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New Theories / Re: Is life in this Universe a one-off occurrence?
« on: 02/08/2018 20:25:46 »
To better understand dark matter; conceptually remove from the Earth or any living planet, its total biomass consisting of every living cell within that ecosystem. Then virtually have that biomass suspended as a separate body adjacent to the Earth. Now virtually remove from the barren Earth a second body, this time consisting only of an amount of purely inanimate matter exactly equal in mass to the biomass body. We now have three masses all mutually at rest and suspended in space, one consisting only of living entities, the second mass consisting only of an amount of inanimate matter exactly equivalent to the first, and thirdly we have what’s left of the Earth after both subtractions.
The LINE hypothesis suggests that if we were to now separately calculate, with appropriate accuracy and resolution, both the Newtonian and Einsteinian gravitational effect for each of the two subtracted masses, the inanimate, and the biomass, each calculation will yield a result measurably different from the actual measured gravitational influence of the biomass. That is, the biomass is hypothesized to produce a measurably greater actual gravitational influence than its equivalent in purely inanimate matter, and its Einsteinian calculated values. This extra gravitation possessed by the biomass is the LINE gravitation (LG or GL). In living entities the LG is hypothesized to be due to the increased information drain into the metaverse which is not accounted for in either Newton’s or in Einstein’s formulations. This information drain occurs via the increased bandwidth of the dilated Planck holes (PH) which establishes the position of view (POV), the natural teleportation channel within every living cell. This is a natural property of the cells’ instantiated entanglement molecules (EM) which instantiates each living being contained within the biomass.
It is this increased information drain that will also deflect a passing light beam to a measurably greater extent as it passes near the living biomass, or near the Earth, or near any living planet. In short, a planet with life, all factors being equal, will bend light more than a planet without life. This is because the entanglement molecule, like DNA and many other complex molecules, does not function or may not even remain intact in inanimate matter. Yet, in living matter, the entanglement molecule in each living cell dilates the PH and gravitates to a greater extent than do other molecules. With the appropriate resolution, the density of life on distant planets could be determined by this metric. Of course, this is a very delicate measurement to undertake, as planets such as Earth are much smaller than stars and the differential in gravitational influence, LG, specifically caused by the information drain via the POV of its biomass is even smaller. The Moon may be an obvious candidate for an experimental platform for such a test. A nearby cosmic body with no life, this is half the requirement. The trick is finding a clever way to implement the second requirement of the test, to measure the Moon with sufficient living matter on it to make a contrasting gravitational measurement. However, since we are able today to measure the diminutive gravitational waves of distant sources, I have no doubt that this measurement can be performed successfully.
Let us now venture to perform this same conceptual scenario on the Milkyway galaxy; First separate the Milkyway’s total mass of inanimate matter into one spherical body, sufficiently diffuse so as not to collapse into a huge black hole. Now separate into another sphere the known living biomass of the Milkyway galaxy that would be the same biomass as the previous scenario, Earth’s biomass being the only known life that exists. Next, separate into a third sphere a mass equal to the total measured gravitation necessary to keep the Milkyway intact and rotating with its current observed galactic sigma. This third sphere is of a mass sufficient to exactly account for the Milkyways’ extra gravitation, ergo; its’ dark matter. Dark matter is hypothesized to express gravitation but no other aspect of baryonic matter including mass. This would be an inexplicable behavior absent the LINE hypothesis. The sphere of dark matter has a gravitational constant (GD) at present assumed to be equal to the Newtonian gravitational constant (G). This is a necessary placeholder assumption required until dark matter is actually detected and its actual gravitation per unit dark matter particle measured. The eventual value of GD is of little importance to this scenario. The LINE hypothesis suggests that the eventual dark matter gravitation, whatever it turns out to be, is proportional to the extra gravitation of the biomass (GL), even if that value is different from the Newtonian value (G). That is, the extra gravitation hypothesized to exist in living entities is the same extra gravitation measured in galaxies. This prediction infers that the gravitational influence of dark matter (GD) can be measured in any living biomass, like Earths biomass, which is expected to excessively bend a passing beam of light. So, how does this work?
The LINE hypothesis agrees that Dark Matter is an undiscovered particle with subtle degrees of freedom in this space-time and suggests that these degrees of freedom also dilate local PH, to produce gravitation but by a mechanism not present in normal matter. Dark matter particles which act to negatively dilate PH are the most fundamental conveyors of gravitation in this space-time and thereby constitute the particle which manifests gravitation in all forms of matter. As such, dark matter is hypothesized to be the active ingredient in the entanglement molecule. The atomic structure of the entanglement molecule, once formed in viable hosts, captures, and for a lifetime, retains an excess of dark matter particles, not unlike the way atomic isotopes capture and hold electrons, except dark matter particles brings additional gravitation but virtually no additional rest mass. This combination of unlikely partners increases the bandwidth of PH in the vicinity of the entanglement molecule. This extra PH dilation is the superpower, if you will, of the entanglement molecule which establishes the position of view (POV) at unique degrees of freedom of the entanglement spectrum (QEF) in every living entity. This added gravitation occurs by the instantiated entanglement molecule’s sequestration of an excess of dark matter particles which adds an amount of extra gravitation to the collective biomasses total gravitation. Without dark matter, there would be no galaxies as we know them in this universe but also there would be no life as we know it. Dark matter is famously difficult to detect in the environment. Upon the isolation and identification of the entanglement cell and entanglement molecule, we would be significantly closer to identifying and understanding this elusive ingredient in the instantiation of the living individual.
These scenarios each shed light on Vera Rubin’s discovery of unrecounted galactic rotation or sigma currently ascribed to dark matter because PH dilation accounts for each. The LINE hypothesis suggests that dark matter continues to be the undetected phenomenon which dilates the PH regime encompassing entire galaxies and groups thereof which accounts for the unexpected galactic sigma. The measurement of Earth’s predicted planetary gravitational LG differential is hypothesized to be proportional to this galactic sigma, as the galactic sigma was expected to be proportional to Newtons’ gravitational constant (G), but isn’t. This is also the case for occurrences of gravity lensing, due to the prediction that each is caused by accumulated PH dilation, ergo gravitation by dark matter. Vera’s extra gravitation is active in the gravitation of living ecosystems in a common degree of freedom shared by both the entanglement molecule and dark matter. Hence dark matter isn’t merely a source of extra gravitation; it is the particle that conveys all gravitation even to normal matter. This prediction infers that the Newtonian gravitational constant (G) is not a universal constant but is proportional to the number of sequestered dark matter particles within baryonic matter. Given the aforementioned LINE gravitation (GL), when dark matter particles are finally detected and its unit gravitational effect measured (GD), it is hypothesized that (GD= GL).
Entanglement molecules are composed of inanimate atoms which together constitute one component of the natural mechanism needed to establish the antenna-state which defines the living POV. Once entanglement molecules are assimilated into the gestation process of an available viable host, the instantiated entanglement molecule acquires the added capacity to capture available dark matter particles. Together these unlikely participants establish the antenna-state of the POV by sufficiently dilating the bandwidth of local PH to open the vital teleportation channel which enables the critical information transfer that imprints metamatter at ones’ unique degrees of freedom of the quantum entanglement spectrum, ones’ QEF. This state, as long as it persists, instantiates ones’ new position in space-time, ones’ individuality. When released into the environment upon deinstantiation, death, the entanglement molecule’s sequestered dark matter particles are also released. Consequently, like the unignited matter in a gas nebula or the inanimate matter of Earth, the uninstantiated entanglement molecule, should it persist, resumes its mundane alter ego to gravitate in a more Newtonian manner as does all inanimate matter. Further, if it became feasible to strip baryonic matter of all of its bound dark matter particles, baryonic matter may be dispossessed of gravitation.
On the galactic scale, persistent PH dilation in the absence of detectable matter is a very important phenomenon of this space-time. These scenarios of information transition infer the existence of a commonality between the function of the hypothesized entanglement molecule in living entities and the properties exhibited by dark matter. This is due to their mutual ability to dilate the PH to a degree greater than, and in the absence of normal matter respectively. It is hypothesized that entanglement molecules capture and hold an excess of dark matter particles for the duration of each living entities lifetime. This identifies dark matter as the entanglement particle (EP) which most fundamentally maintains the PH dilation which defines a QE connection to metamatter even in the absence of matter. This gives the entanglement molecule its capacity to establish life. Additionally, dark matter is the particle which singularly causes gravitation in matter. All normal (baryonic) matter gravitates primarily, or entirely, by the sequestering of dark matter particles. Hence, although the Higgs field imbues matter with mass it is a degrees of freedom of dark matter not mass that is responsible for PH dilation both in living entities and imbues gravitation to all baryonic matter and gravitates in the vacuum of deep space. This implies that the eventual isolation and identification of the entanglement cell, entanglement molecule and entanglement particle will unlock the mystery surrounding dark matter. I encourage all thoughtful, nimble-minded researchers or teams thereof, having the means, the capability and the wherewithal to take on these groundbreaking career-defining challenges and do so for the betterment of humankind.
The LINE hypothesis suggests that if we were to now separately calculate, with appropriate accuracy and resolution, both the Newtonian and Einsteinian gravitational effect for each of the two subtracted masses, the inanimate, and the biomass, each calculation will yield a result measurably different from the actual measured gravitational influence of the biomass. That is, the biomass is hypothesized to produce a measurably greater actual gravitational influence than its equivalent in purely inanimate matter, and its Einsteinian calculated values. This extra gravitation possessed by the biomass is the LINE gravitation (LG or GL). In living entities the LG is hypothesized to be due to the increased information drain into the metaverse which is not accounted for in either Newton’s or in Einstein’s formulations. This information drain occurs via the increased bandwidth of the dilated Planck holes (PH) which establishes the position of view (POV), the natural teleportation channel within every living cell. This is a natural property of the cells’ instantiated entanglement molecules (EM) which instantiates each living being contained within the biomass.
It is this increased information drain that will also deflect a passing light beam to a measurably greater extent as it passes near the living biomass, or near the Earth, or near any living planet. In short, a planet with life, all factors being equal, will bend light more than a planet without life. This is because the entanglement molecule, like DNA and many other complex molecules, does not function or may not even remain intact in inanimate matter. Yet, in living matter, the entanglement molecule in each living cell dilates the PH and gravitates to a greater extent than do other molecules. With the appropriate resolution, the density of life on distant planets could be determined by this metric. Of course, this is a very delicate measurement to undertake, as planets such as Earth are much smaller than stars and the differential in gravitational influence, LG, specifically caused by the information drain via the POV of its biomass is even smaller. The Moon may be an obvious candidate for an experimental platform for such a test. A nearby cosmic body with no life, this is half the requirement. The trick is finding a clever way to implement the second requirement of the test, to measure the Moon with sufficient living matter on it to make a contrasting gravitational measurement. However, since we are able today to measure the diminutive gravitational waves of distant sources, I have no doubt that this measurement can be performed successfully.
Let us now venture to perform this same conceptual scenario on the Milkyway galaxy; First separate the Milkyway’s total mass of inanimate matter into one spherical body, sufficiently diffuse so as not to collapse into a huge black hole. Now separate into another sphere the known living biomass of the Milkyway galaxy that would be the same biomass as the previous scenario, Earth’s biomass being the only known life that exists. Next, separate into a third sphere a mass equal to the total measured gravitation necessary to keep the Milkyway intact and rotating with its current observed galactic sigma. This third sphere is of a mass sufficient to exactly account for the Milkyways’ extra gravitation, ergo; its’ dark matter. Dark matter is hypothesized to express gravitation but no other aspect of baryonic matter including mass. This would be an inexplicable behavior absent the LINE hypothesis. The sphere of dark matter has a gravitational constant (GD) at present assumed to be equal to the Newtonian gravitational constant (G). This is a necessary placeholder assumption required until dark matter is actually detected and its actual gravitation per unit dark matter particle measured. The eventual value of GD is of little importance to this scenario. The LINE hypothesis suggests that the eventual dark matter gravitation, whatever it turns out to be, is proportional to the extra gravitation of the biomass (GL), even if that value is different from the Newtonian value (G). That is, the extra gravitation hypothesized to exist in living entities is the same extra gravitation measured in galaxies. This prediction infers that the gravitational influence of dark matter (GD) can be measured in any living biomass, like Earths biomass, which is expected to excessively bend a passing beam of light. So, how does this work?
The LINE hypothesis agrees that Dark Matter is an undiscovered particle with subtle degrees of freedom in this space-time and suggests that these degrees of freedom also dilate local PH, to produce gravitation but by a mechanism not present in normal matter. Dark matter particles which act to negatively dilate PH are the most fundamental conveyors of gravitation in this space-time and thereby constitute the particle which manifests gravitation in all forms of matter. As such, dark matter is hypothesized to be the active ingredient in the entanglement molecule. The atomic structure of the entanglement molecule, once formed in viable hosts, captures, and for a lifetime, retains an excess of dark matter particles, not unlike the way atomic isotopes capture and hold electrons, except dark matter particles brings additional gravitation but virtually no additional rest mass. This combination of unlikely partners increases the bandwidth of PH in the vicinity of the entanglement molecule. This extra PH dilation is the superpower, if you will, of the entanglement molecule which establishes the position of view (POV) at unique degrees of freedom of the entanglement spectrum (QEF) in every living entity. This added gravitation occurs by the instantiated entanglement molecule’s sequestration of an excess of dark matter particles which adds an amount of extra gravitation to the collective biomasses total gravitation. Without dark matter, there would be no galaxies as we know them in this universe but also there would be no life as we know it. Dark matter is famously difficult to detect in the environment. Upon the isolation and identification of the entanglement cell and entanglement molecule, we would be significantly closer to identifying and understanding this elusive ingredient in the instantiation of the living individual.
These scenarios each shed light on Vera Rubin’s discovery of unrecounted galactic rotation or sigma currently ascribed to dark matter because PH dilation accounts for each. The LINE hypothesis suggests that dark matter continues to be the undetected phenomenon which dilates the PH regime encompassing entire galaxies and groups thereof which accounts for the unexpected galactic sigma. The measurement of Earth’s predicted planetary gravitational LG differential is hypothesized to be proportional to this galactic sigma, as the galactic sigma was expected to be proportional to Newtons’ gravitational constant (G), but isn’t. This is also the case for occurrences of gravity lensing, due to the prediction that each is caused by accumulated PH dilation, ergo gravitation by dark matter. Vera’s extra gravitation is active in the gravitation of living ecosystems in a common degree of freedom shared by both the entanglement molecule and dark matter. Hence dark matter isn’t merely a source of extra gravitation; it is the particle that conveys all gravitation even to normal matter. This prediction infers that the Newtonian gravitational constant (G) is not a universal constant but is proportional to the number of sequestered dark matter particles within baryonic matter. Given the aforementioned LINE gravitation (GL), when dark matter particles are finally detected and its unit gravitational effect measured (GD), it is hypothesized that (GD= GL).
Entanglement molecules are composed of inanimate atoms which together constitute one component of the natural mechanism needed to establish the antenna-state which defines the living POV. Once entanglement molecules are assimilated into the gestation process of an available viable host, the instantiated entanglement molecule acquires the added capacity to capture available dark matter particles. Together these unlikely participants establish the antenna-state of the POV by sufficiently dilating the bandwidth of local PH to open the vital teleportation channel which enables the critical information transfer that imprints metamatter at ones’ unique degrees of freedom of the quantum entanglement spectrum, ones’ QEF. This state, as long as it persists, instantiates ones’ new position in space-time, ones’ individuality. When released into the environment upon deinstantiation, death, the entanglement molecule’s sequestered dark matter particles are also released. Consequently, like the unignited matter in a gas nebula or the inanimate matter of Earth, the uninstantiated entanglement molecule, should it persist, resumes its mundane alter ego to gravitate in a more Newtonian manner as does all inanimate matter. Further, if it became feasible to strip baryonic matter of all of its bound dark matter particles, baryonic matter may be dispossessed of gravitation.
On the galactic scale, persistent PH dilation in the absence of detectable matter is a very important phenomenon of this space-time. These scenarios of information transition infer the existence of a commonality between the function of the hypothesized entanglement molecule in living entities and the properties exhibited by dark matter. This is due to their mutual ability to dilate the PH to a degree greater than, and in the absence of normal matter respectively. It is hypothesized that entanglement molecules capture and hold an excess of dark matter particles for the duration of each living entities lifetime. This identifies dark matter as the entanglement particle (EP) which most fundamentally maintains the PH dilation which defines a QE connection to metamatter even in the absence of matter. This gives the entanglement molecule its capacity to establish life. Additionally, dark matter is the particle which singularly causes gravitation in matter. All normal (baryonic) matter gravitates primarily, or entirely, by the sequestering of dark matter particles. Hence, although the Higgs field imbues matter with mass it is a degrees of freedom of dark matter not mass that is responsible for PH dilation both in living entities and imbues gravitation to all baryonic matter and gravitates in the vacuum of deep space. This implies that the eventual isolation and identification of the entanglement cell, entanglement molecule and entanglement particle will unlock the mystery surrounding dark matter. I encourage all thoughtful, nimble-minded researchers or teams thereof, having the means, the capability and the wherewithal to take on these groundbreaking career-defining challenges and do so for the betterment of humankind.