SERIES [ + ] layers of series [ / ] variable.
With this we have a system of statistics and probabilities that can be used for a spatial geometry , infinitesimal calculus , or statistics.
The infinite, the finite limit and the series of Graceli series system.
The finite and the infinite in Graceli system.
The limit system graceli have finite .
And infinity in graceli system we have:
And the series elevated the n ... times have infinite in series within series .
Graceli series of infinitesimal geometry for waves of peaks and troughs .
Infinitesimal series Graceli .
Author ; Ancelmo Luiz Graceli .
Series and cells and infinitesimal gaps .
Limit Graceli system.
Where every part divided by x leads to the result , and divided by the whole will always be lower between 1 and greater than zero. And the result is g .
Averages of infinitesimal series .
With this we have sums of an equation y , z , and n ... divided the whole of each equation for y , z and c , n .... with this we must summations of equations and equalization [ averages of series ] series between them .
Gaps between infinitesimal , which is divided into 1 , second, third , n ... infinitesimal .
G where the result becomes the first series gap and , oh another subsequent gap. Thus gradually .
G divided by t = 1 i1 infinitesimal .
H divided by the result of g and t [ i1 ] = i2 .
Thus successively .
4/8 = 0.5 0.5 / 8 = i1 .
I1 / t = h . thus successively infinitesimal series forms .
Thus, we have results for sums , multiplication , fractions , potentiation , proportionalities of Graceli infinitesimal series .
for example range from 1 to 9 .
Where in each series has always values a smaller number than one digit in the proportion that the next series until the ninth .
So have results for each series , and the sum of all until the ninth . Or even a few pairs or odd according to the equation so requires . Ie after the result they are divisible from last to first , ie the ninth to first .
Graceli series of infinitesimal geometry for waves of peaks and troughs .
With the series being higher successive peaks and troughs to form a geometry irregularities , or even increasing it or decreasing progressive depressions , or even a row with each other.
In micro and even quantum flows and tiny world we have is not a straight and perfect curves or , rather, peaks and troughs within the lines and curves .
The shortest distance between two points for an infinitesimal geometry is a depression or a peak .
The shortest distance between two points that are closest to is the diametrical distance which is formed in series inside diameter of diameters , such as onion layers so indefinitely.
Ie , a universe of diametric series is impossible to know what is the distance and its final form . Or distance and shape relates to a infinitesimal limit.
Therefore, the minimum distance between two points is the infinitesimal layers each diametrical extent by which they may be closer .
That is, each point in question being treated.
Ie , it is like an onion of layers under layers .
Where the subtracted or divided throughout the part , has an outcome x , and the result divided aser passes the whole. Thus , infinitely .
Theory Graceli limit .
LG - OR = T / p = x
x / t = g .
subtracted from the whole or split the part where the result of the whole is divided .
And being elevated to several subdivisions have the series of boundaries within the limits decimal divisible irrational .
Where we have g = li , l2/l1 / l3 / 2 n .....
Ie we graceli infinitesimal series graceli within limits .
DF / dx [ ln ... x ] = f ¨ [ XLN ... ]
Statistics and potentialities in the series Graceli system.
The Graceli limits may be raised to reasons of uncertainties and improbabilities , and statistics when the high potential .
Spatial geometry for Graceli series of spaces between peaks and troughs [ added or subtracted , or multiplied , or divided , or logarithm , or potentiated series of layers [ as onions ever infinitesimal decimal series within series ] and added or multiplied or divided , or logarithm , or a potentiated any variable .
Series spaces between peaks and troughs + series of layers each point within + [/ ] of variable flow .
S [ + ] CS [ / ] V.
SERIES [ + ] layers of series [ / ] variable.
Numbers Graceli variational [ rotational quantum ] .
In one set of values systems in rotation , and is expelled into slits radiation with approximate values.
Ie a rotation x , y we have slots , with ejections R [ radiation ] .
To meet radiation [ or not ] .
On the set of a system rotating x , s time , with ejections R , a meeting between radiation systems occur as the number of systems taking into account the elements of the systems above.
Graceli Calculation of derivatives and succession stages using mathematics and quantum .
Phase 1 - For all the variables has baz derivative with multiple values from successive values of b .
Phase 2 - And the result of each has fractional values of { x } = 1/3 .
Phase 3 - And that the result of each phase has fractional exponential values of [ y ] = 1.15.
That is, this path has an exponential progressive calculation and continuous flows , ie , each interval has exponential variational values as ray releases , explosions , etc. .
That is, one can build successional stages and phases intervals as streams of pulses to use for oscillatory as the physical gas flows of electrons as quantum and quantum Graceli .
Phase 4 - and that alternative values may build or even all of which result is raised to the exponential becomes successive fractional and fractional successive becomes exponential , or have a great increase in value and a decrease in another instant and steep. And since it can be considered high values seconds and even minutes , or is replaced by temporal and or acceleration and power surges or variable phenomena .
The outcome is found for values after phases b , x , y baz , and others all come to vary predetermined variables .
Phase 5 - the variables that may have alternate sequences of which can baz
successions have repeated values with two or more fractional and exponential or .
Graceli Calculation of derivatives and succession stages using mathematics and quantum .
Phase 1 - For all the variables has baz derivative with multiple values from successive values of b .
Phase 2 - And the result of each has fractional values of { x } = 1/3 .
Phase 3 - And that the result of each phase has fractional exponential values of [ y ] = 1.15.
That is, this path has an exponential progressive calculation and continuous flows , ie , each interval has exponential variational values as ray releases , explosions , etc. .
That is, one can build successional stages and phases intervals as streams of pulses to use for oscillatory as the physical gas flows of electrons as quantum and quantum Graceli .
Phase 4 - and that alternative values may build or even all of which result is raised to the exponential becomes successive fractional and fractional successive becomes exponential , or have a great increase in value and a decrease in another instant and steep. And since it can be considered high values seconds and even minutes , or is replaced by temporal and or acceleration and power surges or variable phenomena .
The outcome is found for values after phases b , x , y baz , and others all come to vary predetermined variables .
Phase 5 - the variables that may have alternate sequences where the baz may have repeated values succession with two or more and fractional or exponential .
Infinitesimal series Graceli .
Series and cells and infinitesimal gaps .
Limit Graceli system.
Where every part divided by x leads to the result , and divided by the whole will always be lower between 1 and greater than zero. And the result is g .
Averages of infinitesimal series .
With this we have sums of an equation y , z , and n ... divided the whole of each equation for y , z and c , n .... with this we must summations of equations and equalization [ averages of series ] series between them .
Gaps between infinitesimal , which is divided into 1 , second, third , n ... infinitesimal .
G where the result becomes the first series gap and , oh another subsequent gap. Thus gradually .
G divided by t = 1 i1 infinitesimal .
H divided by the result of g and t [ i1 ] = i2 .
Thus successively .
4/8 = 0.5 0.5 / 8 = i1 .
I1 / t = h . thus successively infinitesimal series forms .
Thus, we have results for sums , multiplication , fractions , potentiation , proportionalities of Graceli infinitesimal series .
for example range from 1 to 9 .
Where in each series has always values a smaller number than one digit in the proportion that the next series until the ninth .
So have results for each series , and the sum of all until the ninth . Or even a few pairs or odd according to the equation so requires . Ie after the result they are divisible from last to first , ie the ninth to first .
Numbers Graceli variational [ rotational quantum ] .
In one set of values systems in rotation , and is expelled into slits radiation with approximate values.
Ie a rotation x , y we have slots , with ejections R [ radiation ] .
To meet radiation [ or not ] .
On the set of a system rotating x , s time , with ejections R , a meeting between radiation systems occur as the number of systems taking into account the elements of the systems above.
Graceli Calculation of derivatives and succession stages using mathematics and quantum .
Phase 1 - For all the variables has baz derivative with multiple values from successive values of b .
Phase 2 - And the result of each has fractional values of { x } = 1/3 .
Phase 3 - And that the result of each phase has fractional exponential values of [ y ] = 1.15.
That is, this path has an exponential progressive calculation and continuous flows , ie , each interval has exponential variational values as ray releases , explosions , etc. .
That is, one can build successional stages and phases intervals as streams of pulses to use for oscillatory as the physical gas flows of electrons as quantum and quantum Graceli .
Phase 4 - and that alternative values may build or even all of which result is raised to the exponential becomes successive fractional and fractional successive becomes exponential , or have a great increase in value and a decrease in another instant and steep. And since it can be considered high values seconds and even minutes , or is replaced by temporal and or acceleration and power surges or variable phenomena .
The outcome is found for values after phases b , x , y baz , and others all come to vary predetermined variables .
Phase 5 - the variables that may have alternate sequences where the baz may have repeated values succession with two or more and fractional or exponential .
Quantum uncertainty in the transmutation and transfenomenalidade .
Ie , it is not possible to determine accurately the flow accurately , particle structure , shares loads and fields , geometrization , time and particle position and neither his next transformation , ie transfenomenalidade becomes uncertain and indeterminate
