- #1
pelastration
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Summary:
Gravity is the first force, and all other forces are just emanations from this first.
Our various 'realities' and 'dimensions' are restructured spacetime. Spacetime can be visualized as a giant totality of an unbreakable but almost infinite elastic membrane in constant movement (oscillating waves: the ripples of spacetime).
Due a mechanism of 'pelastrations' the original membrane can create locally zones of multi-sheeted spacetime, called holons (cfr. quantum packages). They look like multi-layered tubes (cfr. Strings).
Holons can be created on micro or macro level (cfr. Galaxy holons, particle holons).
Local friction between oscillating Spacetime-layers will create other (local) oscillations and new couplings which we observe as Thermodynamics effects, and the ElectroMagnetic, Strong and Weak forces.
Since spacetime is a membrane it has two sides and holons can be created on both sides (cfr. influence of dark matter/energy).
The basic oscillations of spacetime are chaotic ... but in a local holons 'structure' is fixed for a given time. When oscillating conditions are in favor these first holons create new inter-holon couplings resulting in holons with more complex multi-sheets of spacetime. Mass increases when more spacetime layers are added. The more mass increases the more fixed positions are valid between holons (cfr. atom-binding to molecules). We see that in our 3D-world.
By this cosmological concept every type of 'reality' is interconnected with every other type of reality, this is what we call 'gravity'. One move in one reality influences other realities. Spacetime is also a conductor of oscillations, we call this 'membrane causality'. Therefor non-local communication between holons is possible. In this concept there is hierarchy and historical integrity of the layer positions. Therefor it is non-commutative (cfr. socks and shoes). In this concept there is no uncertainty, everything is causal founded. There is no superposition.
Holons can interact in several ways. That will provoke the outcome. De Broglie waves are in this approach significant. 'Field-effects' are in fact contact-effects of holons surfaces.
This approach offers the engineering image that joins GR and QM, and is not contradictory to SM.
I refer for more information to my website: http://www.mu6.com .
The latest developments can be found on a number of pfd-files: http://www.mu6.com/pdf.html. Pdf N° 8 gives a good ideal how holons are created. Pdf's 1, 2 and 3 show the interactions of spacetime layers.
(Important: I used several names on the website for a HOLON: a pellon, an island, a cigar).
A many-sheets space-time approach is also give by Matti Pitkanen (including mathematical approaches) on: http://blues.helsinki.fi/~matpitka/illua.html . Matti however has not the unbreakable membrane approach. In his view local elements can still leave a spacetime sheets. IMO it is not possible since spacetime is unbreakable. Everything happens on the spacetime layer. An object (like a steel ball) on the rubber sheet - in the image used to explain Einstein - is restructured spacetime itself. The high concentration bends spacetime of course.
I refer also to Kirilyuk related to de Broglie waves, protofields and what he calls the 'Quantum Beat': Andrei Kirilyuk: http://arxiv.org/pdf/quant-ph/0101129 and all arXiv on Andrei : (http://arxiv.org/find/physics/1/au:+Kirilyuk_A/0/1/0/all/0/1) . Andrei considers his protofields also as unbreakable.
So to me the spacetime membrane is in fact the 'gravity-field' and it interconnects everything with everything.
This unbreakbale membrane has several functions:
(1) the oscillation surface acts like a generator of new entities (discrete holons - or condensates depending from the stretchability conditions)
(2) it is an isolator (warrant for the historical integrity -> dynamic stored information)
(3) it is a conductor of: (A) oscillations over the total system, (B) oscillations inside holons, (C) oscillations between holons, and (D) makes non-local communication possible between distant resonant holons.
Finally - for now - I refer to Michio Kaku: "Einstein also said that behind every great theory there is a simple physical picture that even lay people can understand. In fact, he said, if a theory does not have a simple underlying picture, then the theory is probably worthless. The important thing is the physical picture; math is nothing but bookkeeping."
Some definitions:
M-BRANE: the basic membrane that is unbreakable and almost infinite elastic (stretchable). The M-Brane surface is in (constant) wave movement, thus oscillating. The M-Brane is considered a flat spherical surface with two sides (an inside and an outside). The total value is zero, but in a dynamic equilibrium. The symmetry is reached in the overhaul sense by the totality of outside and inside waves, be them restructured or be them free.
SPACETIME: Spacetime is the Einsteinium expression of the M-Brane in a dynamic sense (movements in time). Where in GR spacetime is not a realworld event, here it is. It's in every fundamental particle, multi-multi layered in every atom, in every molecule, in every cell.
RESTRUCTURED SPACETIME: Restructured spacetime is the local coupling of parts of the M-Brane.
PELASTRATION: One of the ways parts of the M-Brane can interact. Pelastration is a coupling mechanism. The mechanism consists in the penetration of one part of the M-Brane by another part on the M-Brane. A pelastration creates a new discrete (or local) area where the penetrating part (active) is covered by the receptive (passive) part. The new multi-layered locality is called: a holon.
HOLON: A holon is a local discrete area where a least two layers of the M-Brane are coupled by a penetration. A holon is a sub-set of the M-Brane. A holon has non-commutative layers. A holon contains a part of each of the parent M-brane part or contains parent-holons. (Other names used on the website for an holon: a pellon, an island, a cigar). Examples of holons: a fundamental particle, an atom, a molecule, a human, the sun, ... . Check : http://capita.wustl.edu/ME567_Informatics/concepts/holon.html , and: http://www.holon.se/folke/kurs/Distans/Ekofys/Recirk/Eng/holarchy_en.shtml .
HOLON OSCILLATION: Holon oscillation is the totality of all oscillations inside a holon and eventually added by embedded outside holons, surface-contact with other holons, or by parent holons .
HOLON INTERACTION. Holons can interact in several ways. They can (1) pelastrate, (2) embed (infiltrate), (3) twin, (4) knot, (5) surface contact. By holon interactions transfer of oscillations happens.
FRICTION: Friction is the kinetic dynamics that happens (1) inside holon between the inside ST layers, (2) between the outside ST-layers of contacting holons.
HOLON NETWORK: A network of holons is a group of holons which have on (at least) one level inter-connection which bind them dynamically and give a joint reaction of movement provoked by outside holons.
DIMENSIONS: Dimensions are the results of connections between holons and their perception (relative positioning) by observing participants.
OBSERVING PARTICIPANT: An observing participant is a complex holon structure that contains at least one sensoring sub-holon system which allows him to be aware of changes in other holons or of at least position changes of other holons.
PERCEPTION: Perception is the awareness of the observing participants of other resonant holons.
AWARENESS: Awareness is the possibility to capture resonant oscillations of other holons by direct contact of the holons involved, by intermediary holons, by embedded holons, or indirect by membrane oscillations of parent holons.
OSCILLATION MIRRORING: Oscillation mirroring is the surface interaction between two spacetime layers by which the oscillation-pattern of one layer is received by the other layer as a mirrored pattern.
INTER-HOLON KNOTS: Inter-holon knots are local pelastrations provoked by excitations in a spacetime layer of a holon by (1) another spacetime layer inside the holon, (2) by an outside holon or (3) oscillations of a spacetime layer of a parent holons. (i.e. knowledge knots).
GRAVITY : the local and non-local stretching effects of the M-Brane
MASS: a property given to local areas with a high number of membrane layers. The more layers a locality has the more density is reached, and such zone has less stretchability.
Thanks for your comments,
Dirk
Gravity is the first force, and all other forces are just emanations from this first.
Our various 'realities' and 'dimensions' are restructured spacetime. Spacetime can be visualized as a giant totality of an unbreakable but almost infinite elastic membrane in constant movement (oscillating waves: the ripples of spacetime).
Due a mechanism of 'pelastrations' the original membrane can create locally zones of multi-sheeted spacetime, called holons (cfr. quantum packages). They look like multi-layered tubes (cfr. Strings).
Holons can be created on micro or macro level (cfr. Galaxy holons, particle holons).
Local friction between oscillating Spacetime-layers will create other (local) oscillations and new couplings which we observe as Thermodynamics effects, and the ElectroMagnetic, Strong and Weak forces.
Since spacetime is a membrane it has two sides and holons can be created on both sides (cfr. influence of dark matter/energy).
The basic oscillations of spacetime are chaotic ... but in a local holons 'structure' is fixed for a given time. When oscillating conditions are in favor these first holons create new inter-holon couplings resulting in holons with more complex multi-sheets of spacetime. Mass increases when more spacetime layers are added. The more mass increases the more fixed positions are valid between holons (cfr. atom-binding to molecules). We see that in our 3D-world.
By this cosmological concept every type of 'reality' is interconnected with every other type of reality, this is what we call 'gravity'. One move in one reality influences other realities. Spacetime is also a conductor of oscillations, we call this 'membrane causality'. Therefor non-local communication between holons is possible. In this concept there is hierarchy and historical integrity of the layer positions. Therefor it is non-commutative (cfr. socks and shoes). In this concept there is no uncertainty, everything is causal founded. There is no superposition.
Holons can interact in several ways. That will provoke the outcome. De Broglie waves are in this approach significant. 'Field-effects' are in fact contact-effects of holons surfaces.
This approach offers the engineering image that joins GR and QM, and is not contradictory to SM.
I refer for more information to my website: http://www.mu6.com .
The latest developments can be found on a number of pfd-files: http://www.mu6.com/pdf.html. Pdf N° 8 gives a good ideal how holons are created. Pdf's 1, 2 and 3 show the interactions of spacetime layers.
(Important: I used several names on the website for a HOLON: a pellon, an island, a cigar).
A many-sheets space-time approach is also give by Matti Pitkanen (including mathematical approaches) on: http://blues.helsinki.fi/~matpitka/illua.html . Matti however has not the unbreakable membrane approach. In his view local elements can still leave a spacetime sheets. IMO it is not possible since spacetime is unbreakable. Everything happens on the spacetime layer. An object (like a steel ball) on the rubber sheet - in the image used to explain Einstein - is restructured spacetime itself. The high concentration bends spacetime of course.
I refer also to Kirilyuk related to de Broglie waves, protofields and what he calls the 'Quantum Beat': Andrei Kirilyuk: http://arxiv.org/pdf/quant-ph/0101129 and all arXiv on Andrei : (http://arxiv.org/find/physics/1/au:+Kirilyuk_A/0/1/0/all/0/1) . Andrei considers his protofields also as unbreakable.
So to me the spacetime membrane is in fact the 'gravity-field' and it interconnects everything with everything.
This unbreakbale membrane has several functions:
(1) the oscillation surface acts like a generator of new entities (discrete holons - or condensates depending from the stretchability conditions)
(2) it is an isolator (warrant for the historical integrity -> dynamic stored information)
(3) it is a conductor of: (A) oscillations over the total system, (B) oscillations inside holons, (C) oscillations between holons, and (D) makes non-local communication possible between distant resonant holons.
Finally - for now - I refer to Michio Kaku: "Einstein also said that behind every great theory there is a simple physical picture that even lay people can understand. In fact, he said, if a theory does not have a simple underlying picture, then the theory is probably worthless. The important thing is the physical picture; math is nothing but bookkeeping."
Some definitions:
M-BRANE: the basic membrane that is unbreakable and almost infinite elastic (stretchable). The M-Brane surface is in (constant) wave movement, thus oscillating. The M-Brane is considered a flat spherical surface with two sides (an inside and an outside). The total value is zero, but in a dynamic equilibrium. The symmetry is reached in the overhaul sense by the totality of outside and inside waves, be them restructured or be them free.
SPACETIME: Spacetime is the Einsteinium expression of the M-Brane in a dynamic sense (movements in time). Where in GR spacetime is not a realworld event, here it is. It's in every fundamental particle, multi-multi layered in every atom, in every molecule, in every cell.
RESTRUCTURED SPACETIME: Restructured spacetime is the local coupling of parts of the M-Brane.
PELASTRATION: One of the ways parts of the M-Brane can interact. Pelastration is a coupling mechanism. The mechanism consists in the penetration of one part of the M-Brane by another part on the M-Brane. A pelastration creates a new discrete (or local) area where the penetrating part (active) is covered by the receptive (passive) part. The new multi-layered locality is called: a holon.
HOLON: A holon is a local discrete area where a least two layers of the M-Brane are coupled by a penetration. A holon is a sub-set of the M-Brane. A holon has non-commutative layers. A holon contains a part of each of the parent M-brane part or contains parent-holons. (Other names used on the website for an holon: a pellon, an island, a cigar). Examples of holons: a fundamental particle, an atom, a molecule, a human, the sun, ... . Check : http://capita.wustl.edu/ME567_Informatics/concepts/holon.html , and: http://www.holon.se/folke/kurs/Distans/Ekofys/Recirk/Eng/holarchy_en.shtml .
HOLON OSCILLATION: Holon oscillation is the totality of all oscillations inside a holon and eventually added by embedded outside holons, surface-contact with other holons, or by parent holons .
HOLON INTERACTION. Holons can interact in several ways. They can (1) pelastrate, (2) embed (infiltrate), (3) twin, (4) knot, (5) surface contact. By holon interactions transfer of oscillations happens.
FRICTION: Friction is the kinetic dynamics that happens (1) inside holon between the inside ST layers, (2) between the outside ST-layers of contacting holons.
HOLON NETWORK: A network of holons is a group of holons which have on (at least) one level inter-connection which bind them dynamically and give a joint reaction of movement provoked by outside holons.
DIMENSIONS: Dimensions are the results of connections between holons and their perception (relative positioning) by observing participants.
OBSERVING PARTICIPANT: An observing participant is a complex holon structure that contains at least one sensoring sub-holon system which allows him to be aware of changes in other holons or of at least position changes of other holons.
PERCEPTION: Perception is the awareness of the observing participants of other resonant holons.
AWARENESS: Awareness is the possibility to capture resonant oscillations of other holons by direct contact of the holons involved, by intermediary holons, by embedded holons, or indirect by membrane oscillations of parent holons.
OSCILLATION MIRRORING: Oscillation mirroring is the surface interaction between two spacetime layers by which the oscillation-pattern of one layer is received by the other layer as a mirrored pattern.
INTER-HOLON KNOTS: Inter-holon knots are local pelastrations provoked by excitations in a spacetime layer of a holon by (1) another spacetime layer inside the holon, (2) by an outside holon or (3) oscillations of a spacetime layer of a parent holons. (i.e. knowledge knots).
GRAVITY : the local and non-local stretching effects of the M-Brane
MASS: a property given to local areas with a high number of membrane layers. The more layers a locality has the more density is reached, and such zone has less stretchability.
Thanks for your comments,
Dirk
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