Sequential Graceli .


Graceli system sequential flows of energy pulses .


Theory sequential Graceli energy .

Infinitesimal sequential pulses of energy .




What we are not waves, but sequence flows electromagnetic pulses .

The same occurs with the thermal dilations acting on electrons and particles , ie electrons superativados , and also occurs in a plasma system , where a super activation energy interactions within an integrated system of actions on actions occurs .

Where fields acting on electrons and particles in other processes interactions sequences of flow of pulses upon each other , forming a closed system integration.

The same occurs in the movements and loads of fields , and photons . That is, what we have are a few integrations over all and all for all , an integrated and closed action.

This breaks with the system of electromagnetic waves, and even the actions of particles .

Ie we are not waves, but streams of pulses , which occurs when the particle receives the external energy load and returns processes internally and out in a sequential flow pulse power system .

That is, electricity, magnetism does not propagate waves, but in the form of sequential pulses enregia flows that is received from outside to inside , and returned from within an integrated action acting on other particles , fields, and means.

+  +        + logf/f [n...] *     Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0 [AF]+ [osc k.                              freq osc. F / c/t].

Threads oscillatory flow pulse .
Sequences of pulse flows are not stable , but unstable following an infinitesimal bracketing Graceli .

Represented by the equation :

  +  +        + logf/f [n...] *    

Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0 [AF]+ [osc k.

                            

freq osc. F / c/t].      


Graceli effect.

Variations , fluctuations and phenomena are not proportional in intensity , quantity and range of energy received . But , depending on the energy stage where is the electron and other particles of the system in question .

Example .

The uranium and thorium will conduct distribution and more intense radiation than other elements .

Or even as other combustible as oxygen and helium, others just swell .







Radiofóton - the photon of light radiates electromagnetic corpuscles in space during its journey . And that is spent at the speed of light.

Sequential Graceli .


Graceli system sequential flows of energy pulses .


Theory sequential Graceli energy .

Infinitesimal sequential pulses of energy .




What we are not waves, but sequence flows electromagnetic pulses .

The same occurs with the thermal dilations acting on electrons and particles , ie electrons superativados , and also occurs in a plasma system , where a super activation energy interactions within an integrated system of actions on actions occurs .

Where fields acting on electrons and particles in other processes interactions sequences of flow of pulses upon each other , forming a closed system integration.

The same occurs in the movements and loads of fields , and photons . That is, what we have are a few integrations over all and all for all , an integrated and closed action.

This breaks with the system of electromagnetic waves, and even the actions of particles .

Ie we are not waves, but streams of pulses , which occurs when the particle receives the external energy load and returns processes internally and out in a sequential flow pulse power system .

That is, electricity, magnetism does not propagate waves, but in the form of sequential pulses enregia flows that is received from outside to inside , and returned from within an integrated action acting on other particles , fields, and means.

+  +        + logf/f [n...] *    Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0 [AF]+ [osc k.                              freq osc. F / c/t].

Threads oscillatory flow pulse .
Sequences of pulse flows are not stable , but unstable following an infinitesimal bracketing Graceli .

Represented by the equation :

Logx / x [ n ... ] .



Graceli effect.

Variations , fluctuations and phenomena are not proportional in intensity , quantity and range of energy received . But , depending on the energy stage where is the electron and other particles of the system in question .

Example .

The uranium and thorium will conduct distribution and more intense radiation than other elements .

Or even as other combustible as oxygen and helium, others just swell .







Radiofóton - the photon of light radiates electromagnetic corpuscles in space during its journey . And that is spent at the speed of light.

Sequential Graceli .


Graceli system sequential flows of energy pulses .


Theory sequential Graceli energy .

Infinitesimal sequential pulses of energy .




What we are not waves, but sequence flows electromagnetic pulses .

The same occurs with the thermal dilations acting on electrons and particles , ie electrons superativados , and also occurs in a plasma system , where a super activation energy interactions within an integrated system of actions on actions occurs .

Where fields acting on electrons and particles in other processes interactions sequences of flow of pulses upon each other , forming a closed system integration.

The same occurs in the movements and loads of fields , and photons . That is, what we have are a few integrations over all and all for all , an integrated and closed action.

This breaks with the system of electromagnetic waves, and even the actions of particles .

Ie we are not waves, but streams of pulses , which occurs when the particle receives the external energy load and returns processes internally and out in a sequential flow pulse power system .

That is, electricity, magnetism does not propagate waves, but in the form of sequential pulses enregia flows that is received from outside to inside , and returned from within an integrated action acting on other particles , fields, and means.



Threads oscillatory flow pulse .
Sequences of pulse flows are not stable , but unstable following an infinitesimal bracketing Graceli .

Represented by the equation :

Logx / x [ n ... ] .



Graceli effect.

Variations , fluctuations and phenomena are not proportional in intensity , quantity and range of energy received . But , depending on the energy stage where is the electron and other particles of the system in question .

Example .

The uranium and thorium will conduct distribution and more intense radiation than other elements .

Or even as other combustible as oxygen and helium, others just swell .







Radiofóton - the photon of light radiates electromagnetic corpuscles in space during its journey . And that is spent at the speed of light.

Sequencialidade Graceli.

Sistema Graceli de fluxos sequenciais de pulsos de energia.

Teoria Graceli sequencial energética.

De pulsos energéticos sequencial infinitésimo.

O que temos não são ondas, mas sequência de fluxos de pulsos eletromagnéticos.

O mesmo ocorre nas dilatações com ação térmica sobre elétrons e partículas, ou seja, em elétrons superativados, e também ocorre num sistema de plasma, onde ocorre uma super ativação de interações de energia num sistema integrado de ações sobre ações .

Onde campos de elétrons e partículas agem sobre outros em processos de interações de sequências de fluxos de pulsos de uns sobre os outros, formando um sistema de integração fechado.

O mesmo ocorre nos movimentos de campos e cargas, e de fótons. Ou seja, o que temos são integrações de uns sobre todos, e todos sobre todos, numa ação integrada e fechada.

Isto rompe com o sistema de ondas eletromagnética, e mesmo de ações de partículas.

Ou seja, o que temos não são ondas, mas sim fluxos de pulsos, que ocorre quando a partícula recebe a carga externa de energia e a processa internamente e a devolve para fora num sistema de fluxos sequenciais de pulsos de energia.

Ou seja, a eletricidade, o magnetismo não se propagam em ondas, mas em forma de fluxos sequenciais de pulsos de enregia, que é recebido de fora para dentro, e devolvido de dentro para fora numa ação integrada agindo sobre as outras partículas, campos e meios.

Sequencias oscilatórias de fluxos de pulsos.

As sequências de dos fluxos de pulsos não são estáveis, mas sim instáveis seguindo uma variação sequencial infinitésima Graceli.

Representado pela equação:

Logx/x [n...].

Efeito Graceli.

As variações, oscilações e os fenômenos não são proporcionais em intensidade, quantidade e alcance à energia recebida.  Mas sim, depende do estágio energético em que se encontra o elétron, e outras partículas do sistema em questão.

Exemplo.

O urânio e o tório terão um comportamento de distribuição e radiação mais intenso do que outros elementos.

Ou mesmo enquanto outros entram em combustão como o oxigênio e o hélio, outros apenas se dilatam.

Radiofóton – o fóton de luz irradia corpúsculos eletromagnético no espaço durante o seu percurso. E que é irradiado na velocidade da luz.

exemplo de sistemas Graceli para funções de coordenadas n-dimensionais.






                                                  +  [+fh + fm + f altura + f osc + f n...]

TERÇA-FEIRA, 25 DE MARÇO DE 2014

Analytical Geometry Graceli oscillatory . And Graceli calculation .

Graceli coordinate system n- dimensional . And Graceli mathematical relativity .

Analytical Geometry Graceli oscillatory .

Geometry Graceli coordinate movements of oscillatory waves to variations of moves to east, west , north, south divided by time .

0 point onwards has a movement to n , s , l , or the east, west , north, south divided by time .

With a variation oscillatory movement to either side with respect to time in each coordinate x and y .

With this we have forms that vary the oscillation range of the coordinates in the form of waves in all directions . That is, a four-dimensional coordinate system Graceli .

Where frequency range and are divided by time.

 These oscillations can follow the formulas :

 

Logx /x n...

Logx /x n... * [[log h/h n… * logj /j n...]n...].

Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0.

Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0 [AF]+ [osc k.

                            

freq osc. F / c/t].

or differential or integral functions , such as:

                                            + Lat, long , altu + movement.

functions with extensions [ extension ] points for distances d .

areas for [ d ] multiplied by the distance exponent 2 for spheres by pi ..

For volumes multiplied by the exponent 3 .

P = extensions = distance forming in points differential and integral function.

F [ x ] = functions.

or

 integral.

  

                                                     * P . of points, lines , curves , bells , wave forms .

                    

        

     2

                                                                       2

                                                                 * P [ in areas ] .

             

                      

        

 

                                                                   3

                                                               * P [ volumes to ] .

For differential .

F [x] * p . of points, lines , curves , bells , wave forms .

             2

F [x] * p [ in areas ] .

             

               3

F [ x ] * p [ for volumes ] .

Graceli coordinate system.

 Dimensional .

Latitude , longitude , height .

Latitude , longitude and movement .

Four-dimensional .

Latitude , longitude , height and movement / t . [ k range , and frequency f waves ] .

Five dimensions .

Latitude , longitude , height , movement / T , flows .

Six dimensions.

Latitude , longitude , height , movement / t , and transcendental flows [ / + R / -R , / 0 ] .

Mathematical relativity Graceli by graceli coordinates.

Change of position , location, forms , movements , precession , oscillation, variable flows of shapes , growth and decrescimentos parts , like a balloon that inflates and part wilt deformations . Rotation, translation and displacement, and oscillatory precession.

Horseshoes , cups, boxes , objects , and quadrimensionais dimensional images .

Variations in relation to positions of observers . Where one observes a form of an object . Where a person behind a glass see the bottom of the glass and the mouth of the front glass.

With this addition to the object , curves , straight lines , we deformations and displacements . And parts that disappear when multiplied by 0 [ zero ] , making a geometric system of transcendental parts .

 And also with forms in relation to positions of observers .

Graceli geometry of shapes , areas and volumes of flows and oscillatory movements .

For oscillatory areas.

For forms of extensions .

Example .

Area : A = 4πrs2 * Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF],*P –R,0 [AF]+ [osc k., fo F / c/t].

                                                                                                    

Area : A = 4πrs2 * Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF],*P –R,0 [AF]+ [osc k., fo F / c/t].

 

                             

for oscillatory volumes.

                                                                                                                                                      

  * Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF],*P –R,0 [AF]+ [osc k., fo F / c/t].

Analytical Geometry Graceli oscillatory . And Graceli calculation .

Graceli coordinate system n- dimensional . And Graceli mathematical relativity .

Analytical Geometry Graceli oscillatory .

Geometry Graceli coordinate movements of oscillatory waves to variations of moves to east, west , north, south divided by time .

0 point onwards has a movement to n , s , l , or the east, west , north, south divided by time .

With a variation oscillatory movement to either side with respect to time in each coordinate x and y .

With this we have forms that vary the oscillation range of the coordinates in the form of waves in all directions . That is, a four-dimensional coordinate system Graceli .

Where frequency range and are divided by time.

 These oscillations can follow the formulas :

 

Logx /x n...

Logx /x n... * [[log h/h n… * logj /j n...]n...].

Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0.

Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0 [AF]+ [osc k.

                            

freq osc. F / c/t].

or differential or integral functions , such as:

                                            + Lat, long , altu + movement.

functions with extensions [ extension ] points for distances d .

areas for [ d ] multiplied by the distance exponent 2 for spheres by pi ..

For volumes multiplied by the exponent 3 .

P = extensions = distance forming in points differential and integral function.

F [ x ] = functions.

or

 integral.

  

                                                     * P . of points, lines , curves , bells , wave forms .

                    

        

     2

                                                                       2

                                                                 * P [ in areas ] .

             

                      

        

 

                                                                   3

                                                               * P [ volumes to ] .

For differential .

F [x] * p . of points, lines , curves , bells , wave forms .

             2

F [x] * p [ in areas ] .

             

               3

F [ x ] * p [ for volumes ] .

Graceli coordinate system.

 Dimensional .

Latitude , longitude , height .

Latitude , longitude and movement .

Four-dimensional .

Latitude , longitude , height and movement / t . [ k range , and frequency f waves ] .

Five dimensions .

Latitude , longitude , height , movement / T , flows .

Six dimensions.

Latitude , longitude , height , movement / t , and transcendental flows [ / + R / -R , / 0 ] .

Mathematical relativity Graceli by graceli coordinates.

Change of position , location, forms , movements , precession , oscillation, variable flows of shapes , growth and decrescimentos parts , like a balloon that inflates and part wilt deformations . Rotation, translation and displacement, and oscillatory precession.

Horseshoes , cups, boxes , objects , and quadrimensionais dimensional images .

Variations in relation to positions of observers . Where one observes a form of an object . Where a person behind a glass see the bottom of the glass and the mouth of the front glass.

With this addition to the object , curves , straight lines , we deformations and displacements . And parts that disappear when multiplied by 0 [ zero ] , making a geometric system of transcendental parts .

 And also with forms in relation to positions of observers .

Graceli geometry of shapes , areas and volumes of flows and oscillatory movements .

For oscillatory areas.

For forms of extensions .

Example .

Area : A = 4πrs2 * logx / x ... n * [ [ log h / hn logj ... * / j ... n ] ... n ] * [ * P + R [ AF ] * P - value , 0 [ AF ] + [ k osc . , fo F / c / t ] * [ d ] .

                                                                                                    

Area : A = 4πrs2 * logx / x ... n * [ [ log h / hn logj ... * / j ... n ] ... n ] * [ * P + R [ AF ] * P - value , 0 [ AF ] + [ k osc . , fo F / c / t ] .

                             

for oscillatory volumes.

                                                                                                                                                      

  * Logx / x ... n * [ [ log h / hn logj ... * / j ... n ] ... n ] * [ * P + R [ AF ] , P * -R , 0 [ AF ] + [ k osc . , fo F / c / t ] .

Geometria Graceli analítica oscilatória. E cálculo Graceli.

sistema Graceli de coordenadas n-dimensionais. E relatividade matemática Graceli.

Geometria Graceli analítica oscilatória.

Geometria Graceli de coordenadas de movimentos de ondas oscilatórios, para variações de movimentos para leste, oeste, norte, sul dividido pelo tempo.

Do ponto 0 em diante se tem um movimento para n,s, l,ou o leste, oeste, norte, sul dividido pelo tempo.

Com um movimento de variação oscilatório para cada lado em relação ao tempo em cada coordenada x, e y.

Com isto temos formas que variam conforme variam a oscilação das coordenadas na forma de ondas para todos os lados. Ou seja, um sistema Graceli de coordenadas quadrimensional.

Onde frequência e alcance são divididos pelo tempo.

 Estas oscilações podem seguir as fórmulas:

Logx /x n...

Logx /x n... * [[log h/h n… * logj /j n...]n...].

Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0.

Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF], *P –R,0 [AF]+ [osc k.

                            

freq osc. F / c/t].

ou funções diferenciais ou integrais, como exemplo:

  

   

                                                                           + lat, long, altu + movimento.

funções com prolongamentos [extensão] de pontos para distâncias d.

para áreas [d] distância multiplicado pelo expoente 2, para esferas por pi..

Para volumes multiplicado pelo expoente 3.

P = prolongamentos = distância que se formam em pontos de função diferencial e integral.

F [x] = funções.

Ou

 integral.

                                    * p. de pontos, retas, curvas, sinos, ondas, formas.

                    

       

     2

* p     [para áreas].

            

                      

      

  

                                                           

        3

  * p      [para volumes].

Para diferenciais.

F[x] * p. de pontos, retas, curvas, sinos, ondas, formas.

             2

F[x] * p      [para áreas].

            

             3

F[x] * p      [para volumes].

Sistema Graceli de coordenadas.

 Tridimensional.

Latitude, longitude, altura.

Latitude, longitude e movimento.

Quadrimensional.

Latitude, longitude, altura e movimento /t. [alcance k, e frequencia f de ondas].

Cinco dimensões.

Latitude, longitude, altura, movimentos /t, fluxos.

Seis dimensões .

Latitude, longitude, altura, movimentos /t, fluxos e transcendentes [/+R, /-R,/0].

Relatividade matemático Graceli por coordenadas graceli.

Variação de posição, lugar, formas, deslocamentos, precessão, oscilação, fluxos variáveis de formas, crescimentos e decrescimentos de partes, como um balão que infla parte e murcha, deformações. Rotação, translação e deslocamento, e precessão oscilatória.

Ferraduras, copos, caixas, objetos, imagens tridimensionais e quadrimensionais.

Variações em relação a posições de observadores. Onde cada um observa uma forma de um objeto. Onde uma pessoa atrás de um copo verá o fundo do copo, e o da frente a boca do copo.

Com isto além do objeto, de curvas, retas, temos deformações e deslocamentos. E partes que desaparecem quando multiplicado por 0 [zero], tornando um sistema geométrico de partes transcendental.

 E também com formas em relação a posições de observadores.

Geometria Graceli de formas, áreas e volumes de fluxos e movimentos oscilatórios.

Para áreas oscilatórias.

Para formas de prolongamentos.

Exemplo.

Área: A = 4πrs²  * Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF],*P –R,0 [AF]+ [osc k., fo F / c/t] * [d].

                                                                                                    

Área: A = 4πrs²    *   Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF],*P –R,0 [AF]+ [osc k., fo F / c/t].

                            

para volumes oscilatórios.

                                                                                                                                                     

 * Logx /x n... * [[log h/h n… * logj /j n...]n...]*[*P +R[AF],*P –R,0 [AF]+ [osc k., fo F / c/t].