quiet Posted November 29, 2018 Share Posted November 29, 2018 (edited) I will simply state that in this post, without writing comments later. I will read the comments that other people can write. --------- The photon is nothing more than a series of waves moving outward from a vibrating electron. Planck's constant is the a measure of the energy in the passage of one wave. However, Planck's constant is not the most fundamental quantum. The actual fundamental quantum is half of Planck's constant which is found in the half-wave of light. Each complete vibration of an electron creates one complete wave. However, the sudden movement of a vortex (such as the electron) in one direction creates a half-wave. If there is no return movement, and no immediate future movements in a rhythmical manner, there is no photon and no way to easily detect the half-wave. The sudden flipping of a vortex from right-side-up to up-side-down also creates a half-wave. Whenever there is a change in two vortices as exists when there is a sudden joining or separating, or whenever there is fusion or fission of nuclei, half waves are emitted as either increased or decreased rotational energy (spin). The single half-wave is one of the most ubiquitous entities in our universe of ether and vortices. It is a transverse acceleration of ether moving outward like a ripple on a pond. It is the fundamental which forms the waves of a photon. It is (1) formed initially as angular momentum (spin), (2) used as a means of transporting angular momentum at the speed of light, and (3) accepted as angular momentum when discharging its energy. It is without charge, mass, or gravity. It is capable of penetrating the most dense mass and travels at the speed of light. We can detect it only when it collides with another entity. Otherwise, we are unaware of it unless it directly affects one of our equations. In every way, the concepts of the neutrino and the half-wave are alike except that the neutrino is supposed to be a particle and the half-wave is simply a half-wave - neither a particle nor a vortex. So what here is proposed is that any neutrino is, in reality, a half-wave in our ether universe. Edited November 29, 2018 by quiet Link to comment Share on other sites More sharing options...
Strange Posted November 29, 2018 Share Posted November 29, 2018 20 minutes ago, quiet said: The photon is nothing more than a series of waves moving outward from a vibrating electron. Why is it quantised (indivisible) if it just a series of waves? Why are the interactions of always localised? 22 minutes ago, quiet said: Planck's constant is the a measure of the energy in the passage of one wave. Planck's constant does not have the units of energy. 23 minutes ago, quiet said: However, Planck's constant is not the most fundamental quantum. The actual fundamental quantum is half of Planck's constant which is found in the half-wave of light. This doesn't appear to relate to the actual measured energy of a photon. So what evidence do you have for this? 25 minutes ago, quiet said: However, the sudden movement of a vortex (such as the electron) In what way is an electron a "vortex"? What evidence do you have for this? 26 minutes ago, quiet said: Whenever there is a change in two vortices as exists when there is a sudden joining or separating, or whenever there is fusion or fission of nuclei, half waves are emitted as either increased or decreased rotational energy (spin). What are "vortices" in nuclear fusion or fission? What are these "half waves"? How do they relate to the actual measured radiation released by nuclear fusion or fission? 27 minutes ago, quiet said: The single half-wave is one of the most ubiquitous entities in our universe of ether and vortices. What evidence do you have for ether? What evidence do you have for vortices? 28 minutes ago, quiet said: In every way, the concepts of the neutrino and the half-wave are alike Your half wave is supposed to be a photon and therefore interacts electromagnetically. Neutrinos do not interact electromagnetically. If your half wave is a photon, then it obeys Bose-Einstein statistics (ie it is a boson). Neutrinos obey Fermi-Dirac statistics (they are fermions). Your half wave (assuming it is a photon) has integer spin, while neutrinos have half integer spin. Photons (your half wave?) are massless while neutrinos have mass So in what way, exactly, are they "alike"? Quote except that the neutrino is supposed to be a particle and the half-wave is simply a half-wave Neutrinos are just as much particles (or waves) as photons are (ie, not at all). Maybe that is the only way they are alike. So, no evidence and no maths. Why do you think this thread should stay open? Link to comment Share on other sites More sharing options...
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