Universal infinitesimal calculus and Graceli .

Universal function Graceli . [ infinitesimals within infinitesimals , and variations on variations ] .

Author : Luiz Ancelmo graceli .

[ [ Fg1 [ x / log x ... n ] / [ c / t ] n ...

This logarithm function we have the series of numbers repeated [ 0,33 and others] , and the series of progressive sequences [ 1,2,3,4,5,6,7,8,9 and others] .


The universal Graceli function is not measured from the Cartesian graph , but in relation to dimensions of latitude , longitude , height , flow and vibration of his own body in motion , rotational acceleration, and translation relative to the east, west, north and south, and other dimensions. Ie is n -dimensional . What about the speed of light by the time [ c / t ]

And having as parameter divided by the size of the smallest dimensions own level [ ... n ] log , so we have an infinitesimal mathematical universe , and without reference to Cartesian graph .

With this we have not only a function with respect to [ x, y ] , but on many dimensions and in relation to physical and astronomical references .

With this we have to measure the quantum universe , transquímico [ and isotopes decays and other phenomena ] , structures and shapes , densities and intensities both the macro and micro level as the smallest level .

And it has the function not only geometrical , but also the transformation function and structures and even evolutionary potential , and statistical and quantum uncertainty .


One of the key points of this system is that the result will not be the limit to 0 [ zero ] , but will always be between 0 and 1 [ zero -one] , ie , it will always be an infinitesimal . For it will always be a statistical and uncertainty as in physics and quantum phenomena of infinite variations .

Even a point or particle it will always be to be divided infinitely . Or even infinite relationships between parties and movements and accelerations kinking .

We see that the system of graceli function is not the limit , and not the tangent line , but within the infinitesimal infinitesimal , or the end result will never be found . And where there are processes in relation to the tangent line , but in relation to many variables involving a movement , deformation , structures , transformations and evolutions , revolutions and flows in a single function.


We will never have an end result , but always infinitesimal and always between two numbers . For, in this case the functions Graceli is not the end result , but intervals between results , and intermediate results in multiple scales and sequences series .

Universal function Graceli .

In general function measuring all variables and an infinitesimal ococrrer phenomena which can even movements and variations in curves, quantum flow and radiation angle accelerations , latitudes and longitudes and heights , shapes , densities , and structures intensities , disintegration and integration , links and endless interconnections , isotopes and radioactive decay , and various other phenomena , as well as statistics and uncertainties , relativism in relation to references, and variable arrays . And geometric variables , structures , phenomena and transformations .

In this case the variables are not related to time but with respect to the speed of light in relation to time [c / t].







[[Fg1 [x / log x n...] / [c/t] + [[Fg2 [x / log x n...] / [c/t] + [[Fg3 [x / log x n...] / [c/t] + [[Fg4 [x / log x n...] / [c/t] + + fgaâfo [cc] n...  . [far] + + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t]


+ n...  [[Fg1 [x / log x n...] / [c/t] + [[Fg2 [x / log x n...] / [c/t] + [[Fg3 [x / log x n...] / [c/t] + [[Fg4 [x / log x n...] / [c/t] + + fgaâfo [cc] n...  . [far] + + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t] .





Graceli is not in infinitesimal curves in relation to time.

But endless tiny or no variations in other variations , and these infinitesimal variations from the shapes of flows in the plans , the concave and convex in heels and rotations , and links entanglement and how we cohesions , delays oscillation and vibration , and internal flows . And other phenomena .

And relates the world of statistics , uncertainties , oscillatory matrices and infinitesimal and changing geometries in a single system .

So we have several variables in one function. Or even variables on variables .

And it approaches the quantum .

And if the function is carried out with exponent result we have between infinitesimal less than 1 and greater than 0.

And if it is raised to the exponent 0 , we have the result to equal 1 .
And relates to observers , or becomes relativistic and uncertainty of forms and variations.

One of the key points of the infinitesimal system is graceli that are not derived with respect to time .

However , it can be . But overall is in relation to algebraic , geometrical , or even in relation to space , or even for algebraic functions as infinitesimal compared to x / log x [ n ... ] .

Graceli function to infinitesimal infinitesimal .

Author : Luiz Ancelmo graceli .

It is the method of infinitesimal variations on infinitesimal changes .

Ie , can be fully differential , or a set of variations that occur in one time and space. As variations in ocean waves that burst in the sand .

But it may be infinitesimal infinitesimal within . [ infinitesimal infinitesimal ] .

How tiny tiny variations within variations .

[[Fg1 [âa / log âa n...] + [[Fg2 [âa / log âa n...] + [[Fg3 [âa / log âa n...] + [[Fg4 [âa / log âa n...]  + fgaâfo [cc] n...  . [far] + + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t] 

 + [[Fg1 [âa / log âa n...] + [[Fg2 [âa / log âa n...] + [[Fg3 [âa / log âa n...] + [[Fg4 [âa / log âa n...]  + fgaâfo [cc] n...  . [far] + + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t].

Here the sums of series and sequences Graceli infinitesimal .

Imagine a glowing sphere that has infinite electrons with intense vibration and oscillation of vibration and vibration flows , and within each other vibration happens less and less intense in proportion.

What we have in this example is integral differential - the set of variations on a whole block variation.

And each electron with variations within variations , or infinitesimal infinitesimal .

[ cc ] = Concave and convex .

Fgâa = Graceli of angles and accelerations of varying flows function.

Packet flow of gravitational waves .

The gravity flow processes in discontinuous waves, as packets with higher and lower intensities . For that the curved space is not continuous , and not repeated, so that whenever the curvature is measured around superstars values ​​are always different . Being waves of varying intensities and tiny streams and never repeat themselves .

Gamma radiation and x rays also propagate in the form of waves and flows as packets of energy with higher and lower reaches sizes and intensities .

Graceli theory of the universe floating waves. Curves waves floating like ripples in the tide .

Ie , we have fixed a curved universe , but ripples of waves that fluctuate , so that whenever it is measured curvature will always be different .

Floating Geometry Graceli .

[[Fg1âa + fg2âa +fg3âa +fg4âa ] n... + fgaâfo [cc] n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t] 

+ n...  [ [[Fg1âa + fg2âa +fg3âa +fg4âa ] n... + fgaâfo [cc] n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t]].

[ cc ] = Concave and convex .

Fgâa = Graceli of angles and accelerations of varying flows function.

Synchronous flows between quantum theory and quantum entanglement and quantum radiation and oscillation. And quantum bond between particles.

Theory and synchronic effect of progressivity Graceli .

There is a synchronic between intensity , quantity and scope, and the action of internal and external interactions of quantum flows , radiation, and interconnections between particles and their entanglements .

However , the timing does not follow in the same proportionality , which increases as the intensity of the internal physical and quantum processes by external effects have a larger progressive growth of radiation than the internal quantum flows .

Thus we have a sync related to natural processes of growth equivalent .

And we have a progressive Graceli effect relating to external actions on particles , metals , or even systems dilation.

This variation in timing and progressive Graceli also have the effect of expansion, the particle oscillations and vibrations , which is more visible in plasmas.

The internal entanglement also involves synchrony and Graceli progressivity effect.

Mathematical model Graceli .

Integral Graceli differential function .

It is one function that is both an integral of a set of physical processes , but each physical process has its own role for its functionality .

This we see in the radiation , and the expansion and vibration in the same oscillations of electrons , or even inflating balls and fade continuously .

Where we have the notion of the set of balls in processes and positions , but we also have the notion that each ball has every time their mathematical values ​​according to their physical variations , shapes and placements .

[[Fg1âa + fg2âa +fg3âa +fg4âa ] n... + fgaâfo [cc] n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t] 

+ n...  [ [[Fg1âa + fg2âa +fg3âa +fg4âa ] n... + fgaâfo [cc] n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t]].

[ cc ] = Concave and convex .

Fgâa = Graceli of angles and accelerations of varying flows function.

General mathematical function Graceli involving matrices , differential and integral calculus , geometry [ flat , curved , and discontinuous Graceli and oscillatory vibrations ] , and statistical and mathematical uncertainties .

[[Fg1âa + fg2âa +fg3âa +fg4âa ] n... + fgaâfo [cc] n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t] 

+ n...  [ [[Fg1âa + fg2âa +fg3âa +fg4âa ] n... + fgaâfo [cc] n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t]].

[ cc ] = Concave and convex .

Fgâa = Graceli of angles and accelerations of varying flows function.

Which can be between parts that interlock between dimensions of latitude , longitude , height , [ turns and swings , with movements and deformations ] .

Which can be interconnected by point systems represented by functions that represent points of motion are interconnected with other systems of points, and n ... points.

Per system or even in systems such as curved movements of the astes of DNA that are interconnected in curves.

Or even block parts where each part is in vibratory and curved movements .

Or even concave and convex portions of the balls. Like socks with balls cut parts up and down [ concave and convex ] .

And if interconnected by tiny parts , and infinitesimal variations that occur by the speed of light divided by time .

Thus we have the infinitesimal and infinitesimal , or even quantum statistical uncertainties .

And this function can be used in all individuals , and also biological and DNA variations.

Or even chemical or even interconnections in processes and isotopes decays . Or even the formation of chemical elements .

Graceli discontinuous integral differential geometry . And matrix geometry. And Graceli statistical geometry .

Author : Luiz Ancelmo Graceli .

[[Fg1âa + fg2âa +fg3âa +fg4âa ] n... + fgaâfo [cc] n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t] 

+ n...  [ [[Fg1âa + fg2âa +fg3âa +fg4âa ] n... + fgaâfo [cc] n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t]].

[ cc ] = Concave and convex .

Fgâa = Graceli of angles and accelerations of varying flows function.

Imagine balls up and down , rotating , and moving randomly in all directions .

Imagine many glowing spheres with vibrations of varying flows .

Imagine the photon radiation coming toward an observer. And others elsewhere . So we have a universe of private and relative to each observer forms .

Thus we have the full relativistic quantum geometry [ assembly ] and differential every body or part , or points in changes and vibrations and movements themselves .

With associated points of latitude and longitude and height and angles , and oscillatory flow variables .

As paired spheres or balls cut with alternating concave and convex part or triangles, or even expansion and flow oscillations.

Where an integral sum of the parts , with no repetitive variables in parts form . Thus we have the integral and differential discrete parts and constant changes .

Thus , we do not have a curve , but concave and convex curves , and with own oscillatory flows of each party , as electrons with oscillatory flows .

The integral determines the variation in the sum of differentials. That is, we have the same set of spheres or balls concave and convex , or even at varying flow of electrons have the full set of discrete ways, but each way is discontinuous in motion and acceleration of discontinuous flows , or we thus spread within the whole .

The matrix is formed in the movement of parts of the functions where in each time [ c / t ] we have links with other parts of the system functions and varied movements and accelerations own .

And the statistical geometry is based on the intensity , scope and amount of changes in oscillatory flows in relation to the speed of light by the time [ c / t ] .

Calculation Graceli comprehensive differential, integral , matrix and statistical .

Aims to be a single integral and differential function and matrix and statistics, and solve various problems , such as geometric shapes and oscillatory flows, pulses and oscillations , deformations of the sides , rotations, translations [ quedrimensional and three-dimensional shapes [ the speed of light by the time [ c / t ] , with displacement accelerations in space, where the geometry itself oscillatory graceli has this range. Interconnections and interactions , entanglements and chemical disintegration , discrete spherical shapes juxtaposed as one block parties curves and declines and increases of constant or irregular flows and variational by c / t .

[[Fg1â + fg2â +fg3â +fg4â ] n... + fgaâfo n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t] 

+ n...  [ [[Fg1â + fg2â +fg3â +fg4â ] n... + fgaâfo n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t]].

Three universal forms of mathematical results .

The actual numbers - less zero infinitely more than zero infinitely .

The result of number 1 . Whenever the function to get the result with exponent zero.

The result of infinitesimal number between zero and one. See infinitesimal sequences and series Graceli Graceli [ x / n lox .... ] .

Uniqueness and dimensional categories.

In discontinuous oscillatory geometry graceli have a oneness between the mathematical and physical . And is not that the forms that give rise to the universe , but they are the product of the fundamental dimensions of the universe , which are energy ísicas structures [ matters] , and interactions and loads of fields .

These produce space and shapes , and time variation among them.

Thus we have the unity between quantum , gravity bends the discontinuous changes when it passes close to the stars, and the infinitesimal world.

Ie we have another dimensional category. What are the key dimensions . Energies , charges and fields and interactions and structures [ matters] .

And we have a oneness with the source , and the branches phenomena such as quantum discontinuous negligible , and we have a unity of mathematics itself as the system of graceli based functions .

The oscillatory dynamics geometry graceli may appear as a third dimensional category. Ie , the variational forms are produced by interactions of energies that produce the structures and variational forms and oscillatory graceli .

Math- physics Graceli .

Unified Physical -mathematical Graceli .

The mathematics and physics represented by a single theory , and one function.

 the greatest of all works : A theory and so function to mathematics and physics , the quantum thermal , mechanical and gravitational and cosmic .

Geometry of the infinitesimal calculus , matrices of statistical calculation.

The oscillatory geometry graceli approaches to their roles in a unit between mathematics and the physical world of quantum interactions and connections , where space and time become represented by c / t , and n-dimensional functions for motion , energy , inertia and superinércias where the curvature of space and time become oscillatory , not just curved fixed , but oscillatory points with varying and changing flows .

Ie , we have a system that is complete with math, geometry oscillatory curve [ where when light passes near a star is always another angle , it depends on the level of vibration and flow -is , and in each gravitational point that produces the bending curvatures that we jeer as power flows , gravity and radiation of the star itself in question .

Ie we have a unified system of all matrices including mathematical , statistical , differential and integral , geometries , and other .

And that unifies with a unified system between quantum and relativistic gravity and dimensional space and time .

The space and time shall be measured at the constant speed of light c by time. And where space is also present and bends , but only oscilatoriamente between negligible and total points for the curvature of points .

Ie we have a unified universe between the physical and mathematical so a system where Graceli can unify mathematics , and mathematics unify physics. Quantum gravitational .

Where the thermodynamic ranges and phenomenality in tiny quantum processes flows and dilations of electrons and high temperatures . The

The same happens in the quantum and thermal radiation . Even in quantum interactions between particles and their cargo entanglements .

Particles and their interactions and oscillatory flows can be represented by oscillatory geometry graceli varied and unstable flows . And the actions of loads can be represented by links between systems of lines between graceli functions with varying intensity and scope .

Geometry floating oscillatory .

This geometry is such as floating gases such as oscillatory rotations and accelerations uncoordinated .

[[Fg1â + fg2â +fg3â +fg4â ] n... + fgaâfo n...  . [far] + fgie+ + fgei + fgr + fgmf + fgfccâe] n.... / [c /t]

Geometry discontinuous integral graceli .

There is a geometry continues , but the discontinuous convex and concave parts , as one of several balls next to each other , or balls and some that were cut and placed with the concave parts up. Ie , a geometry is discontinuous parts forming a whole . The whole way the integral geometry graceli . And the parts geometry discontinuous variational parts with this as differential [see differential calculus ]

And each part can be oscillating as in gases in containers or even a hot iron in dilation where electrons vibrate with oscillatory flows .

These electrons , balls , or spheres can be rotated or even changing position between concave and convex parts , and even where large depressions in the intermediate parts occurs .

This can also occur with triangles and rectangles . Ie we have integrals [see integral calculus ] a discontinuous geometry .

Thus , not only did they not have a changing and moving geometry, but discontinuous parts on parts .

[ [ Fg1â fg2â + + + fg3â fg4â ] n ... + Fgaâfo n ... . [ far ] fgie + + + + fgr + fgei FGMF fgfccâe + ] n .... / [ C / t ]

Geometry oscillatory Graceli .

Geometry Graceli oscillatory flows statistical variations and mathematics and physical uncertainty. .

[ [ Fg1â fg2â + + + fg3â fg4â ] n ... + Fgaâfo n ... Fgie + + + + fgr + fgei FGMF fgfccâe + ] n .... / [ C / t ]

Fgafo = function graceli angles of oscillatory flows .

fgie graceli = function interactions of quantum and thermal energy .

Fgei graceli = function interactions , and statistical uncertainties .

[ c / t ] = speed of light divided by time .

The mathematical and physical uncertainties can be in thermal interactions , explosions , drawings , waves , vibrations of electrons , quantum radiation and quantum interactions .

Functions forms of infinitesimal n -dimensional blocks Graceli .

Author : Luiz Ancelmo graceli .

Between four functions planar dimensions [ latitude and longitude ] , and one or more tall, and other pulses of accelerated movement upwards or concave or convex or intensities . As energy flows . Ie , n -dimensional .

This can be illustrated by ice blocks, or even of spheres, or even soap bubbles that oscillate up and down. Or even electrons that oscillate and rotate in a wide stream.