Graceli function of interlocking chains .

Infinitesimal differential function on each point to infinity within each point .

Fx / fy + [ x / n log x ... ] =


Infinitesimal function connections points between systems in proper motions more spin .
Fgg Fgarâ + = + fgbrâ [ x / log x ... n ] + r =

This can be visualized in a DNA strand with kinking of arms and the connections between the arms of the DNA strands . And with these kinking angle .


Fgg Fgarâ + = + fgbrâ fgxrâ n ... + [ X / log x ... n ] + r =

With several chains of linked DNA and rotational movement .


Fgg Fgarâ + = + fgbrâ fgxrâ n ... [ x / log ... xn ] r + ... + n r = related to various benchmarks , ie relativistic .

This system also has the coordinates movements and deformations , ie , it is not only in relation to time .















Calculation Graceli for minute and multiple results .


Fgx . q . [ adiad ] .

Fgx = graceli function of x .
. amount . reach. intensity distance , acceleration and deceleration .
Imagine the explosion of dynamite in a quarry , or even a balloon when very warm.

The same goes for quantum oscillation streams , or even fluctuating gas or electrons when overheated , or streams of vibrations of electrons . Or even interconnections between quantum interactions , quantum or radiation, or even indeterminism [ uncertainty ] quantum .


Fgx . q . [ adiad ] . [ x / logx ] n ...

for infinitesimal quantum indeterminacy and uncertainty. Or even a geometry and quantum statistics .





Calculation Graceli statistical differential to infinitesimal and quantum and graceli sequential numbers variations .

Fgx [ x / logx ... n ] + FGY [ y / n ... logy ] + fgn ... [ pi + r + â / log ... n ] n ...

Each fg is a function with which interconnect points with other points of other functions .

Integral Calculus Graceli variable statistics .
Fgx [ x / logx ... n ] / [ ct ] + FGY [ y / n ... logy ] / [ ct ] + fgn ... [ pi + r + â / log ... n ] n ... / [ T c ] [ speed of light by the time ] .


. Integral Calculus Graceli variable statistics .
Fgx [ x / logx n ... ] â + / [ ct ] + FGY [ y / n logy ... ] / â + [ ct ] + fgn ... [ pi + r + â / log ... n ] n ... â + / [ t c ] [ speed of light by the time ] .

Taking into account the connection between points, while each system function is represented by motion . With this we have a quantum and statistical variable super system.

With streams and even series of sequences of numbers . where each point on each system in motion is represented by functions exponencias flows .
 And that varies in intnsidade and reach for time and energy, or even c .


Ie we have the ways connections , and we have the exponeneciais flows at each point .


Interconnections of discontinuous points with exponential variable points , points for points, and angular curves between points , and in relation to the speed of light by time.

Fgx + + FGY fgn ... [ â ~ ~ ~ ] * [ ct ] flows and waves and waves of angles relative to the speed of light time.

Where the points of fgx interconnect with every other , and all other among themselves .

Or even for coordinates movements of waves flows in relation to the speed of light time. Where these movements are relative to benchmarks . [ ie , relativistic ] .

Mobile graphics and waveforms kinking .
Graph relativistic in relation to fixed and mobile and reference waveforms .

Imagine the results with respect to the Cartesian coordinate graph , but estees graphs with wavy movements , ie , the image in relation to the movement of the plot also involves twisting .

And being that the graph can have more coordinates r , tea acceleration .