Diferencia entre revisiones de «Usuario:Henry Delforn»

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Línea 7: Línea 7:
 
     "It is ironic that Einstein's most creative work, the general theory of relativity, should boil down to conceptualizing space as a medium when his original premise [in special relativity] was that no such medium existed [..] The word 'ether' has extremely negative connotations in theoretical physics because of its past association with opposition to relativity. This is unfortunate because, stripped of these connotations, it rather nicely captures the way most physicists actually think about the vacuum. . . . Relativity actually says nothing about the existence or nonexistence of matter pervading the universe, only that any such matter must have relativistic symmetry. [..] It turns out that such matter exists. About the time relativity was becoming accepted, studies of radioactivity began showing that the empty vacuum of space had spectroscopic structure similar to that of ordinary quantum solids and fluids. Subsequent studies with large particle accelerators have now led us to understand that space is more like a piece of window glass than ideal Newtonian emptiness. It is filled with 'stuff' that is normally transparent but can be made visible by hitting it sufficiently hard to knock out a part. The modern concept of the vacuum of space, confirmed every day by experiment, is a relativistic ether. But we do not call it this because it is taboo."
 
     "It is ironic that Einstein's most creative work, the general theory of relativity, should boil down to conceptualizing space as a medium when his original premise [in special relativity] was that no such medium existed [..] The word 'ether' has extremely negative connotations in theoretical physics because of its past association with opposition to relativity. This is unfortunate because, stripped of these connotations, it rather nicely captures the way most physicists actually think about the vacuum. . . . Relativity actually says nothing about the existence or nonexistence of matter pervading the universe, only that any such matter must have relativistic symmetry. [..] It turns out that such matter exists. About the time relativity was becoming accepted, studies of radioactivity began showing that the empty vacuum of space had spectroscopic structure similar to that of ordinary quantum solids and fluids. Subsequent studies with large particle accelerators have now led us to understand that space is more like a piece of window glass than ideal Newtonian emptiness. It is filled with 'stuff' that is normally transparent but can be made visible by hitting it sufficiently hard to knock out a part. The modern concept of the vacuum of space, confirmed every day by experiment, is a relativistic ether. But we do not call it this because it is taboo."
  
THE FOLLOWING IS PURE TABOO
 
  
All sufficiently high energy collisions in spacetime create temporary raptures or tears in the quantum vacuum 'fabric' (the aether), rapturing extra-dimensions in space (...as in other than the 3 space dimensions xyz) which in turn allows energy from the extra-dimensions to leak into our 3-dimensional spacetime. This leaked energy becomes evident as the zoo of particles we observe in their brief transit of instability. The extra-dimensions of space are hidden by symmetry in time itself. In other words, any particle we can't detect for prolonged periods of time, or particles created from high energy collisions having a short life span, come from another 'world' (from extra-dimensions) unable to persist in 3d spacetime. The observed energy released from high energy collisions is not from the splitting of the colliding particles themselves but energy released from other non-3 dimensions. In this view, splitting the nuclei is not the energy source itself, but a portal. The interior of the nucleus then, say the proton, is a temporary 'gateway' to other dimensions via the temporary ruptures in the aether (quantum vacuum fabric). In fact, recent experiment [1] (reported as of a week) confirm that the interior of a proton has the characteristic of a black hole. Black holes are indeed ruptures in the aether (quantum vacuum fabric), not temporary ruptures but permanent ruptures. Therefore, what we call nuclear energy is actually energy from other dimensions via or passing through the nucleus portal, not energy released from binding (strong force) nuclei energy. To think that a relatively huge amount of energy can come from a relatively tiny proton together (as though it had even smaller unstable components) is ridiculous. The 'nuclear energy' is 'x-dimensional energy' that funnels through ruptures in the aether having one portal in the 3-d spacetime nuclei and the other portal in the x-d spacetime nuclei. To be clear, E=mc2 continues to be true but NOT for mass m, but for diameter d such that d is the maximum size of the hole in the torn fabric.
 
 
[1] https://phys.org/news/2022-03-interior-protons-maximally-entangled.html
 
  
  
Línea 17: Línea 13:
  
 
     "The basic idea here will be that the Casimir force may be derived from the source fields alone even in completely conventional QED, ... Milonni provides detailed argument that the measurable physical effects usually attributed to the vacuum electromagnetic field cannot be explained by that field alone, but require in addition a contribution from the self-energy of the electrons, or their radiation reaction. He writes: "The radiation reaction and the vacuum fields are two aspects of the same thing when it comes to physical interpretations of various QED processes including the Lamb shift, van der Waals forces, and Casimir effects."
 
     "The basic idea here will be that the Casimir force may be derived from the source fields alone even in completely conventional QED, ... Milonni provides detailed argument that the measurable physical effects usually attributed to the vacuum electromagnetic field cannot be explained by that field alone, but require in addition a contribution from the self-energy of the electrons, or their radiation reaction. He writes: "The radiation reaction and the vacuum fields are two aspects of the same thing when it comes to physical interpretations of various QED processes including the Lamb shift, van der Waals forces, and Casimir effects."
 
 
Further reading
 
 
*https://en.wikipedia.org/wiki/Aether_theories
 
*https://en.wikipedia.org/wiki/Quantum_vacuum_state
 
*https://en.wikipedia.org/wiki/Vacuum_energy
 
*https://en.wikipedia.org/wiki/False_vacuum_decay
 

Revisión del 16:19 18 sep 2022

Henry González Delforn, Ingeniero Eléctrico (interés matemático). henrygdelforn@yahoo.com


Physicist Robert B. Laughlin wrote: 

   "It is ironic that Einstein's most creative work, the general theory of relativity, should boil down to conceptualizing space as a medium when his original premise [in special relativity] was that no such medium existed [..] The word 'ether' has extremely negative connotations in theoretical physics because of its past association with opposition to relativity. This is unfortunate because, stripped of these connotations, it rather nicely captures the way most physicists actually think about the vacuum. . . . Relativity actually says nothing about the existence or nonexistence of matter pervading the universe, only that any such matter must have relativistic symmetry. [..] It turns out that such matter exists. About the time relativity was becoming accepted, studies of radioactivity began showing that the empty vacuum of space had spectroscopic structure similar to that of ordinary quantum solids and fluids. Subsequent studies with large particle accelerators have now led us to understand that space is more like a piece of window glass than ideal Newtonian emptiness. It is filled with 'stuff' that is normally transparent but can be made visible by hitting it sufficiently hard to knock out a part. The modern concept of the vacuum of space, confirmed every day by experiment, is a relativistic ether. But we do not call it this because it is taboo."



Theoretical physicist Peter W. Milonni writes: 

   "The basic idea here will be that the Casimir force may be derived from the source fields alone even in completely conventional QED, ... Milonni provides detailed argument that the measurable physical effects usually attributed to the vacuum electromagnetic field cannot be explained by that field alone, but require in addition a contribution from the self-energy of the electrons, or their radiation reaction. He writes: "The radiation reaction and the vacuum fields are two aspects of the same thing when it comes to physical interpretations of various QED processes including the Lamb shift, van der Waals forces, and Casimir effects."
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