SENSACIONAL ! Cientistas Descobrindo a Matrix/DNA: “A Teoria da Auto-Organização Fractal Como um Método de Descoberta Universal: o Fenômeno da Vida

E de repente descubro um “scientific paper” na Internet:

“The self-organizing fractal theory as a universal discovery method: the phenomenon of life”

Basta trocar na frase a palavra fractal pela palavra Matrix/DNA e esta frase pode ser o título dêste website. É exatamente a mesma coisa!

Mas trata-se de um documento cientifico registrado e com peer-review e uma exagerada lista com mais de 200 referências a outros documentos cientificos!

Está no link:

E as datas:

Received: 19 November 2010
Accepted: 29 March 2011
Published: 29 March 2011

E dêsde que êste website foi lançado em 2008, e dêsde que os direitos autorais de minha obra foram registrados a décadas atrás… não podem dizer que plagiei ou copiei o que já havia sido descoberto…

O material foi publicado no:

Theoretical Biology and Medical Modelling
Volume 8

o Autor é:

Alexei Kurakin

E… claro… vou ter que ler tudo com muito carinho, e ter que ir copiando aqui porque tenho certeza muitas anotações terão que serem feitas e no fim vai gerar um novo grande artigo para a Matrix/DNA e inspirar muitas novas pesquisas.


A universal discovery method potentially applicable to all disciplines studying organizational phenomena has been developed. This method takes advantage of a new form of global symmetry, namely, scale-invariance of self-organizational dynamics of energy/matter at all levels of organizational hierarchy, from elementary particles through cells and organisms to the Universe as a whole.

Pausa: Anotação da Matrix/DNA

O que é “scale-invariance”?
Scale invariance
From Wikipedia, the free encyclopedia:

In physics and mathematics, scale invariance is a feature of objects or laws that do not change if scales of length, energy, or other variables, are multiplied by a common factor. ( O fator comum universal é a fórmula da Matrix/DNA) The technical term for this transformation is a dilatation (also known as dilation), and the dilatations can also form part of a larger conformal symmetry. Fractals : It is sometimes said that fractals are scale-invariant, although more precisely, one should say that they are self-similar. A fractal is equal to itself typically for only a discrete set of values λ, and even then a translation and rotation must be applied to match up to the fractal to itself.

Processo de Wiener Como Propagação da Matrix/DNA

Processo de Wiener Como Propagação da Matrix/DNA

Fractal de Mandelbrot

Fractal de Mandelbrot

Voltando ao Artigo:

The method is based on an alternative conceptualization of physical reality postulating that the energy/matter comprising the Universe is far from equilibrium, that it exists as a flow, and that it develops via self-organization in accordance with the empirical laws of nonequilibrium thermodynamics.

Pausa da Matrix/DNA:

Non-equilibrium thermodynamics é o estudo dos sistemas abertos, como se pode deduzir da definição a seguir:

From Wikipedia, the free encyclopedia

Non-equilibrium thermodynamics is a branch of thermodynamics that deals with systems that are not in thermodynamic equilibrium. Most systems found in nature are not in thermodynamic equilibrium; for they are changing or can be triggered to change over time, and are continuously and discontinuously subject to flux of matter and energy to and from other systems. Many natural systems still today remain beyond the scope of currently known macroscopic thermodynamic methods.

Voltando ao artigo:

It is postulated that the energy/matter flowing through and comprising the Universe evolves as a multiscale, self-similar structure-process, i.e., as a self-organizing fractal. This means that certain organizational structures and processes are scale-invariant and are reproduced at all levels of the organizational hierarchy. Being a form of symmetry, scale-invariance naturally lends itself to a new discovery method that allows for the deduction of missing information by comparing scale-invariant organizational patterns across different levels of the organizational hierarchy.

An application of the new discovery method to life sciences reveals that moving electrons represent a keystone physical force (flux) that powers, animates, informs, and binds all living structures-processes into a planetary-wide, multiscale system of electron flow/circulation, and that all living organisms and their larger-scale organizations emerge to function as electron transport networks that are supported by and, at the same time, support the flow of electrons down the Earth’s redox gradient maintained along the core-mantle-crust-ocean-atmosphere axis of the planet.

Pausa da Matrix/DNA:

O que é “Earth’s redox gradient”?

From Wikipedia:Redox gradient = Redox (portmanteau for reduction-oxidation), ( ou seja, redox é o sufixo para REDuction + OXidation) A redox gradient is the biogeochemical sorting of reductants and oxidants according to redox potential, with the most reducing conditions at depth, having its origin in the depletion of oxygen and the successive depletion of reactants with depth. They form in stratified environments where oxygen does not penetrate deeper than the immediate surface environment. Examples include waterlogged soils, marine pelagic and hemipelagic sediments, and, most notably, the Black Sea. (…)
The term comes from the two concepts of reduction and oxidation. It can be explained in simple terms:
– Oxidation is the loss of electrons or an increase in oxidation state by a molecule, atom, or ion.
– Reduction is the gain of electrons or a decrease in oxidation state by a molecule, atom, or ion.

Voltando ao artigo:

The presented findings lead to a radically new perspective on the nature and origin of life, suggesting that living matter is an organizational state/phase of nonliving matter and a natural consequence of the evolution and self-organization of nonliving matter.

The presented paradigm opens doors for explosive advances in many disciplines, by uniting them within a single conceptual framework and providing a discovery method that allows for the systematic generation of knowledge through comparison and complementation of empirical data across different sciences and disciplines.


It is a self-evident fact that life, as we know it, has a natural tendency to expand in space and time and to evolve from simplicity to complexity. Periodic but transient setbacks in the form of mass extinctions notwithstanding, living matter on our planet has been continuously expanding in terms of its size, diversity, complexity, order, and influence on nonliving matter. In other words, living matter as a whole appears to evolve spontaneously from states of relative simplicity and disorder (i.e., high entropy states) to states of relative complexity and order (i.e., low entropy states). Moreover, when considered over macroevolutionary timescales, the expansion and ordering of living matter appears to proceed at an accelerating pace [1,2].

1 – Philos Trans R Soc Lond B Biol Sci. 2002 May 29;357(1421):709-18.

Does natural selection organize ecosystems for the maintenance of high productivity and diversity?

Leigh EG Jr, Vermeij GJ.
Source; Smithsonian Tropical Research Institute, Unit 0948, Apartado 2072, Balboa, 34002-0948, Panama.


Three types of evidence suggest that natural ecosystems are organized for high productivity and diversity: (i) changes not previously experienced by a natural ecosystem, such as novel human disturbances, tend to diminish its productivity and/or diversity, just as ‘random’ changes in a machine designed for a function usually impair its execution of that function; (ii) humans strive to recreate properties of natural ecosystems to enhance productivity of artificial ones, as farmers try to recreate properties of natural soils in their fields; and (iii) productivity and diversity have increased during the Earth’s history as a whole, and after every major biotic crisis. Natural selection results in ecosystems organized to maintain high productivity of organic matter and diversity of species, just as competition among individuals in Adam Smith’s ideal economy favours high production of wealth and diversity of occupations. In nature, poorly exploited energy attracts more efficient users. This circumstance favours the opening of new ways of life and more efficient recycling of resources, and eliminates most productivity-reducing ‘ecological monopolies’. Ecological dominants tend to be replaced by successors with higher metabolism, which respond to more stimuli and engage in more varied interactions. Finally, increasingly efficient predators and herbivores favour faster turnover of resources.

PMID: 12079531 [PubMed – indexed for MEDLINE] PMCID: PMC1692970

REF N. 2 :

An Economic History
Geerat J. Vermeij

Voltando ao artigo:

Yet this empirical trend stands in stark contrast with one of the fundamental laws of physics, the second law of thermodynamics, which states that energy/matter can spontaneously evolve only from states of lower entropy (order) to states of higher entropy (disorder), i.e., in the opposite direction. The apparent conflict between theory and empirical reality is normally dismissed by pointing out that the second law does not really contradict biological evolution because local decreases in entropy (i.e., ordering) are possible as long as there are compensating increases in entropy (i.e., disordering) somewhere else, so that net entropy always increases. Albeit, how exactly the apparent decrease of entropy on the planet Earth is compensated by an increase in entropy somewhere else is less clear.

Pausa da Matrix/DNA:

Para os modêlos da Matrix/DNA êste conflito não existe. Acontece que a Humanidade nunca conheceu um sistema natural completo e isolado como nós que temos a fórmula, mesmo porque êle não existe perceptivel aos nossos sentidos materiais. A teoria da termo-dinamica foi elaborada sôbre o conhecimento de apenas uma fase de um ciclo evolucionario – quando a matéria energia involui desde um estado de baixa desordem para um estado de alta desordem. Acontece que o estado de alta desordem nunca alcança o máximo em todos os locais ao mesmo tempo e de um estado quase-maximo essa matéria energia se colapsa para retornar pelo estado de ordem. A alternancia entre caos e ordem são ciclos verdadeiros, jamais em alguma situação foi comprovada que não exista este ciclo com essa alternancia. A vida na terra caminha sim de um estado de alta desordem para menor desordem enquanto é compensado pelo sentido reverso da estrêla Sol, que caminha para o estado de alta desordem… porem, depois será reciclado, recomeçando o estado de ordem.

Voltando ao artigo:

Since “somewhere else” can potentially include the whole Universe, the Universe as a whole is believed to undergo natural disorganization on the way to its final destination, i.e., to a state of maximum entropy, where all changes will cease, and disorder and simplicity will prevail forever. A gloomy future indeed, so that one may ask oneself why to bother, to excel, and to create, and why not simply enjoy by destroying, since this is the natural and inevitable order of things anyway? Yet, most of us do bother, excel, and create, for this makes our lives meaningful. A logical conclusion is that either most people are mad, being in denial of reality and behaving irrationally, or that the accepted theory presents us with a false image of reality that conflicts sharply with our deep-seated beliefs, intuition, and common sense.

Pausa da Matrix/DNA:

É preciso separar a matéria/energia do que denominamos “Universo” da matéria/energia do que denominamos “Vida”. Assim como sabemos separar a matéria e substâncias do que constitui a bolsa amniótica com seu amnion e placenta do corpo do embrião. O Universo caminha para seu desmanchamento e descartamento como a placenta é descartada, mas dentro dêle há algo que caminha para a evolução e nascimento para alem do Universo. Assim como o corpo dos pais são ancestrais do embrião, o ceú estrelado lá fora compõe os corpos dos nossos ancentrais, ainda animados ou fossilizados. Não existe motivação para o homem ser destrutivo, ao contrário. Nós somos como bactérias dentro de corpos e podemos conquistar a amizade e aprovação do Universo se formos bactérias benéficas a êle, assim como gostamos das bactérias que realizam indispensáveis trabalhos em nossos corpos.

Voltando ao artigo

Revising the basic concepts, assumptions, and postulates placed as keystones in the foundation of classical physics and the corresponding worldview at the very beginning, this work outlines an alternative interpretation/image of reality that brings scientific theory, experimental reality, and our deep-seated beliefs, intuition, and common sense into harmony. Moreover, the proposed interpretation naturally resolves a large variety of paradoxes and reconciles numerous controversies burdening modern sciences.

Pausa da Matrix/DNA:

Uma exata definição da visão de mundo da Matrix/DNA !

Voltando ao artigo:

Let us begin by noting that the apparent conflict between the second law of thermodynamics and biological evolution exists only if one assumes that the energy/matter comprising the Universe is near equilibrium and that it evolves toward an equilibrium state via disorganization and disordering, obeying the laws of equilibrium thermodynamics. The conflict disappears, however, if we postulate that the energy/matter making up the Universe is far from equilibrium, that it exists as an evolving flow, and that the energy/matter flowing through and comprising the Universe evolves from simplicity and disorder to complexity and order via self-organization, in accordance with the empirical laws of nonequilibrium thermodynamics.

Pausa da Matrix/DNA:

A teoria da termodin6amoca foi baseada na lógica dedução do século passado de que o Universo seria algo unico no mundo, um sistema isolado no “Nada” e fechado em simesmo. No entanto todos os grandes teóricos da Física Moderna, como Stephen Hawking, tendem cada vez mais a acreditar na hipótese dos multi-versos. Se é assim o nosso Universo se relaciona de alguma forma com outros universos e portanto não poderia ser um sistema fechado em si mesmo, mas sim, um sistema aberto, ou seja, um “nonequilibrium system”. Não entendo porque os fisicos não assimilam isto e não mudam as bases de seus pensamentos.

Voltando ao artigo:

Studies on self-organization in relatively simple nonequilibrium systems show that creating a gradient (e.g., a temperature, concentration, or chemical gradient) within a molecular system of interacting components normally causes a flux of energy/matter in the system and, as a consequence, the emergence of a countervailing gradient, which, in turn, may cause the emergence of another flux and another gradient, and so forth. The resulting complex system of conjugated fluxes and coupled gradients manifests as a spatiotemporal macroscopic order spontaneously emerging in an initially featureless, disordered system, provided the system is driven far enough away from equilibrium [3-5].

One of the classical examples of nonequilibrium systems is the Belousov-Zhabotinsky reaction, in which malonic acid is oxidized by potassium bromate in dilute sulfuric acid in the presence of a catalyst, such as cerium or manganese. By varying experimental conditions, one can generate diverse ordered spatiotemporal patterns of reactants in solution, such as chemical oscillations, stable spatial structures, and concentration waves [4,5].

Pausa da Matrix/DNA:
O que é…?

From Wikipedia: Belousov–Zhabotinsky reaction, or BZ reaction, is one of a class of reactions that serve as a classical example of non-equilibrium thermodynamics, resulting in the establishment of a nonlinear chemical oscillator. The only common element in these oscillating systems is the inclusion of bromine and an acid. The reactions are theoretically important in that they show that chemical reactions do not have to be dominated by equilibrium thermodynamic behavior. These reactions are far from equilibrium and remain so for a significant length of time. In this sense, they provide an interesting chemical model of nonequilibrium biological phenomena, and the mathematical models of the BZ reactions themselves are of theoretical interest. An essential aspect of the BZ reaction is its so called “excitability” — under the influence of stimuli, patterns develop in what would otherwise be a perfectly quiescent medium. Some clock reactions such as Briggs–Rauscher and BZ using the tris(bipyridine)ruthenium(II) chloride as catalyst can be excited into self-organising activity through the influence of light.

Comentáriio da Matrix/DNA:

Note que uma das áreas de pesquisas da Matrix/DNA foi aberta quando penso ter descoberto que as variações da luz em frequencias, períodos e côres, correspondem às variações de um ciclo vital, portanto, existe a possibilidade de que ( desde que os sistemas ditos não-vivos tambem tem a propriedade do ciclo vital e que o circuito do ciclo vital se torna a plataforma de sistema natural), a Luz seja a unidade fundamental criadora dos sistemas naturais, ou organizadora da matéria/energia em sistemas. Aqui, as tais “clock reactions” estão reforçando esta espetacular hipótese.

Voltando ao artigo:

Another popular example is the Benard instability shown in Figure 1.

The Benard instability.

The Benard instability.

In this system, a vertical temperature gradient, which is created within a thin horizontal layer of liquid by heating its lower surface, drives an upward heat flux through the liquid layer. When the temperature gradient is relatively weak, heat propagates from the bottom to the top by conduction. Molecules move in a seemingly uncorrelated fashion, and no macro-order is discernable. However, once the imposed temperature gradient reaches a certain threshold value, an abrupt organizational transition takes place within the liquid layer, leading to the emergence of a metastable macroorganization of molecular motion. Molecules start moving coherently, forming hexagonal convection cells of a characteristic size. As a result of the organizational transition, conduction is replaced by convection, and the rate of energy/matter transfer through the layer increases in a stepwise manner.

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