- We’re made of cells. Cells are made of molecules. Molecules are made of atoms. Electrons and quarks are the building blocks of matter. All particles come from fluid-like substances that are generated from quantum web fields. These invisible fields sometimes act like particles, sometimes like waves. All things are triune, with binary interactives. Bosons carry energy. The photon is a wave; it creates a wave that propagates through space. The reality is that wave-particle duality is the oneness of particle-photon space. A photon is a successful transaction between three partners: an emitter, absorbers, and space. This transaction transfers via an electromagnetic interface. All photons are not electron-positron combinations. A photon is a particle in emissions and absorptions, but in between, is it a wave. The circumstances decide the results. When a pair of electron-positrons converts to electromagnetic energy, it sometimes produces two gamma photons, and sometimes not. The properties of a fermionic gas are very different from those of a bosonic gas.
- There are two vectors; and two arrows that tell us the direction and the magnitude of the electric and magnetic fields. These electric and magnetic fields are waving and evolving, telling the particles how to move. The particle zoo is always on the move. Ripples from these electromagnetic fields give off light. Light is made of photons. Photons are bosons. Spin decides what a boson is and what a fermion is. Specific quantum fields create individual particles. These fields interact with each other. There are twelve matter fields, three groups of four (plus the Higgs field and a neutrino field ). Two nuclear force fields, one called the gluon field, is associated with the strong nuclear force. It holds the nuclei together inside atoms. Also, with the weak nuclear force. They are the W boson and the Z boson fields. Note: the quantum gravity field is found at the fundamental level of physics. It is based there while interacting with the quantum level of physics. Bosons form one of the two basic classes of subatomic particles, the other being fermions; these matter fields are triune. All things are triune, with binary interactives.
- Additionally, the Higgs boson field ties everything together. It gives a mass to all the other particles. Neutrinos are ghost particles that have no charge; they are neutral.
- The Higgs boson is 130 times more massive than a proton. The Higgs field covers the universe. The Higgs has zero spin, no color change, and no electric charge. The Higgs field is a scalar one. It is precarious, and it decays into another particle almost immediately. Forces in the Standard Model are transmitted by particles known as gauge bosons. Symmetries are the specific changes to gauge transformations of the components that do not change the energy. Symmetric systems become asymmetric under certain conditions. Symmetry breaking via spontaneous symmetric breaking occurs at times. When broken, it is no longer a symmetry.
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The Higgs boson has a mass that is 30 times more massive than a proton.
- It slows the particles down to cause mass. Mass stability is created. In physics, in most cases, parity relates to the symmetry of the wave function representing a system of fundamental particles. A parity transformation replaces such a system with a type of mirror image. The Pauli exclusion principle means that two electrons of the same spin can’t be put on top of each other.