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How Does Individual Life 'you' Populate This Universe?

Life Individuality Instantiation evolution

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#35 fahrquad

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Posted 15 June 2019 - 04:07 PM

Blimey! I had no idea spambots were so sophisticated nowadays. This one is able, brilliantly, to simulate the obsessions and solipsism of the internet crank.  :winknudge:

 

Maybe this is how SkyNet gets started?


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#36 tonylang

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Posted 07 August 2019 - 10:51 AM

Dark Matter Comes To The Standard Model;

The LINE hypothesis suggests that space in this universe is defined by a three-dimensional scaffolding of Planck holes (PH) that are interconnected and separated by spatial entanglement channels. With a sufficiently high infusion of localized information as energy, this space and particles therein may be contorted, amalgamated and splintered off to form matter particles of all types. These particles populate the well-known catalog of particles known as the standard model but also inform manifestations of other fundamental particles currently only hinted at and yet others remain unbeknownst. The most fundamental amalgamation of PH regimes that form matter particles known or unknown involves the splintering off of a single minimal PH regime which consists of one entanglement channel terminated at each of two ends by a single PH to form a strand otherwise known as a string. The PH at each end of a separated strand is thereafter called a transmission conduit (TC).


One or more strands or mesh, once separated from the fabric of space, will describe a particle informed by the specific local conditions which precipitated its separation. For example, a strand may have sufficient energy to dilate both of its TC’s sufficiently to fully absorb the entanglement channel which separates them. Thereby producing a particle having no spatial separation, no distance between its TC, no size, hence produces a point particle. On such occasions when both TC’s also become opposing overlapping and outward-facing conduits, (make two adjoining fists with thumbs extended and each pointing in the opposite direction), the particle becomes emissive and radiate phase-shifted information into this space-time in the form of entangled packets called photons. The well-known point particle produced on such an occasion is called the electron. 


Each TC of an electron perpetually emits information in the form of entangled photons. Photons are emitted in opposing directions and phase and thereby manifest two types of fields known as electric and magnetic. Each photon pair attracts the other and may travel through space-time as electromagnetic waves in the eternal dance of the photons. Photons emitted by electrons circumstantially also enable all manner of bonds between baryonic particles.  This opposing TC configuration of the electron gives the electron a more stable demeanor, like two rockets strapped together but with thrust directed in opposite directions. Hence, the electron may spin but comparatively tends not to go very far or very fast. Consequently, and most importantly for reality, as we know it, the electron can, therefore, be stabilized to form atoms.


Alternatively, a severed strand may follow most of the electrons prescription except, instead of its TC becoming opposing overlapping outward-facing conduits they may be oriented in the same outward-facing direction (make two adjoining fists with thumbs extended and each pointing in the same direction) this configuration produces another well-known point particle called the neutrino. Within the neutrino, the complementary outward-facing TC configuration makes the neutrino all go and no stay. The neutrino is akin to two rockets tied together but having their thrust vectored in the same direction. Hence the neutrino is a fleeting highly transient point charge that showers space-time from any sufficiently energetic and emissive source.


The PH at the core of every pyrine within baryonic particles is not actually a part of the particle but composes the fabric of space. This abstraction allows the particle the mobility to move through space by transitioning from one PH regime to another. The rest mass of baryonic particles is defined by the accumulated information channel around this transient core PH regime.  Other more massive versions of the hadronic point particles are formed similarly but with a different information accumulation forming a more massive pyrine. Such particles include the Muon and the Tau variants.


 The force-carrying particles exist as pure information states which do not consist of strands of separated TC. These information packets may originate from the mass defining circulating information channel accumulated around the PH which sequesters dark matter particles to form pyrine, or alternatively, may emerge from the underlying metaverse. The Gluon is a strong binding interaction between neighboring information channels. The W and Z bosons, like the jets from a diminutive overfeeding black hole due to insufficient PH bandwidth, are packets of information ejected from the channels of accumulated information within the pyrine.


 Photons, on the other hand, are an original inflow of information into this universe from the metaverse and constitute an information gain to the universal information budget of this space-time. Gravitation, in all cases, is the outflow of information into the metaverse via the dilated PH or TC and constitutes an information loss to the universal information budget of this space-time. Since each of these transitions or teleportation’s of information is universally conserved, no fundamental laws of nature are broken. The photon, gluon and W and Z bosons all have gauge symmetry because they are not structured amalgams of PH strands which give the other particles dimensionality and rest mass via the pyrine. Gauge bosons exist only as unstructured information and therefore travel at the current maximum universal rendering rate, the speed of light.


However, dark matter is a strange animal which possesses none of the information trapping features of other strand based particles, and yet harbors a much greater indigenous gravitational outflow. This is unlike baryonic particles which acquire their gravitation via the sequestration of dark matter particles.  A debytonic particle of dark matter is a negatively hyper-dilated strand and is a point particle like the electron or neutrino but hosts no pyrine structure thereby possesses none of those DOF and yet establishes enhanced gravitation. The LINE hypothesis suggests that the cause of this unique debytonic behavior of dark matter is due to a DOF that dark matter coherently shares with the metaverse via its very own undiscovered particle. This shared metaverse DOF is called; metamatter. This behavior grants dark matter the capacity to dilate the PH to create the tangible physical structure that manifests viable habitats for life and the living forms they host in this space-time and also to instantiate emerged individuality (you) via the entanglement molecule (EM) wherever viable host forms may arise in this universe.


The emerged information channels produced by the PH regime of a strand or a mesh of strands produce the color charge of Quarks. The triad of emerged information nodes called quarks is a projection into the subatomic scale of a composition of PH strands that define a particulate PH regime which exists at the Planck scale. Each quark is defined by two TC’s and their combined degrees-of-freedom (DOF) of in or out information flow combinations known as colors. The information hot spots within baryonic matter known as quarks are not separate entities but are projections of an underlying PH regime and are akin to a three-pronged household electrical socket into the underlying PH regime and cannot be permanently separated. 


Furthermore, these PH regimes are congealed into a mesh of three end-to-end strands possessing insufficient energy to further dilate the TC at the end of each strand and are thereby unable to absorb the spatial entanglement channel which separates them. This state, for which we are eternally grateful, produces the persistent separation between the emerged TC nodes that form this pivotally important structure, thereby forming the familiar triad of quarks that give baryonic particles dimensionality, ergo; size. This persistent separation bestows upon the emerged particle (protons and neutrons) a DOF of dimensionality called size, or the lack thereof, and is among the most important manifestations of reality in this universe. This relationship reveals the basis for the distinction between dimensionality (size) and substance (mass). An entity may possess any amount of mass and yet possess no size in this space-time (i.e. a point particle) and vice-versa, informed only by the spatial entanglement channel which separates its quarks.


Each quark in this universe is defined by a combination of two TC, each from one end of two adjoining strands of the triad of strands which compose hadronic matter. There are six known types of quarks; Up, Down, Top, Bottom, Strange, and Charmed. However, the LINE hypothesis suggests that each quark is defined by two possible TC information flow orientations in combinations of; (in, out or null). The combinations of these information transitions yield eight possible effective flow orientations for each quark: 

Up (in-in), Down (out-out), Top (in-out), Bottom (out-in), Strange (in-null), Charmed (null-in), ? (out-null), ? (null-out). BG (null-null)

The null-null TC flow combination is the background (BG) state which describes a minimal, no-flow transmission mode. This BG state defines the ambient non-quark regions surrounding the three effective-transmission nodes known as quarks within particles such as the proton and neutron. The remaining eight effective transmission states each possess at least one effective TC flow state of either (in) or (out). Of these eight, there are six widely known standard-model quarks that produce all of the hadronic matter in this universe. These six are readily apparent because each is defined by TC pairs which include, or are always accompanied within the triad by, at least one inflow TC state. That defining inflow channel of information exists within each baryonic combination of the six known quarks, and most influentially within the Up-quark, and delivers all of the baryonic information that defines normal matter and connects the underlying PH regimes to the macro-world we may experience. 


Further, notice that there are two other TC information flow orientations remaining; (out-null) and (null-out). These two states also define quarks, for nature waists nothing. These undiscovered quarks are defined by TC pairs which include only information outflow channels and thereby constitute purely gravitational channels and render these quarks very difficult to detect. These purely gravitational quarks unknown to the standard model define the much sought after, purely gravitational particle, widely known as dark matter. This new particle is called the Debyton.  Consequently, the LINE hypothesis suggests that there are in fact eight flavors of quarks; these two missing quarks bring the elusive dark matter and its anti-particle into the standard model to include the proton, the neutron, and the debyton. The debytonic quarks attempt to configure as other quarks do into a triad but consume the spatial entanglement channels that separate them to collapse the triad into a point particle having all six TC in the outflow (gravitating) orientation. Hence, the debyton becomes the hyper-dilated gravitating particle that is dark matter. The debyton is the missing fundamental particle which dominates every aspect of reality in this space-time.  


Edited by tonylang, 07 August 2019 - 04:57 PM.


#37 tonylang

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Posted 20 November 2019 - 09:03 AM

A secret only Tabby’s star can tell;

 

The LINE hypothesis suggests that Ember Black Holes (EBH) are the remains of Isolated Super Massive Primordial (ISMP) black holes that have undergone all or most of a universe’s expansion and contraction cycles. With each contraction cycle of a verse, all black holes therein contract as they emit a proportional amount of Hawking radiation. By this process, ISMP becomes EBH black holes. EBH, therefore, carries the information which reveals a verse's true age. So, how can an EBH be found? Since EBH are as small as a black hole can get by any natural means and is, by definition, isolated for most of its existence, one could be forgiven for expecting it to be a significant challenge to find EBH in a circumstance conducive to extracting this valuable data. However, in nature, with proper consideration, the possible becomes practical.

 

 

Consider that the mass of EBH’s may range from the very massive to being sub-planetary in size. Within this envelope, one crucial factor for the detection of EBH is the observers’ technological capability. For humans, in the year 2019 A.D., planet-sized EBH is the best fit for current human technological capability and accuracy in determining the age of this universe. This viable approach is to search for EBH’s which, after surviving countless universal contraction cycles spanning epochs of deep universal time, have been captured by a star’s gravitation and now orbits its host star as a typical planet does. These are solar EBH. In this approach, we may use a suite of exo-planetary detection technology and methods to study and mine the desired data. So, what to look for?

 

 

What distinguishing features would a solar EBH captured at a stable distance from its host star reveal? In this endeavor, both the transit and wobble methods of planet detection remain options for the study of solar bound EBH. Solar EBH’s will display many of the features of a planet orbiting its star with one revealing exception. All EBH will lens light in a manner distinguished from a normal planet of any given size. In place of the normal atmospheric effect upon light displayed by some planets, instead, an EBH will offer a dynamic gradient of light distorting gravitational lensing effects as any black hole would.  The innermost border of this lensing PH regime marks the boundary called the event horizon (EH). Near the EH the lensing distortions of light succumb to the gravitational well of the EBH which captures light in an invisible orbital sphere just outside of the EH. This is the wall of fire (WOF). The WOF is not directly observable and is a feature of all black holes, including the light feeding solar EBH. The WOF is the orbital wall of information created where the path of affected photons is curved by its gravitation into a closed orbit around the EBH. Within the WOF, photons temporarily neither fall into the event horizon nor escapes the gravitation of the black hole but are in a temporary orbit above the EH. Hence, as a satellite orbits its planet, light orbits the EBH. Because light is captured within the WOF, it will never be detected unless such light can somehow be perturbed into escaping its covert path around the EBH.

 

 

As a satellite may be knocked from its orbit by external effects, so to can the light captured within this unusual orbit. Similar perturbations of the WOF can be produced by very few influences. Gravitational gradients are perhaps the only influences that can affect the WOF. As planets and other gravitating bodies tug on the Earth and moon and as the Moon gravitates the Earth, EBH in orbit within an otherwise typical planetary solar system will participate in similar influences in due course. However, within the delicate balance that is the WOF, even a relatively minor gravitational imbalance may give light captured in the WOF just the right escape conditions needed to liberate information from this dark path. This lensing and emission of energy can occur constantly and sporadically around the sphere of the WOF informed by the local solar environment. Make no mistake, such emissions are not the liberation of information from within the black holes’ event horizon, since the WOF is not within the event horizon but is just outside of it. The difference being, information within the EH will forever remain beyond the influence of any external effect. Whereas, information within the WOF which is outside of the EH, may succumb to adequate external gravitational stimuli. The distinguishing light signature of a solar EBH that is properly aligned with its observer, will appear periodically during transits as it orbits its host star.  A solar EBH, like a planet, is continuously bathed in the solar energy of its host star. The light signature of a solar EBH will be observed as a periodic but erratic and arbitrarily extreme light signature in place of what should be a diminutive, predictable, normal planetary transit signature.

 

 

Unlike a normal satellite that can be knocked, boosted or thrown out of its orbit, and with the speed of light being constant on human planetary time scales, how then could captured light be similarly liberated from the WOF? The speed of light will remain the same for the duration of any foreseeable observation, therefore, it is only via the gravitational tidal effect of the solar environment that will alter the gravity well of the EBH. Not by altering the escape velocity of light but rather by high tide, if you will. The gravitational tidal effect in one location on the WOF will produce a low tide on some other location of the WOF. It is these gravitational tidal differentials that will permit the liberation of information previously captured around the EH. Low tide is in effect a reduction in gravitation which will act as a hole or opening through which a proportional amount of information possessing sufficient escape velocity may escape from the otherwise impenetrable gravity well that is the WOF.  The profile of such releases can be quite tumultuous yet possess a certain periodicity indicative of planetary solar orbits. Tabby’s star is one such profile. The LINE hypothesis suggests that most of the observed perturbations in starlight intensity seen in Tabby’s star may be due to a combination of gravity lensing and photon capture and release within the WOF of an orbiting solar EBH under the influence of the local gravityscape in that solar system.

 



#38 tonylang

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Posted 24 November 2019 - 12:13 PM

Further, the LINE hypothesis suggests that the presence of solar EBH anywhere in one's universe is the sole indicator that this universe is a cyclic universe older than one universal transition event (big bang). The presence of EBH requires many cycles of universal contractions to contract an ISMP black hole to this diminutive mass. Solar EBH formation is not possible by any other natural means within the time span of only a single universal transition phase. To further refine the known age of one’s universe to its true age we must look into the light released from the wall of fire (WOF) of a gravitationally perturbed solar EBH such as the one orbiting Tabby’s star. The WOF is the invisible closed region of space-time adjacent to and outside of the EH which traps photons within a spherical orbit. Consider the perspective of a single photon trapped within the WOF. From the photon's perspective, it is traveling through space-time normally. The fact that the space-time of the WOF is a closed orbit around a maximally dilated PH regime of a black hole is inconsequential. Photons will travel for eons of deep universal time within the WOF oblivious to their circumstance even as the ISMP contracts into an EBH.

 

 

Photons that have managed to remain within the WOF of an ISMP black hole for the entire duration since the universal instantiation event are called primordial photons (PPH). PPH’s are photons that, by chance, have never had the occasion to escape the dark treadmill of space and time that defines the WOF of its black hole. As an ISMP black hole experiences each of the universal contraction cycles, it liberates a proportional amount of information as Hawking radiation. Moreover, due to its isolation, it all the while remains significantly unchanged for each universal expansion. By this mechanism, the mass of an ISMP black hole diminishes as does its footprint and sphere of influence in space-time. In so doing, the space-time of the WOF in which PPH relentlessly orbits the EBH also contracts. For PPH this contraction of WOF space is no different from the contraction or expansion of normal space, each will produce a proportional Doppler shift in the PPH degrees of freedom. The LINE hypothesis suggests that the contraction of all EBH is informed by the universal information budget, and produces PPH that is proportionally blue-shifted in a manner equivalent to the manner in which the current universal expansion of normal space produces a proportional red-shift of light.

 

 

Consequently, EBH are like time capsules for light. As emissions from a solar EBH are released by local gravitational tidal differentials, such releases contain a mix of photons from every stage of an ISMP’s existence, including the valuable PPH. The telltale degrees of freedom of PPH imbued with the long history of the ISMP’s evolution into an EBH is told by emissions of the most heavily blue-shifted PPH compacted within the WOF. The proper measurement of the degrees of freedom of EBH from the otherwise mysterious emissions of stars like Tabby’s star ascribes the litany of time that reveals the true age of this universe.

 



#39 tonylang

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Posted 18 January 2020 - 07:03 AM

The Blooming Of The Galaxies;

 

The distinguished astronomer Vera Rubin was the first on Earth to discover the non-Einsteinian galactic sigma. The galactic sigma is the non-Newtonian relationship between the orbital velocities of stars at the outer edges of galaxies and those deeper within.  Since Vera’s seminal discoveries and the subsequent discovery by others of supermassive black holes at the center of galaxies, a great debate has ensued. How to account for this strange discrepancy in what should be resolved physics. How does the central black hole fit in? The answers to these questions lie in understanding how galaxies form through the prism of the LINE hypothesis.

 

 

The LINE hypothesis suggests that it is only during phases of universal contraction that black holes liberate information as Hawking radiation. The final emissions of Hawking radiation released by surviving black holes in the latter stages of each universal transition event (UTE) mark the blooming stage of surviving black holes to become transitional primordial structures called galaxoids. The UTE phase compresses all particles into a free information state. Any free information not bound within the event horizon of surviving black holes degenerates back into the original information state of the SoS (solution of state) from which all information in this universe originated. Even the Planck Holes (PH) that normally define the scaffolding of normal space succumbs to this degeneracy. In addition to the free SoS, this compacting leaves only a background substrate consisting of the spatial entanglement channels which normally separates and binds together the PH in normal space. During the UTE, space as we know it is no longer normal as it degenerates into a very high rendering, extremely low latency information teleportation mode. In this mode, the barrier of space that normally separates the verses is stirred into the SoS carried by spatial entanglement channels.

 

 

A UTE produces an inflationary phase which approaches but is not identical to the original inflation phase of the universal instantiation event (UIE). Today both of these very different and pivotal phases of universal instantiation and transition are referred to as big bangs. This is because they are incorrectly thought to be one and the same. Each UTE phase initiates a new expansion phase when the vast amount of information liberated as Hawking radiation from all black holes within a contracting universe is compressed to a critical density, temperature, and state. This rebound is the hyper luminal inflation of the information liberated from all black holes during the entire contraction phase as black holes establish equilibrium per the surrounding universal information budget. During each UTE, some, but not all of the universal degrees of freedom (DOF) known as ‘constants’ which will inform the next universal expansion and reality, are uniquely initialized thereby probabilistically informing a unique evolution of information in the burgeoning universe. Black holes that do not completely dissipate are the only structures that may survive the UTE.

 

 

The primordial phase immediately following the universal instantiation event (UIE) called inflation, was first hypothesized by Alan Guth. The UIE and UTE inflation phases both imbue a certain homogeny to affected information within the new verse. However, only the UTE has the opportunity to inflate the information trapped within the WOF of black holes. This inflation is informed by the universal information budget. Consequently, a new universal expansion phase ensues. In the UTE this early inflationary phase grows or blooms the information released as Hawking radiation around every black hole into a dispersed homogenous (in substance and in kinetics) sphere of gas which in time evolve to become nebulae, stars and all manifestations thereof in galaxies. Because the atoms in this transitional sphere of gas did not migrate to their positions by Newtonian physics but by rapid inflation, the stars and other cosmological manifestations that emerge from these constituents also will not be observed to strictly adhere to Newtonian dynamics. 

 

 

The blooming of black holes into new galaxoids, occurs during UTE inflation. UTE inflation occurs as a consequence of the severe contraction of space-time. This contraction destroys complexity universally at all scales and initiates a universal phase transition. Consequently, as a CPU’s rendering rate increases with the shutdown of all active complex processes therein, likewise, by destroying complexity, the UTE initiates a rebound of the decreasing universal rendering rate and with it an increase in the maximum universal speed limit. Additionally, upon this phase transition state, the spatial entanglement channels which normally bind the PH in normal space become dominant during the UTE. This degenerate state of space permits information to travel within this unfamiliar medium at a non-deterministically high velocity that is much greater than the familiar speed of light.

 

 

During each UTE, Hawking radiation accumulates around each surviving black hole. This accumulation forms the shell of information formerly described in normal space as the black hole’s wall of fire (WOF). During the inflationary phase of the UTE, the WOF shell around each surviving black hole also inflates. This WOF inflation produces a far more defused sphere of information around each black hole called the WOF halo. This inflated information bloom gravitationally encompasses each primordial transitional black hole. Together these manifestations compose a galaxoid. Galaxoids are the primordial seeds that evolve to become galaxies. Galaxies cannot gravitationally aggregate in normal space as planets and solar systems do. Galaxies evolve from galaxoids that are superluminally inflated during each universal transition event.

 

 

Like the free information that fills the new universe, the WOF halo is the material that, in time, condenses into particles and atoms around central black holes.  These particles eventually gravitationally collapse to become stars and all of the manifestations which form galaxies, which may thereafter be circumstantially held together by dark matter. Hence, there can be expected to be a remnant of the blooming black hole remaining at the center of a typical galaxy. By transitional inflation during each UTE, the uniformity, distribution, and velocity of stars and other matter at the galactic edge become unexpectedly correlated with matter deeper within. So too is the uniformity, trajectory, and velocities of structures throughout the cosmos writ large informed by the initial inflation at the UIE and with each subsequent UTE inflation.

 

 

The LINE hypothesis suggests that transitional black holes bloom into galaxoids during the inflationary phase of the UTE. This is the process that forges the otherwise mysterious relationship between a galaxy and its central black hole. The Hawking emissions from black holes during all stages of universal contraction and particularly during the final stages of each UTE causes a verse’s inflationary rebound. This inflation disperses information at the then maximum universal rendering rate, a velocity faster than light as we know it. This circumstantially cyclic inflation accounts for the initial homogenous distribution of matter in galaxies. Moreover, the UIE, which sparked the initial, much different, universal inflation widely known as the big bang similarly accounts for this universe’s initial homogenous microwave background and distribution of galaxies.

 

 

So how can an ISMP black hole remain isolated through numerous UTE? Doesn’t a UTE cause black holes to become galaxoids with a WOF halo? Yes, but not all WOF halos are equal or substantial. It is important to remember that within the UTE, space as we know it does not exist and neither does distance or size. Black holes within the UTE is nothing like black holes in normal space. So, picturing black holes as regular black holes all bunched together is a completely false representation of the UTE state. Suffice it to say that the laws of conservation of information are maintained through each UTE. Hence, once the PH and space reconstitute after inflation and the next expansion phase ensues, black holes may maintain their prior information content within their enclosed regime and near the event horizon. Therefore, transitional black holes may not all become viable galaxoids. Many black holes may continue in their isolation in the new universe. A subset of these will maintain their significant isolation through each UTE to the present. While the majority bloom into galaxies that hosts life, these relatively few become the tell tale ember black holes (EBH).


Edited by tonylang, 18 January 2020 - 07:15 AM.




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