THE CHAINS BETWEEN WORLDS.
An organism extends through several scales of growing form. Since microscopic, quantic species become chained to stronger, TxE species, as their relative energy and information quanta of a ‘lower class’. In the image, Gaia, the Earth’s surface, is a Fractal Organism, made of organisms made of n cells, made of nn atoms, made of nnn quarks, all chained by their organic cycles.
The scale of worlds.
According to the 2nd postulate all forces of temporal energy carry information. Thus all of them can also act as languages that ‘inform’ a certain organism, when the organism has an informative system or mind. Thus according to the different forces of the Universe, each organic system has a different mind since it absorbs different temporal energies and so it creates different mental, linguistic ‘spaces/times’, relative virtual worlds, mirrors of the Universe. The world of each being represents a quantity of spatial information with a size, form and number of dimensions that are relative to the spatial reach, form and dimensions of the informative, linguistic forces it uses to observe the Universe. So while the Universal Syntax all minds use to create their virtual maps of the Universe is homologous in all beings, in as much as they reflect a single Universe, the details, quantity and quality of the information of those maps depends on each brain; since worlds are multiple, quantic, diffeomorphic. So, depending on which type of temporal force of energy each quantic being absorbs to create its mental map we can define different worlds or ecosystems in which a certain force is shared by multiple discontinuous Fractal Organisms that interact only with the other points of the same ecosystem but now with parallel worlds. For example, masses are quantic nodes that inform and/or perceive gravitation, which we do not see. We are quantic knots of light perception. While ants have olfactory brains that perceive atoms. And so many beings live in parallel discontinuous worlds within the same Universe.
Even an electron, the smallest form known to man, processes light information and jumps towards a moving photon, absorbing its energy to enhance its survival chances. Equally, black holes and quarks process gravitational information, locating themselves in the best position to absorb it as masses. While a chip uses digital information to guide a machine, etc. There are other spaces and ways of measuring time besides light and clocks, other possible virtual worlds and intelligences besides man. Since man is made of the same atomic material that the rest of the Universe, the capacity to communicate in this universe - the most clear prove of life - is not exclusive of human atoms but a property that takes place through different atoms and forces; including metallic atoms such as those of computers or gravitational forces used by celestial bodies. So men talk, chips digitalize, animals see, plants 'smell' and masses process gravitational information.
We classify those worlds, according to the volume of temporal energy their linguistic forces carry, in a scale of increasing i-complexity, ruled by the Black Hole paradox : The smallest and faster particles scan with more detail the Universe; so they carry more information and create bigger, faster mental worlds, inhabited by species with more TxE force. Accordingly we consider 4 basic worlds:
- Big, slow atomic quanta create animal olfactory minds that perceive small metric territories inhabited by small animals like ants.
- Smaller, faster electrons create electronic minds that perceive kilometric territories inhabited by bigger animals like human beings.
- Photons create bigger worlds of planetary size perceived by huge machines and chips (the brain of future robots) at global scale (Internet, satellites, etc).
- Gravitational forces of very reduced size create words of galactic size perceived by celestial bodies like Black Holes (minds of the galaxy).
So the Gravitational world is bigger than the light world, bigger than the electronic world, bigger than the molecular world because paradoxically gravitons are faster and smaller than photons, which are faster and smaller than electrons, which are faster and smaller than molecules. So a black hole can perceive an image ‘with more detail’, more ‘pixels’. And since gravitation is faster than light it should ‘change’ the quantic mind’s images it creates faster. On the opposite extreme, plants and olfactory animals perceive molecules, which create images ‘with huge pixels’ that offer little detail and change very slow. Thus we consider that every organic system in the Universe, which processes information and survives efficiently, is a focus of a dual force that carries temporal energy and helps him to act-react externally in a manner that seems to improve the survival of that entity. Each bigger world and faster language increases the TxE force of its species, which become top predators. And indeed, the analysis of the theoretical speed of informative perception in black holes has shown that they are the fastest ‘computing minds’ of the Universe.
So black holes can easily destroy a planet; huge machines kill animal life; human beings kill olfactory ants and insects kill plants. Which means top predators are defined in terms of the power of their linguistic brains.
And so we can talk of a game of Russian dolls, in which each bigger World encloses the smaller one. The gravitational World encloses the light world. And the light world encloses the electronic world, which is bigger than the atomic world of ants.
The formalism of worlds. The generational constant.
We study the lifespan of ‘living species’ and found they were similar. So insects and men live similar subjective times. But cockroaches and humans are very closely related, since they belong to the same electromagnetic world. Do all species, black holes, stars, humans, atoms live the same lives? Obviously not. How can we then analyze the intelligence and brainpower of those other minds if they are not similar to our human mind? As in the case of the analysis of the structure of minds, though we cannot see within the mind of those other species we can consider the external forces they use to scan the Universe and its parameters of energy and information to give probable answers to that question.
Thus each ‘world’ or ecosystem has a different TxE constant of action given by the ‘speed’ and ‘detail’ of the force, which measure therefore the relative intelligence and memory the force carries to the species that perceive through that force, allowing all discontinuous organic systems to interact and communicate within the same world ecosystem, perceiving each other with similar informative organs. So we define a ‘relative world or ecosystem as a sum of quantic beings related by the same force defined by a constant of action ’. So all animals have eyes, and see and interact through visual perception; all men speak and interact through words, all chips use numbers and interact through digital equations. What this means is that different species in a given ecosystem can relate to each other as they interact in similar quantic action -reaction times, given by the minimal quantic unit of the temporal energy they use in their relative world. So in the human ecosystem all species use temporal energy coming from light and in the quantic ecosystem all particles use h-constants.
Nature is quantic: its species can be ordered in social groups and interact among them because its cycles are limited actions of temporal energy, which end up having a similar volume of energy and time. For example, if you chew very slowly in time, then the quantity of energy you process by unit of time diminishes, but the total quantity of the action , the mouthful, remains the same. Obviously, when we change our world or ecosystem, the constant of action changes; but since worlds are discontinuous, with minimal exchange of energy and information among them, species remain fairly isolated in their own worlds and do not become extinct by the stronger species of the bigger world. We hardly interact with stronger black holes and smaller ants. Since a change of ‘force of temporal energy’ causes a discontinuity in the Universe, creating ‘different worlds’.
So each ecosystem is ruled by a constant of action , according to which the product of the energy and the information exchanged in each action of a certain ecosystem or relative discontinuous world is equal for its entire species:
- In the physical, quantic world, particles exchange energy and information through h-action s of temporal energy whose product is ExT=h. So all quantic particles can relate because their actions are the product of its ‘time’ and ‘energy’ always equal to the Planck’s constant, which becomes its minimal ‘energy and information’ quanta. Yet that doesn’t mean all particles have the same TxE force as they can deliver different amounts of h-quanta per unit of time. And so physicists calculate the relative force of each particle according to the inverse laws of time and space. So if the particle is a top predator form, its energy field will be very big and the interval of time it takes to deliver its action very small and vice versa: Max. E x Min. T. A fact that in abstract physics is called the Heisenberg Principle. Accordingly a top predator particle will have evolved its quantic actions, h, maximizing the energy it delivers in minimal time. The same happen between different light waves. A high frequency wave happens in lesser time and has more energy than a long wave: h=Energy x T(period). So it is a stronger wave, which according to Einstein will be able to ‘split’ an atom and extract its electron (Photoelectric effect).
- On the other hand, the atomic world, another different ecosystem, those actions can be calculated with the parameter of Temperature defined by the law of Gases:
P(t) Pressure (an implosive, temporal parameter) x V(E) (speed, a spatial parameter) =nkT.
Thus top predator, hotter molecular gases vibrate faster, have more spatial speed and pressure, delivering ‘stronger’ actions at higher temperatures. Since in the ecosystem of atomic matter, the constant of action is Temperature, also defined as a TxE constant force by the ideal gas equation.
Thus those fundamental physical parameters, the h constant and the temperature of a molecule define the 2 smaller ecosystems or scales of reality, the particle and the atomic world and the TxE force of its particles. In those ecosystems each species interacts with a certain h or temperature power multiplied by S, the quantic sum of many simultaneous particles that perform a social action . And so we define a ‘top predator’ in any ecosystem as the organic system with a higher volume of quantic actions per unit of time. And write for each world an equation that defines the strength of its actions:n (Max. E x Min. T) =nK top predator.
- For example, in the biological world the DNA molecule is the top predator molecule of life because it has millions of atoms, ruled by the atomic clock of its nucleotides, made of Nitrogen atoms that vibrate 1016 times per second. When we grow in scale in the organic ecosystem of life we find that the speed of action -reaction of the nervous system defines mammals as top predators over chemical plants. Since their fast nervous responses of around 100 m/s. made their quantic actions far superior per unit of time to those of plants. Yet among animals those actions are constant for most family of species, since all of them use light to absorb information and interact. And so most big animals have a similar light-perception, as their eyes come from the same genes. While smaller insects with composite eyes have ‘faster’ speeds of action -reaction , but less ‘quantic detail’ in their perception. How then we measure the different top predators within the families of chordates with single eyes and insects with multiple eyes?: In each living phyla the animals that have more quantic cells to deliver their actions (Max. E-bodies) and faster neuronal systems (Max.T) tend to be the top predators. Yet the beauty of the Game of Existence is that, given the fact that the differences of mental power are small variations around those constants of action , there is always a chance of survival and extinction. On the other hand, when we consider the relationships between species of different worlds that balance breaks as the bigger system has an overwhelming power compared to the smaller form. The result is the creation of hierarchical systems, with ‘differentiated social classes’ where the species of the bigger world have total control over the smaller species (the black hole in the galaxy controls the stars; the neurons in the body control the chemical cells, etc.)
Chains of temporal cycles. Symbiosis and predation go together.
The beats of all species, as they absorb and throw back temporal energy, are all chained beats of an interconnected huge organism, the Universe, divided into worlds defined by constants of actions and chains of victims and predators that sometimes form trophic pyramids and sometimes become symbiotic creating smaller organisms, in which the ‘fastest’ temporal beings enslave and control the slower ones. So the faster lion feeds on the slow buffalo, while the fastest neuron controls the chemical cells of your organism, extracting energy from them. An organism, we might say, is a chained system of top predator cells that control herds of tamed chemical cells and an ecosystem is a loose organism in which the top predator ‘cells’ only interact with the slower ones when they feed on them. Biologists are perhaps the scientists better prepared to understand those relationships. Since they have formalized some of those chains between slow and fast cycles that define the hierarchies and organization of a biological organism. For example, the nervous cells act quantically much faster than the chemical cells and so a single nervous cell can control an array of multiple chemical cells , because one of its ultra-fast quantic actions move a big distance that encompasses many chemical cells in the time those cells react. In this manner faster, upper class, informative species control slower middle class cells. In the other extreme a stronger TxE species can create waves of energy and information that extend over multiple cells, and so minute changes on its energy and information parameters affect all those cells, reprogramming them. So a minimal change in the planet’s temperature provokes huge changes in the existence of its living species. If we generalize those chains to enclose all organic systems of the Universe, the main systems of reality acquire a complex, fascinating degree of order and harmony that relates the different cycles of being (its informative, energetic, reproductive, social and generational cycles), as cellular units of the bigger cycles of the macro-organism or ecosystem in which it exists.
According to the Ternary Principle any quantic, cyclical action of any species can be described through its spatial parameter of ‘speed-extension’ and its inverse temporal parameter of repetitive rhythm or ‘frequency’, whose product, ExT=K is a constant of action that defines the existential life-span of the cycle. Yet those actions are the sum of the simultaneous micro-action s of its ‘cellular quanta’, ruled by the black hole law (Min.E=Max.T: smaller beings act faster than bigger ones).
So the questions to solve are: How the faster, smaller, i-1 micro-action s create the slower, big simultaneous actions of the organism? Or in formal terms, what is the relationship between the constants of those macro-action s and the faster parameters of its micro-cellular cyclical actions?
And how each organism relates as an individual quantum to the slower, longer cycles, (Max. E= Min.T), of the i+1, ecosystem in which it performs its actions?
2 facts answer those questions: Chains happen across 3 i±1 levels of existence, what allows to create hierarchical pyramids of unlimited size in time and space, through those ternary structures.
And chains of actions become simultaneous because certain cycles are shorter than others, so the faster speed of micro-cycles is compensated when we chain slow micro-cycles to fast macro-cycles.
Consider the cycle of feeding of a lion. The lion moves through space in certain patterns that displace the lion towards hunting and drinking grounds where he will consume a victim. Thus the energy cycle will be determined both, by the inner organic constants of the ‘i-1 cells’ of the ‘i-lion’, (his cellular metabolism that defines his rhythms of hunger, his muscular speed and his strength that determines the preys of the ecosystem in which he feeds); and by the outer, i+1 ecosystemic parameters, (the spatial distance and ‘informative density’ of preys of the ecosystem). So to define the 2 ExT elements of the lion’s feeding cycles (the spatial trajectory and quantic rhythm of its hunting) we have to know those i±1 parameters. Then we can define totally his feeding cycle. Thus, existential cycles might be very complex but ultimately we can reduce them to a quantic ternary equation product of the Space-time parameters of those 3, i±1 levels. Hence the importance of ternary chains to define Universal events across 3 hierarchical planes of existence, from the chains that happen between the ‘3 social classes’ of an organism , to the physical events that happen in 3 scales of matter , to the 3 levels of humanity (the biological, individual and sociological level). Since all cyclical systems are defined by the relative S-T parameters of those 3 i±1 scales.
For example, in Physics Einstein defined the cycle of gravitational ‘feeding’ of a planet, which moves in the flows of space-time around the star with the S-T parameters of 3 physical scales: the energy and temporal mass of the planet (i), the ST parameters of the solar ecosystem (i+1), and the S-T ‘universal constants’ of vacuum, the smallest gravitational space-time (i-1).
Again Maxwell and Planck defined the temporal frequency and energy cycles of a light photon that absorbs space-time energy and deforms it into a light-wave only with the action constants of 3 scales: the i-1 constants, or magnetic, spatial, and electric, informative constants of vacuum (c=ve0 x m0); the i-constant of light (h) and the quantic, social constants of photons, as part of a bigger social, i+1 wave (E=hv). So we define a basic law of hierarchical systems:
‘The external and internal i±1 constants of action of the macro-ecosystem and the micro-cells of an i-entity determine the ET parameters of its existential cycles’
.
Thus most systems, despite its individual ‘vegetative will’, perform a cellular, cyclical function within the macro ecosystem in which they exist. In the previous example, photons are individual forms that feed on micro-electromagnetic constants creating a reproductive c-wave. Yet most photons could not exist if 2 bigger, i+1 atomic particles had not reproduced them to communicate energy and information. In fact, the macro-organic dual atomic system that emits and absorbs the photon, determines its ET, frequency and energy parameters and its generational life span, given by the distance between those 2 atoms.
Yet, since the life of a quantum is a mere moment in the longer existence of its organism, to create the effect of simultaneity, microcosmic, fast, quantic cells have to chain their longer ‘existential cycles’ to the shorter cycles of a bigger organism or ecosystem in which they will exist as a mere quantic instant of those shorter cycles. As a Hindu proverb says: ‘a blink on the eye of Vishnu, the Universe, is a life of a planet and a drop of sweat of a planet is a life of a human being.’
In terms of existence, it means that the life of a quantum depends on the length of the cycle it performs for the bigger system that controls the quanta through its networks and informative or energetic fields:
The shortest cycle is the informative cycle that absorbs energy particles, transforming them into bits of information, perceived by a sensorial organ or mind. So informative particles are the smallest ones and the ones that live shorter within any organism. For example, a human being consumes a newspaper a day and then it burns its atomic quanta; an eye consumes a photon in a microsecond...
Next comes the feeding, energetic cycle that absorbs bigger energy quanta, transforming those quanta in ‘cellular components’ of a body, once the informative cycles have perceived the food. And so an energy quantum lives a little bit longer than an informative cycle. A pig that feeds a man lives longer than a newspaper and also its ‘final consumption’ takes longer than reading that paper.
Then, it comes the reproductive cycle that handles huge amounts of energy and information to create a being, repetition of a bigger organism. A woman’s ovule stays on her body all her life and it takes 9 months to become a baby…
Finally, the longest cycle is the generational cycle of the being, from its birth to its extinction. So those cells that carry the ‘existential will’ of the being last longer: a man has the same neurons all his life. And so, through that longer generational cycle a new chain starts, now in the next macro-level, the macro-ecosystem or macro-organism in which the being exists with an inverse fate, as a mere quanta of the macro-being. Since he who killed micro-beings to feed and inform himself will be just a micro-being that feeds a bigger world.
It is the social cycle, as the quanta gathers in social groups to perform energetic or informative actions for the bigger macro-organism that lives in a longer scale of time and controls him. For example, if you are a soldier, your national organism will sacrifice you in an energetic cycle when the nation conquers and ‘feeds on’ the wealth of other nation…
So we establish a basic existential chain between the TE cycles of those 3 different scales:
(Informative>Energy cycle)i-1>(Reproductive cycle)i>(Generational-Social cycle)i+1
- Since the existential cycles of i-1 particles are the energy and information cycles of the i-being.
- While the reproductive cycle happens in the same i-level of the organic system with a couple.
- And finally, the generational cycle of the being becomes, as a part of a social herd made of similar individuals, a submissive energy or information cycle of a macro-organic system, i+1.
Thus any organic system is a sum of 3±1 types of cycles, chained in hierarchical structures across 3 levels of complexity. The existence of any quantic being happens in those 3 TE planes within any organic system or ecosystem, in which he is a relative energy of bigger being, an equal, social being to its pairs and the informative master of smaller quanta. We formalize those ternary functions as Quantic Spaces-Times sub-equations, to which we ad the hierarchical, informative index, i:
- neti-1>Ti: The being is a dominant macro-point of time, Ti, which absorbs a flow of temporal energy from a herd of micro-quanta (eti-1) that it controls with its physiological networks. So your cells are controlled by your blood and nervous systems.
- n ExTi: It is an individual quantum that relates to similar cells, in an environment in which it searches with similar couples for its main existential will: its generational reproduction. Thus i is the fundamental plane of existence of any being, the region in which it perceives more, and plays its most satisfactory cycles of existence.
- Ei>0i+1: The point performs an energy function for a bigger social plane. For example, the govern controls you as a social micro-quanta of a nation, which makes you die in wars or takes your energy through taxes.
From that 3-planar order that structures the existence of any particle or cycle of existence (static or dynamic perception), it arises the Relativity of existence, as any being is king of its territorial hill, friend of its friends and slave of the World or ecosystem in which it exists.
It is an order we find in all planes of existence, including the physical Universe. For example, in Biology, an i-mitochondrion uses i-1 protons to deliver energy to the bigger organic i+1 blood networks in the form of ATP. So the atomic, cellular and organic scales define the energy cycle of cellular breathing. While a star turns in cycles with other stars, feeds the galactic black hole as a quantum and feeds itself in quantic stellar gas. A light ray feeds on electric and magnetic constants, gathers socially with photons and it is absorbed by a bigger electron, etc.
In a dynamic, temporal way, we can also consider how the relative frequency of those cycles or ‘time clocks’ chain the long cycles of fast micro-entities to the short cycles of slow macro-entity, creating an harmonic order between the different planes and social classes of the organic Universe. Since an informative cycle is faster than an energy cycle, which is faster than a reproductive cycle, which is faster than the complete generational cycle of the being; while a macro being is slower than a micro-being, we write 2 basic chains between those cycles and beings:
SSInformative cycles of microquanta=S energy cycles of quanta=Reproductive cycle of macrobeing
SS generational cycles of microbeings =n Social cycles of Beings ->E/T cycle of macrobeing
From where we deduce 3 chains between the fastest cycles of macro-beings and the slowest cycles of micro-beings that create simultaneous, symbiotic, quantic actions along 2 planes of existence:
Informative frequency of the macro being => Energy frequency of the micro cell
Thus the fast, informative cycle of the slow macro-being is transformed into the slow energy cycle of the fast cellular micro-being, in a symbiotic chain that make it dependent on that macro-being.
For example, the fastest Earth’s cycle is its informative, cyclical rotation as a mass vortex that determines the day-night cycle of light, which feeds its living beings. So, the living i-1 cells of Gaia, its plants, feed with the day light, while animals have a ±1=n3 energy cycle of 1 to 3 meals a day. So both time to the informative light-day cycle of the Earth, their energy cycle. If we lower the scale of analysis, the same cyclical chain happens between the animal and its i-1 cells. Mammals have a rate of informative perception of a second, the rate of blinking and thought. But a second is also the rate of breathing and the heart’s beating that transfers energy to its i-1 cells, becoming thus the energy rate of feeding of those cells.
If we consider the chain between the next, longer 2 cycles, the energy and reproductive cycle, a homologous relationship chains symbiotically microcosms and macrocosms:
Energy frequency of the macro being=> Reproductive Frequency of the micro cell
By homology with other organic systems, we consider that the energy cycle of the Earth lasts the year it takes to cross its space-time territory, its orbit. For example, the energy cycle of an animal is a day. Yet the size of its hunting territory is also the space it can reach within a day. Therefore, as in the case of an animal, the main energy cycle of the planet is the year-time it takes to sweep its solar orbit, the ‘organic territory of the planet’, where the Earth absorbs its gravitational energy, deforming space-time according to Einstein’s equation. While the secondary Earth’s energy cycle is a months in which its satellite, the moon, sweeps around the Earth’s orbital territory. We obtain thus, the 2 main cycles of transformation of gravitational energy into by the Earth-Moon system: the lunar cycle and the annual cycle. And those 2 cycles are also the reproductive cycles of most animals. Thus in the human being the menstrual cycle is a lunar cycle. Whereas the cycle of reproduction of a child lasts 9 months. While in nature almost all reproductive cycles have an annual frequency, happening in spring or summer, when the sun’s light absorption is maximal. Which is the obvious reason why those cycles are linked: while the macroscopic being absorbs energy, it allows its cells to use that energy to reproduce. Again, if we lower our scale, an animal as a macro being has a cycle of energy of a day. That period is also the cycle of reproduction of most cells, called mitosis. Yet reproduction is discontinuous as it only happens when the ‘optimal energy and information’ is available during a small interval of the total existence of the being, in general in the second, mature age of balance between energy and information.
It seems, hence that the micro-being is fed and reproduced by the macro-organism, the good god of its existence. Yet ‘the good god’ is actually a farmer that reverses its arrow of order for an arrow of entropy and destruction when it uses the ‘existential cycle’ of the micro-being as a mere quantum of its macro-organism. So we feed and reproduce pigs but end up eating them. In a sense, we can say that all organisms are ‘farms’. So pigs feed men; stars fed by the interstellar gas attracted by the black hole’s gravitational power, also end up feeding the black hole; and fat cells fed by the organism end up killed, feeding the macro-organism. So in that inverse, final cyclical chain between the microscopic and macroscopic being, the ‘relative God’ takes all what he gave. Thus there is an inverse, final chain between the generational cycle of a micro-organism and an inner, energetic, informative or reproductive cycle of a macro-being. Thus, if we consider the generational cycle of the macro-being we complete the previous chain:
Generational frequency of micro cell => Reproductive frequency of macro being
For example, most cells of the body live and die in an interval between a month and a year. Which is the period most animals need to complete their reproduction. At cellular level, carbohydrate molecules live and die in short daily cycles, which is the period of reproduction of cells. The relationship between both cycles is again organic: reproduction means the renewal of a macroscopic being that destroys and creates many of its quantic elements, as energy or information of the reproductive TxE combined cycle. So cells accumulate carbohydrate molecules that they use in their reproductive processes, destroying and reconstructing its DNA genes with them.
Depending on the role an i-i quantum performs in the macro system, its life will be longer or shorter. Wheat is harvested to feed annually the human ecosystem, while carbohydrates die every day to reproduce DNA molecules. Yet a top predator informative cell, a neuron, lives the entire life of the organism, since it defines the informative networks that dominate and form the will and consciousness of the organism as a whole macro-beings. And inversely, the life span of the ‘brain quanta’ defines the life span of the macro-organism. So probably the enormous life span of quarks, the fundamental particle and brain of the quantic atoms of the Universe , defines also the life-span of the Universe. Since the study in detail of all those chains for all Universal species is beyond the Quantic Spaces-Times of this book, we will only consider some examples from the 3 main disciplines of science:
- In the physical world we study the temporal chains between the 3 i±1 scales of existence of light (gravitation, light and atoms) and the 3±1 scales that create the Universe itself .
- In Biology we study the chains between the 3±1 scales that cause life evolution: the i-1 genetic cycles, the i-life cycles and the i+1 ecosystemic, geological cycles of the Earth.
- In History we study the chains between the life of civilizations and the human generational cycle.
The orbital, energetic cycles of the Earth-Moon system are parallel to the cycles of reproduction of its i-1 living quanta.