Particles and volume
Bosons are said to not occupy space.
Put now an sphere volume that does not let Higgs in. It is a clear visual edge. Volume. There is density around the sphere of Higgs, and a sharp density jump to zero inside. There is no absorption. It is a wall. Displaces Higgs. At very short distance that may be the effect of quarks at rest, where it would be like an sphere where Higgs outside a quark accumulate and only some get destroyed by quark mass (Higgs destruction capacity). Indeed that Higgs screen around quarks may prevent to touch each other when close (unless smash them on purpose at high energy).
We may count how many Higgs takes to one extreme of the quark to the other. There is volume. Same for fermions. A proton with quarks has volume too.
Quarks and electrons at speed destroy Higgs, making that flow of Higgs coming to that allowed new void, higgs thermal equilibrium flow, current, gravity. A proton has a mass-energy not accounted if you add their intrinsic quarks masses alone. Quarks and gluons are destroying Higgs inside. Creates the total mass-ratio of proton. Quarks, gluons summed ability to destroy Higgs at speed inside the proton. Higgs-ratio consumption, total mass of proton.
But accelerate bosons and Higgs may be pushed in a wave fashion. The more massive like Z, the more Higgs is able to push back, sure and resists. But these particles need to move very fast to notice how they accumulate Higgs in front like waves.
And Higgs itself? Higgs is like a particle of gas or a liquid, always trying to reach its background temperature. Our 0 kelvin. Bumping and drifting. Bumping other Higgs, not destroying them unless created out of particle accelerators at huge speeds to be measured.
Why photons or other particles combine to Higgs, and Higgs decays to photons and other heavy fermions or bosons?
Why all this differentiated particles combine, split and transform so seamless into any of others with the only requisite of some balance of charge, energy and not many more? What are the building blocks of all this process and properties?
Fermions do.
Bosons are spin 1, one spin, same properties.
Fermions a half, half spin, same properties, symmetric, same every 2 spins, inverts up, to down in 1.
Higgs is a boson, but only with 0 spin. From all sides the same. Like a sphere.
Higgs is a boson, but only with 0 spin. From all sides the same. Like a sphere.
Space is there, static, yet for physics, Higgs particles may be the background over most physics happen.
They are not a grid, maybe just spineless (balls alike any side) particles that drift randomly, but which density creates the sensation of expanding or contracting space (and time), like Einstein.
So if Bosons do not occupy "space", but mostly create forces with attraction and repulsion, it may very well be that Bosons eat or consume this perceived "space". Space I argue is really static, what we may calle "space" under Einstein and that indeed we may even perceive it as if it expanded or contracted here are the Higgs, which apparently becomes the play ground of all our physics, and effects indeed look like stretching or contracting "space".
So boson eat Higgs, creates a vacuum or gradient, attractive forces to nearby massive bodies. That is, a flow of Higgs, dragging massive bodies with them by pushing them to the new lower density. (Forces).
So boson eat Higgs, creates a vacuum or gradient, attractive forces to nearby massive bodies. That is, a flow of Higgs, dragging massive bodies with them by pushing them to the new lower density. (Forces).
Bosons like photon may create or destroy more Higgs as virtual, in electromagnetism, or in movement. They may have mass (Higgs ratio consumption at movement). Photons minuscule tiny mass, while other noticeable like W bosons.
So bossons destroy Higgs on the way, but do not displace Higgs when virtual. Higgs himself may be a boson abundant and heavy enough to push other Higgs as virtual. It may try to adapt always to a final equilibrium, our galaxy background temperature. Say a certain density. C Einstein constant. Our 0K absolute temperature.
Go to other galaxy, maybe background Higgs bump at lower temperature, or higher. Even lower than our 0k. May explain dark matter.
Fermions are spin a half. They not exert forces, and are the same after 2 spin. Why matters? Do not know exactly, but this is who they are. Try join two of them with same states and they do not let you. So they end up occupying space. They displace Higgs. They consume them when at speed, smashing, but also push them at speed and at rest, occupy a space. Photons just stays between these two Higgs or just destroys them if in electric field or radiating, but not occupy nor displace Higgs. Maybe only with c speeds (out of virtual state) may create the famous wave in the sea of Higgs. But still have no intrinsic volume.
Maybe all have some volume, yet the fact that fermions do not join in same spin, may create very volumetric combinations, whereas photons, because pack very close, you can not put Higgs (space appearence) in between to measure. Is as if where pontlike, since Higgs is our perception of space. Yet would consume lots of Higgs, creating a gradient, energy, gravity, "Einstein space curvature". The real space is not changed, is the perception through Higgs.
With high energy photons destroying Higgs or a planet creates sudden void in Higgs, and a flow of Higgs moves to occupy the space, is perceived as gravity (curvature), but we do not see Higgs occupying any space or volume, we perceive it. It certainly looks well like General Relativity, where we say space is bending. It is bending (More Higgs, more "space", less higgs, less "space", and gradually). The effect is the same. Higgs is not space, it physically looks as if it where space since affects all physics.
With high energy photons destroying Higgs or a planet creates sudden void in Higgs, and a flow of Higgs moves to occupy the space, is perceived as gravity (curvature), but we do not see Higgs occupying any space or volume, we perceive it. It certainly looks well like General Relativity, where we say space is bending. It is bending (More Higgs, more "space", less higgs, less "space", and gradually). The effect is the same. Higgs is not space, it physically looks as if it where space since affects all physics.
Put now an sphere volume that does not let Higgs in. It is a clear visual edge. Volume. There is density around the sphere of Higgs, and a sharp density jump to zero inside. There is no absorption. It is a wall. Displaces Higgs. At very short distance that may be the effect of quarks at rest, where it would be like an sphere where Higgs outside a quark accumulate and only some get destroyed by quark mass (Higgs destruction capacity). Indeed that Higgs screen around quarks may prevent to touch each other when close (unless smash them on purpose at high energy).
We may count how many Higgs takes to one extreme of the quark to the other. There is volume. Same for fermions. A proton with quarks has volume too.
Quarks and electrons at speed destroy Higgs, making that flow of Higgs coming to that allowed new void, higgs thermal equilibrium flow, current, gravity. A proton has a mass-energy not accounted if you add their intrinsic quarks masses alone. Quarks and gluons are destroying Higgs inside. Creates the total mass-ratio of proton. Quarks, gluons summed ability to destroy Higgs at speed inside the proton. Higgs-ratio consumption, total mass of proton.
Fermions occupy apparent "space". Not so gluons or photons. Not in Higgs "space" apparence.
Outside volumetric particles, like quarks, electrons, fermions, Higgs are pushed back. Volume, occupy space.
Sure, fermions at movement, destroy Higgs, creates gradients, creates gravity.
Photons, gluons, and spin 1 bosons are point like. Meaning do not push Higgs outside a region. We can accumulate them in a point (or very small region of real space). We do not perceive a volum. Or becouse they are really small, or becouse even small, accumulating them makes them energetic and destroy higgs all around, shrinking then "space" (higgs density) and still not perceive volume. Maybe fermions can create more impermeable Higgs wall, overall trying joining with same properties.
Sure, fermions at movement, destroy Higgs, creates gradients, creates gravity.
Photons, gluons, and spin 1 bosons are point like. Meaning do not push Higgs outside a region. We can accumulate them in a point (or very small region of real space). We do not perceive a volum. Or becouse they are really small, or becouse even small, accumulating them makes them energetic and destroy higgs all around, shrinking then "space" (higgs density) and still not perceive volume. Maybe fermions can create more impermeable Higgs wall, overall trying joining with same properties.
Fermions destroy Higgs, but some bounce back out of its edge. We see the volume.
Bosons grow by only shrinking "space", looking to us point like always, condensates. The key, they not displace or hit away Higgs creating an edge for us to see and measure. Yet they may occupy real static space of the universe.
But accelerate bosons and Higgs may be pushed in a wave fashion. The more massive like Z, the more Higgs is able to push back, sure and resists. But these particles need to move very fast to notice how they accumulate Higgs in front like waves.
And Higgs itself? Higgs is like a particle of gas or a liquid, always trying to reach its background temperature. Our 0 kelvin. Bumping and drifting. Bumping other Higgs, not destroying them unless created out of particle accelerators at huge speeds to be measured.
If our galaxy had higher Higgs temperature, Higgs would tend to press each other more than now. Don't worry, it would be like compressing space for us. Our 0 kelvin thermometer would not know the difference, but indeed, looked from another galaxy, we would be faster, hotter, more energetic, and our space more compressed.
Why photons or other particles combine to Higgs, and Higgs decays to photons and other heavy fermions or bosons?
Why all this differentiated particles combine, split and transform so seamless into any of others with the only requisite of some balance of charge, energy and not many more? What are the building blocks of all this process and properties?
Answering this would be digging into more fundamental building blocks of particles.
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