sexta-feira, 5 de maio de 2017
Effects and trans-intermecence of Graceli.
efeitos 2.601 a 2.620.
assim, levando em consideração intensidade, quantidade, distância e potencialidade de energias e estruturas de partículas dentro de átomos e moléculas, se tem assim, um sistema de efeitos mais abrangente e generalizado.
com outros valores para transformações de fases, e mecânica de trans-estados.
efeitos e trans-intermecância de Graceli.
as trans-interações e efeitos também mecânicos devem ser levados em consideração a intensidade, tipo e quantidade de partículas e seus campos e potenciais de cada um de interagir entre partículas, campos, energias térmica, radioativa, eletromagnética, energia de ligação, fluxos quântico vibratórios e outros agentes propostos por Graceli.
onde se forma um sistema interativo, transformativo, e trans-intermecânico envolvendo estes agentes acima e parâmetros de Graceli.
as interações podem se feitas com duas ou varias partículas, levando em consideração também os tunelamentos, e cadeias e trans-estados e trans-intermecânica de fases [de Graceli].
Effects and trans-intermecence of Graceli.
The trans-interactions and also mechanical effects must be taken into consideration the intensity, type and amount of particles and their fields and potentials each of interacting between particles, fields, thermal, radioactive, electromagnetic energies, bonding energy, vibrational quantum fluxes And other agents proposed by Graceli.
Where an interactive, transformative, and trans-intermechanical system involving these agents above and Graceli parameters is formed.
The interactions can be made with two or more particles, taking into account also the tunnels, and chains and trans-states and phase mechanics [de Graceli].
as trans-interações e efeitos também mecânicos devem ser levados em consideração a intensidade, tipo e quantidade de partículas e seus campos e potenciais de cada um de interagir entre partículas, campos, energias térmica, radioativa, eletromagnética, energia de ligação, fluxos quântico vibratórios e outros agentes propostos por Graceli.
onde se forma um sistema interativo, transformativo, e trans-intermecânico envolvendo estes agentes acima e parâmetros de Graceli.
as interações podem se feitas com duas ou varias partículas, levando em consideração também os tunelamentos, e cadeias e trans-estados e trans-intermecânica de fases [de Graceli].
Effects and trans-intermecence of Graceli.
The trans-interactions and also mechanical effects must be taken into consideration the intensity, type and amount of particles and their fields and potentials each of interacting between particles, fields, thermal, radioactive, electromagnetic energies, bonding energy, vibrational quantum fluxes And other agents proposed by Graceli.
Where an interactive, transformative, and trans-intermechanical system involving these agents above and Graceli parameters is formed.
The interactions can be made with two or more particles, taking into account also the tunnels, and chains and trans-states and phase mechanics [de Graceli].
Theory of effects of Graceli. 2,580 to 2,600.
According to the micro intensities of energies, ion and intermolecular interactions and isotope transformations, micro-intensities of magnetism and other fields, electricity, radioactivity, tunnels, refractions, dilations, entropies, quantum vibratory fluxes. Whether it has its own variational effects, or even in relation to all together.
Another point is when these agents and phenomena are being attacked by photons, x-rays and gamma, and effects of Graceli with thermal radiation, electric radiation, magnetic radiation and vibratory flows.
That is, an integrated system of effects and trans-intermechanism between effects of Graceli with transcendent phenomena of Graceli, forming a system of relative and indeterminate effects.
Teoria dos efeitos de Graceli. 2.580 a 2.600.
conforme os micros intensidades de energias, de
interações de íons e intermoleculares e transformações de isótopos, de micros
intensidades de magnetismo e outros campos, de eletricidade, de radioatividade,
de tunelamentos, de refrações, de dilatações, de entropias, de fluxos vibratórios
quântico. Se tem efeitos variacionais próprios, ou mesmo em relação a todos
juntos.
Outro ponto é quando estes agentes e fenômenos estão
sendo atacados por fótons, raios x e gama, e efeitos de Graceli com radiação térmica,
radiação elétrica, radiação magnética e fluxos vibratórios.
Ou seja, um sistema integrado de efeitos e trans-intermecânica
entre efeitos de Graceli com agentes fenomênicos transcendentes de Graceli,
formando um sistema de efeitos relativos e indeterminados.
Theory and trans-intermechanic Graceli of phase changes. According to Graceli's parameters.
Effects 2.541 to 2.580.
For each tiny thermal degree, one has microscopic changes of phases, and also for each micro electric intensity, magnetic, of interactions of ions, of radioactivity, of tunnels if there are micros and infinite changes of phases. And in this is based the trans-intermechanic and indeterminate generalized effects of Graceli for phase changes and trans-states.
That is, if a relation between thermal degrees, electric, magnetic, radioactive, tunneling, ion and intermolecular interactions, and others is formed, there is an indeterminate matrix system for each type of combination.
That is, infinite effects and trans-intermechanical variations at every minute instant.
Another point to be discussed is the phase transition, that is, at each minute moment and part has a different phase transition for each temperature degree, intensity, magnetism, intensity and electric type, intensity and type of radioactivity, luminescence and Entropy for each interaction of ions, transformations, intermolecular interactions in each type of molecular structure.
Where in each situation transcendent quantum and vibratory fluxes and temporal chains [change at any moment] have in each situation. And that varies according to the trans-states of Graceli, the dimensions categories of Graceli, chains, parameters and categories.
That is, a generalized and indeterminate trans-intermechanism involving all these agents of physics of Graceli.
Generalized system for other types of states and trans-states.
This also fits into other types of states, and trans states of Graceli, forming a generalized system, taking into consideration that one has a relativism according to the parameters of Graceli molecular structure, potential transformations and intermolecular interactions and interactions of ions, and Other agents, [chains, categories, dimensions and trans category categories of Graceli].
Effects 2.551 to 2.560.
The effects of ion and intermolecular transformations and interactions, chains and tunnels vary for type and intensity and according to the energy potentials involved in each type and intensity of phase changes for each type of state and Graceli trans states. Forming an interactive and transformative mechanics according to the parameters of Graceli.
That is, if a trans-intermechanic Graceli is formed according to the effects of phase changes as explained above.
With variational effects for entropies, jumps, dilations, refractions, scattering, distributions, transmutations, tunnels, vibratory flows and other phenomena.
Trans-intermechanical chains and effects of Graceli.
Effects 2.511 to 2.540.
From a certain temperature, quantum vibrational fluxes, magnetic momentum and intensity, electric vibratory intensity and momentum, radioactivity and tunneling potentials, and intermolecular and ion interactions, the particles will never condense because these agents are tiny and have minute actions And infinitesimal, and that there will always be attractive and repulsive forces within any kind of particles, atom, and molecule.
That is, it is not only the temperature and velocity zero, or attractive force that determine the states and phase transformations of atomic, particle and molecule and intermolecular structures.
And that there is no state of zero velocity, but rather: flows of energies, interactions of ions, of jumps, and other phenomena and agents
With this, another kind of relative, transcendent and indeterminate trans-intermechanism involving these agents and parameters of Graceli is formed.
As in conductivity it is observed that in low temperatures the magnetism and the conductivity also have force of intense attraction, or there is a contradiction in this. As well as the same state at low temperatures close to zero there is bonding energy, quantum vibratory fluxes, ion and intermolecular interactions, transformations and tunnels, and chains 1 and 2 of Graceli.
Also, this supposed state becomes relative to the categories, chains, trans-states and parameters of Graceli.
Trans-intermechanical chains and effects of Graceli.
Phenomena and effects occurring during transformations, ion and intermolecular interactions, and Graceli chains.
[Chains 1 and 2 occur according to the parameters and categories of Graceli].
Where is formed, a generalized and integral mechanics involving trans-states and states of Graceli, Graceli condensation duality, in relation to the categories, chains, trans-states and parameters of Graceli.com effects of tunnels, refractions, particulate emissions And with varying intensities and unstable random fluxes as photon impact occurs according to types and intensities and distances, intensities and types of temperatures, radioactivity, electricity, magnetism, and other agents.
Trans-intermechanical chains and effects of Graceli.
Effects 2.511 to 2.540.
From a certain temperature, quantum vibrational fluxes, magnetic momentum and intensity, electric vibratory intensity and momentum, radioactivity and tunneling potentials, and intermolecular and ion interactions, the particles will never condense because these agents are tiny and have minute actions And infinitesimal, and that there will always be attractive and repulsive forces within any kind of particles, atom, and molecule.
That is, it is not only the temperature and velocity zero, or attractive force that determine the states and phase transformations of atomic, particle and molecule and intermolecular structures.
And that there is no state of zero velocity, but rather: flows of energies, interactions of ions, of jumps, and other phenomena and agents
With this, another kind of relative, transcendent and indeterminate trans-intermechanism involving these agents and parameters of Graceli is formed.
As in conductivity it is observed that in low temperatures the magnetism and the conductivity also have force of intense attraction, or there is a contradiction in this. As well as the same state at low temperatures close to zero there is bonding energy, quantum vibratory fluxes, ion and intermolecular interactions, transformations and tunnels, and chains 1 and 2 of Graceli.
Also, this supposed state becomes relative to the categories, chains, trans-states and parameters of Graceli.
Trans-intermechanical chains and effects of Graceli.
Phenomena and effects occurring during transformations, ion and intermolecular interactions, and Graceli chains.
[Chains 1 and 2 occur according to the parameters and categories of Graceli].
Where is formed, a generalized and integral mechanics involving trans-states and states of Graceli, Graceli condensation duality, in relation to the categories, chains, trans-states and parameters of Graceli.com effects of tunnels, refractions, particulate emissions And with varying intensities and unstable random fluxes as photon impact occurs according to types and intensities and distances, intensities and types of temperatures, radioactivity, electricity, magnetism, and other agents.
That is, a trans-interactive mechanics in chains and effects in chains and with varying intensities and instabilities depending on the agents involved, or all together.
Effects 2.541 to 2.580.
For each tiny thermal degree, one has microscopic changes of phases, and also for each micro electric intensity, magnetic, of interactions of ions, of radioactivity, of tunnels if there are micros and infinite changes of phases. And in this is based the trans-intermechanic and indeterminate generalized effects of Graceli for phase changes and trans-states.
That is, if a relation between thermal degrees, electric, magnetic, radioactive, tunneling, ion and intermolecular interactions, and others is formed, there is an indeterminate matrix system for each type of combination.
That is, infinite effects and trans-intermechanical variations at every minute instant.
Another point to be discussed is the phase transition, that is, at each minute moment and part has a different phase transition for each temperature degree, intensity, magnetism, intensity and electric type, intensity and type of radioactivity, luminescence and Entropy for each interaction of ions, transformations, intermolecular interactions in each type of molecular structure.
Where in each situation transcendent quantum and vibratory fluxes and temporal chains [change at any moment] have in each situation. And that varies according to the trans-states of Graceli, the dimensions categories of Graceli, chains, parameters and categories.
That is, a generalized and indeterminate trans-intermechanism involving all these agents of physics of Graceli.
Generalized system for other types of states and trans-states.
This also fits into other types of states, and trans states of Graceli, forming a generalized system, taking into consideration that one has a relativism according to the parameters of Graceli molecular structure, potential transformations and intermolecular interactions and interactions of ions, and Other agents, [chains, categories, dimensions and trans category categories of Graceli].
Effects 2.551 to 2.560.
The effects of ion and intermolecular transformations and interactions, chains and tunnels vary for type and intensity and according to the energy potentials involved in each type and intensity of phase changes for each type of state and Graceli trans states. Forming an interactive and transformative mechanics according to the parameters of Graceli.
That is, if a trans-intermechanic Graceli is formed according to the effects of phase changes as explained above.
With variational effects for entropies, jumps, dilations, refractions, scattering, distributions, transmutations, tunnels, vibratory flows and other phenomena.
Trans-intermechanical chains and effects of Graceli.
Effects 2.511 to 2.540.
From a certain temperature, quantum vibrational fluxes, magnetic momentum and intensity, electric vibratory intensity and momentum, radioactivity and tunneling potentials, and intermolecular and ion interactions, the particles will never condense because these agents are tiny and have minute actions And infinitesimal, and that there will always be attractive and repulsive forces within any kind of particles, atom, and molecule.
That is, it is not only the temperature and velocity zero, or attractive force that determine the states and phase transformations of atomic, particle and molecule and intermolecular structures.
And that there is no state of zero velocity, but rather: flows of energies, interactions of ions, of jumps, and other phenomena and agents
With this, another kind of relative, transcendent and indeterminate trans-intermechanism involving these agents and parameters of Graceli is formed.
As in conductivity it is observed that in low temperatures the magnetism and the conductivity also have force of intense attraction, or there is a contradiction in this. As well as the same state at low temperatures close to zero there is bonding energy, quantum vibratory fluxes, ion and intermolecular interactions, transformations and tunnels, and chains 1 and 2 of Graceli.
Also, this supposed state becomes relative to the categories, chains, trans-states and parameters of Graceli.
Trans-intermechanical chains and effects of Graceli.
Phenomena and effects occurring during transformations, ion and intermolecular interactions, and Graceli chains.
[Chains 1 and 2 occur according to the parameters and categories of Graceli].
Where is formed, a generalized and integral mechanics involving trans-states and states of Graceli, Graceli condensation duality, in relation to the categories, chains, trans-states and parameters of Graceli.com effects of tunnels, refractions, particulate emissions And with varying intensities and unstable random fluxes as photon impact occurs according to types and intensities and distances, intensities and types of temperatures, radioactivity, electricity, magnetism, and other agents.
Trans-intermechanical chains and effects of Graceli.
Effects 2.511 to 2.540.
From a certain temperature, quantum vibrational fluxes, magnetic momentum and intensity, electric vibratory intensity and momentum, radioactivity and tunneling potentials, and intermolecular and ion interactions, the particles will never condense because these agents are tiny and have minute actions And infinitesimal, and that there will always be attractive and repulsive forces within any kind of particles, atom, and molecule.
That is, it is not only the temperature and velocity zero, or attractive force that determine the states and phase transformations of atomic, particle and molecule and intermolecular structures.
And that there is no state of zero velocity, but rather: flows of energies, interactions of ions, of jumps, and other phenomena and agents
With this, another kind of relative, transcendent and indeterminate trans-intermechanism involving these agents and parameters of Graceli is formed.
As in conductivity it is observed that in low temperatures the magnetism and the conductivity also have force of intense attraction, or there is a contradiction in this. As well as the same state at low temperatures close to zero there is bonding energy, quantum vibratory fluxes, ion and intermolecular interactions, transformations and tunnels, and chains 1 and 2 of Graceli.
Also, this supposed state becomes relative to the categories, chains, trans-states and parameters of Graceli.
Trans-intermechanical chains and effects of Graceli.
Phenomena and effects occurring during transformations, ion and intermolecular interactions, and Graceli chains.
[Chains 1 and 2 occur according to the parameters and categories of Graceli].
Where is formed, a generalized and integral mechanics involving trans-states and states of Graceli, Graceli condensation duality, in relation to the categories, chains, trans-states and parameters of Graceli.com effects of tunnels, refractions, particulate emissions And with varying intensities and unstable random fluxes as photon impact occurs according to types and intensities and distances, intensities and types of temperatures, radioactivity, electricity, magnetism, and other agents.
That is, a trans-interactive mechanics in chains and effects in chains and with varying intensities and instabilities depending on the agents involved, or all together.
Teoria e trans-intermecânica Graceli de mudanças de fases conforme os parâmetros de Graceli.
Efeitos 2.541 a 2.580.
Para cada ínfimo grau térmico se tem micros mudanças de fases, e também para cada micro intensidade elétrica, magnética, de interações de íons, de radioatividade, de tunelamentos se tem micros e infinitas mudanças de fases. E nisto se fundamenta a trans-intermecânica e efeitos generalizados indeterminados de Graceli para mudanças de fases e trans-estados.
Ou seja, se formar uma relação entre graus térmicos, intensidades elétrica, magnética, radioativa, de tunelamentos, de interações de íons e intermoleculares, e outros, se tem um sistema matricial indeterminado para cada tipo de combinação.
Ou seja, infinitos efeitos e variações trans-intermecânica em cada ínfimo instante.
Outro ponto a ser discutido é a transição de fase, ou seja, em cada ínfimo instante e parte se tem uma transição de fase diferente para cada grau de temperatura, intensidade magnetismo, intensidade e tipo elétrico, intensidade e tipo de radioatividade, de luminescência e entropia para cada interação de íons, de transformações, de interações intermolecular em cada tipo de estrutura molecular.
Onde se tem em cada situação fluxos quântico e vibratórios transcendentes e em cadeias temporais [mudam a todo instante]. E que varia conforme os trans-estados de Graceli, as dimensões categorias de Graceli, cadeias, parâmetros e categorias.
Ou seja, uma trans-intermecânica generalizada e indeterminada envolvendo todos estes agentes de física de Graceli.
Sistema generalizado para outros tipos de estados e trans-estados.
Isto também se encaixa para outros tipos de estados, e trans-estados de Graceli, formando um sistema generalizado, levando em consideração que se tem um relativismo conforme os parâmetros de Graceli estrutura molecular, potenciais de transformações e interações intermolecular e interações de íons, e outros agentes, [cadeias, categorias, dimensões e trans-estados categoriais de Graceli].
Efeitos 2.551 a 2.560.
Os efeitos de transformações e interações de íons e intermoleculares, cadeias e tunelamentos variam para da tipo e intensidade e conforme os potenciais de energias envolvidos em cada tipo e intensidade de mudanças de fases para cada tipo de estado e trans-estados Graceli. Formando uma mecânica interativa e transformativa conforme os parâmetros de Graceli.
Ou seja, se forma uma trans-intermecânica Graceli conforme os efeitos de mudanças de fases conforme o exposto acima.
Com efeitos variacionais para entropias, saltos, dilatações, refrações, espalhamento, distribuições, transmutações, tunelamentos, fluxos vibratórios e outros fenômenos.
Trans-intermecânica de cadeias e efeitos de Graceli.
Efeitos 2.511 a 2.540.
A partir de uma certa temperatura, fluxos vibratório quântico, momentum e intensidade magnéticos, intensidade e momentum vibratório elétrico, radioatividade e potenciais de tunelamentos e interações de íons e intermoleculares, as partículas nunca irão se condensar, pois estes agentes são ínfimos e tem ações ínfimas e infinitésimas, e que sempre haverá forças atrativas e repulsivas dentro de qualquer tipo de partículas, átomo, e molécula.
Ou seja, não é apenas a temperatura e velocidade zero, ou força atrativa que determinam os estados e transformações de fases das estruturas atômica, de partículas e moléculas e intermoleculares.
E que não existe estado de velocidade zero, mas sim: fluxos de energias, interações de íons, de saltos, e outros fenômenos e agentes
Com isto se forma outro tipo de trans-intermecânica relativa, transcendente e indeterminada envolvendo estes agentes e parâmetros de Graceli.
Como na condutividade se constata que em baixas temperaturas o magnetismo e a condutividade também têm força de atração intensa, ou há uma contradição nisto. Como também mesmo estado em baixas temperaturas próximo de zero existe energia de ligação, fluxos vibratórios quântico, interações de íons e intermoleculares, transformações e tunelamentos, e cadeias 1 e 2 de Graceli.
Sendo também este suposto estado se torna relativo à categorias, cadeias, trans-estados e parâmetros de Graceli.
Trans-intermecânica de cadeias e efeitos de Graceli.
Fenômenos e efeitos que ocorrem durante transformações, interações de íons e intermoleculares, e cadeias de Graceli.
[as cadeias 1 E 2 ocorrem conforme os parâmetros e categorias de Graceli].
Onde se forma assim, uma mecânica generalizada e integral envolvendo trans-estados e estados de Graceli, dualidade de condensado de Graceli, em relação à categorias, cadeias, trans-estados e parâmetros de Graceli.com efeitos de tunelamentos, refrações, emissões de partículas e radiações, e com intensidades variadas e fluxos aleatórios instáveis conforme ocorrem impacto de fótons conforme tipos e intensidades e distanciamentos, intensidades e tipos de temperaturas, de radioatividade, de eletricidade, de magnetismo, e outros agentes.
Ou seja, uma mecânica trans-interativa em cadeias e de efeitos em cadeias e com intensidades e instabilidades variadas conforme os agentes envolvidos, ou todos juntos.
E relação distância, intensidade, aglutinação e espalhamento, distribuições entre outras energias, momentum, entropias, dilatações, espectros, temperaturas e outros agentes, pois, conforme estes agentes e os parâmetros de Graceli têm resultados e fluxos de efeitos variados para cada situação.
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