Graceli systems theory of energies and interactions.
Nature is based on systems of interactions of charges and energies, where you have particles in fact what you have are systems and plants of interactions of energies and charges.
The systems of interactions and energies can be electric, magnetic, radioactive, thermal, luminescent [lasers].
With correlated secondary phenomena, such as: tunnels, entropy and entropy potentials, Graceli category potentialities, electrostatic potential, entanglements, ion interactions, conductivity and superconductivity, dynamics, jumps, phenomenal time and space, and others.
That is, what you have are systems of interactions and energies both inside particles and between them.
What is the third quantization, which is the quantization of systems in interactions and energies with random and indeterminate, as well as categorical flows.
Being that the uncertainty is in the infinite and infinite of the processes, where the whole is in indeterminality and randomness, and not parts, as momentum and position.
How does the probability distribution of the possible measures of a system vary, where it is also not possible to determine the probability distribution of systems of interactions and energies, because they are infinite and infinite and in transformations, with indices and random values. That is, the distributions are indeterminate and generalized.
With this, there are no indices in Graceli systems, that is, Planck's h does not exist, because the system is always in changes and variations of energies.
That is, if it has a systematization against a quantification of physics.
teoria dos sistemas Graceli de energias e interações.
A natureza se fundamenta em sistemas de interações de cargas e energias, onde se tem partículas na verdade o que se tem são sistemas e usinas de interações de energias e cargas.
Os sistemas de interações e energias podem ser elétrico, magnético, radioativo, térmico, luminescentes [lasers].
Com fenômenos secundários correlacionados, como: tunelamentos, entropais e potenciais de entaplias, potencialidades categoriais de Graceli, potencial eletrostáticos, emaranhamentos, interações de íons, condutividade e supercondutividades, dinâmicas, saltos, tempo e espaço fenomênicos, e outros.
Ou seja, o que se tem são sistemas de interações e energias tanto dentro de partículas, quanto entre as mesmas..
Que é a terceira quantização, que é a quantização de sistemas em interações e energias com fluxos aleatórios e indeterminados, como também categoriais.
Sendo que a incerteza está no ínfimo e infinito dos processos, onde o todo se encontra em indeterminalidade e aleatoriedade, e não partes, como momentum e posição.
Como varia a distribuição de probabilidade das possíveis medidas de um sistema, onde também não é possível determinar a distribuição de probabilidade de sistemas de interações e energias, porque são ínfimos e infinitos e em transformações, com índices e valores aleatórios. Ou seja, as distribuições são indeterminadas e generalizadas.
Com isto não se tem índices em sistemas de Graceli, ou seja, o h de Planck não existe, pois, o sistema se encontra sempre em mudanças e variações de energias.
Ou seja, se tem uma sistematização frente a uma quantificação da física.
Nature is based on systems of interactions of charges and energies, where you have particles in fact what you have are systems and plants of interactions of energies and charges.
The systems of interactions and energies can be electric, magnetic, radioactive, thermal, luminescent [lasers].
With correlated secondary phenomena, such as: tunnels, entropy and entropy potentials, Graceli category potentialities, electrostatic potential, entanglements, ion interactions, conductivity and superconductivity, dynamics, jumps, phenomenal time and space, and others.
That is, what you have are systems of interactions and energies both inside particles and between them.
What is the third quantization, which is the quantization of systems in interactions and energies with random and indeterminate, as well as categorical flows.
Being that the uncertainty is in the infinite and infinite of the processes, where the whole is in indeterminality and randomness, and not parts, as momentum and position.
How does the probability distribution of the possible measures of a system vary, where it is also not possible to determine the probability distribution of systems of interactions and energies, because they are infinite and infinite and in transformations, with indices and random values. That is, the distributions are indeterminate and generalized.
With this, there are no indices in Graceli systems, that is, Planck's h does not exist, because the system is always in changes and variations of energies.
That is, if it has a systematization against a quantification of physics.
teoria dos sistemas Graceli de energias e interações.
A natureza se fundamenta em sistemas de interações de cargas e energias, onde se tem partículas na verdade o que se tem são sistemas e usinas de interações de energias e cargas.
Os sistemas de interações e energias podem ser elétrico, magnético, radioativo, térmico, luminescentes [lasers].
Com fenômenos secundários correlacionados, como: tunelamentos, entropais e potenciais de entaplias, potencialidades categoriais de Graceli, potencial eletrostáticos, emaranhamentos, interações de íons, condutividade e supercondutividades, dinâmicas, saltos, tempo e espaço fenomênicos, e outros.
Ou seja, o que se tem são sistemas de interações e energias tanto dentro de partículas, quanto entre as mesmas..
Que é a terceira quantização, que é a quantização de sistemas em interações e energias com fluxos aleatórios e indeterminados, como também categoriais.
Sendo que a incerteza está no ínfimo e infinito dos processos, onde o todo se encontra em indeterminalidade e aleatoriedade, e não partes, como momentum e posição.
Como varia a distribuição de probabilidade das possíveis medidas de um sistema, onde também não é possível determinar a distribuição de probabilidade de sistemas de interações e energias, porque são ínfimos e infinitos e em transformações, com índices e valores aleatórios. Ou seja, as distribuições são indeterminadas e generalizadas.
Com isto não se tem índices em sistemas de Graceli, ou seja, o h de Planck não existe, pois, o sistema se encontra sempre em mudanças e variações de energias.
Ou seja, se tem uma sistematização frente a uma quantificação da física.
trans-intermechanical Graceli.
effects 9,760.
unified theory structural category phenomenal dimensional Graceli.
where there is a relation between categories involving structures, energies, phenomena, dimensions of Graceli. and transcendent Graceli states.
where the interactions determine the intensities and vice versa.
Where dimensions are the phenomenal dimensions of Graceli, and space and time are phenomena, not of measurements, but of phenomena between intensities, variations and fluxes, which in themselves determine space and time, not determined by space and time.
Where energy and phenomena can bend space and time, not mass to bend or flex them.
The categories and their interactions and relations also determine the mass and inertia, the fields, and even the gravitational, because all are related as interactions of structures, energies, phenomena and phenomenal dimensions of Graceli, and according to the categories of Graceli.
That is, geometry, mass, inertia, time, space, particles are determined and produced, not the determinants and producers.
This forms another type of relativity [the Graceli categorial relativity] and its relation to the micro world of causes and effects.
Where the micro happens to be a determinant and producer of the macro, and vice versa.
A thermal furnace [macro] will produce quantum changes and jumps and random micro fluxes in the particles and their displacements.
Insofar as these micro phenomena occur in intensity and quantity of fluxes x, it will depend on the energies, phenomena, and potential categories in which they are found.
With this we have another type of relativity [the categorical relativity of Graceli interactions and a categorial trans-intermechanism], and a unicity between the micro and the macro, as well as a categorical indeterminality, because, the categories that will determine the relations and interactions , as well as the dynamics and transformations that lead to categorical indeterminacy.
As it is seen here, the essential thing is not the particles, but the energy, phenomena, phenomenal dimensions of Graceli and the categories.
Where one has a phenomenal energeticity against a structural one.
[eeeeeffdp [f] [mcCdt] [+ mf] [itd] [cG].
Ant and slug parrot Graceli.
While the ant has strength and agility the slug has strength and does not have agility. That is, while the very small ant has a function equal to or greater than the slug, and both with sizes and functions diversified not by size but by strength and disposition and agility.
That is, energy and direction [dimensions of Graceli] are more important than just mass.
This can be seen in electricity, currents, superconductivity, radioactivity, and others.
every transformation produces dynamics and modifications of intensities of interactions of energies, ions and charges, and modifications of intensities and types of phenomena and energies, and vice versa.
effects 9,760.
unified theory structural category phenomenal dimensional Graceli.
where there is a relation between categories involving structures, energies, phenomena, dimensions of Graceli. and transcendent Graceli states.
where the interactions determine the intensities and vice versa.
Where dimensions are the phenomenal dimensions of Graceli, and space and time are phenomena, not of measurements, but of phenomena between intensities, variations and fluxes, which in themselves determine space and time, not determined by space and time.
Where energy and phenomena can bend space and time, not mass to bend or flex them.
The categories and their interactions and relations also determine the mass and inertia, the fields, and even the gravitational, because all are related as interactions of structures, energies, phenomena and phenomenal dimensions of Graceli, and according to the categories of Graceli.
That is, geometry, mass, inertia, time, space, particles are determined and produced, not the determinants and producers.
This forms another type of relativity [the Graceli categorial relativity] and its relation to the micro world of causes and effects.
Where the micro happens to be a determinant and producer of the macro, and vice versa.
A thermal furnace [macro] will produce quantum changes and jumps and random micro fluxes in the particles and their displacements.
Insofar as these micro phenomena occur in intensity and quantity of fluxes x, it will depend on the energies, phenomena, and potential categories in which they are found.
With this we have another type of relativity [the categorical relativity of Graceli interactions and a categorial trans-intermechanism], and a unicity between the micro and the macro, as well as a categorical indeterminality, because, the categories that will determine the relations and interactions , as well as the dynamics and transformations that lead to categorical indeterminacy.
As it is seen here, the essential thing is not the particles, but the energy, phenomena, phenomenal dimensions of Graceli and the categories.
Where one has a phenomenal energeticity against a structural one.
[eeeeeffdp [f] [mcCdt] [+ mf] [itd] [cG].
Ant and slug parrot Graceli.
While the ant has strength and agility the slug has strength and does not have agility. That is, while the very small ant has a function equal to or greater than the slug, and both with sizes and functions diversified not by size but by strength and disposition and agility.
That is, energy and direction [dimensions of Graceli] are more important than just mass.
This can be seen in electricity, currents, superconductivity, radioactivity, and others.
every transformation produces dynamics and modifications of intensities of interactions of energies, ions and charges, and modifications of intensities and types of phenomena and energies, and vice versa.
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