Why nothing is enough in the field of physics?
We could form this question in the form, "why scientists are looking for more and more smaller and high energy particles in the Universe"? Why we are creating more and more powerful systems, what can find smaller and smaller particles. And maybe we would someday find the point, where energy would get the "astral form", and that is the opposite for the form of quarks, and we can think that the physical form of atoms, electrons, and other fundamental particles is so-called "kinetic" or "crystallize", and the form of energy would be "quantum fog" or "astral", so sometimes somebody has asked, "is the material only the crystallized energy".
And annihilation reaction, where antimatter and matter would contact and all of their mass turn to energy are supporting that thing. So the material is only the kinetic version of energy, if we want to say this thing like that way.
The idea of those people is that they want to find the point, where the material is transforming the energy and the opposite way. If we could find out that point or gate, where the energy is turning to material, we could find something bigger than ever before. We know that somewhere in the quantum world is the extreme particle, what is turning to the energy, and if we would see that particle, we can simulate the opposite reaction. But what is the form of that particle?
Is it stable or is it like some kind of quantum version of "the elastic bound", what can move to another space and form to another? That would be the most interesting particle of the quantum Universe, what we can ever create, or rather saying, what we can ever find. Then we are facing another strange particle and that is gluon. That particle keeps quarks together, and sometimes the form or essence of the gluon is thought to be a key to see, what things are forming the quarks.
When we are thinking about the thing, what is called the "super spring", we must ask, is that thing the particle, what is mentioned at the beginning of this text. So if our super spring is the quantum version of elastic bound that means that this particle is like clew, what the super spring forms. And if that clew, what has name quark, would open, the super spring would slip to energy. And that thing would be very interesting.
So what would we need to observe this kind of case? The thing is that those super springs would not act like other fundamental particles. That makes problems for creating observation of those particles. So what kind of thing the "super spring" would be? The thing is that if the form of this thing is the wire, we must think, the reason, why this wire would turn to the clew and form the quarks?
Is there a tiny electric force, or force what effects a similar way with electricity, and pulls the wire to ball? And what is the role of gluons in that process? Are gluons some kind of small black holes, what can turn the super spring in the shape, what we are known as quarks? Those are things, that are waiting for answers in the thing, what we are known as material.
And then we must understand that we see material everywhere, but we don't know much about it or it's the deepest form. What is the point, when the material turns to energy or is there the final form, or is the material acting like melting crystal? This kind of thing is interesting when we are starting to research the final particle between material and energy.
We could form this question in the form, "why scientists are looking for more and more smaller and high energy particles in the Universe"? Why we are creating more and more powerful systems, what can find smaller and smaller particles. And maybe we would someday find the point, where energy would get the "astral form", and that is the opposite for the form of quarks, and we can think that the physical form of atoms, electrons, and other fundamental particles is so-called "kinetic" or "crystallize", and the form of energy would be "quantum fog" or "astral", so sometimes somebody has asked, "is the material only the crystallized energy".
And annihilation reaction, where antimatter and matter would contact and all of their mass turn to energy are supporting that thing. So the material is only the kinetic version of energy, if we want to say this thing like that way.
The idea of those people is that they want to find the point, where the material is transforming the energy and the opposite way. If we could find out that point or gate, where the energy is turning to material, we could find something bigger than ever before. We know that somewhere in the quantum world is the extreme particle, what is turning to the energy, and if we would see that particle, we can simulate the opposite reaction. But what is the form of that particle?
Is it stable or is it like some kind of quantum version of "the elastic bound", what can move to another space and form to another? That would be the most interesting particle of the quantum Universe, what we can ever create, or rather saying, what we can ever find. Then we are facing another strange particle and that is gluon. That particle keeps quarks together, and sometimes the form or essence of the gluon is thought to be a key to see, what things are forming the quarks.
When we are thinking about the thing, what is called the "super spring", we must ask, is that thing the particle, what is mentioned at the beginning of this text. So if our super spring is the quantum version of elastic bound that means that this particle is like clew, what the super spring forms. And if that clew, what has name quark, would open, the super spring would slip to energy. And that thing would be very interesting.
So what would we need to observe this kind of case? The thing is that those super springs would not act like other fundamental particles. That makes problems for creating observation of those particles. So what kind of thing the "super spring" would be? The thing is that if the form of this thing is the wire, we must think, the reason, why this wire would turn to the clew and form the quarks?
Is there a tiny electric force, or force what effects a similar way with electricity, and pulls the wire to ball? And what is the role of gluons in that process? Are gluons some kind of small black holes, what can turn the super spring in the shape, what we are known as quarks? Those are things, that are waiting for answers in the thing, what we are known as material.
And then we must understand that we see material everywhere, but we don't know much about it or it's the deepest form. What is the point, when the material turns to energy or is there the final form, or is the material acting like melting crystal? This kind of thing is interesting when we are starting to research the final particle between material and energy.
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