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Path: ...!eternal-september.org!feeder3.eternal-september.org!i2pn.org!i2pn2.org!.POSTED!not-for-mail From: hertz778@gmail.com (rhertz) Newsgroups: sci.physics.relativity Subject: Re: The HOAX of the neutrino invention. After 95 years don't know shit. Date: Sat, 29 Mar 2025 13:25:56 +0000 Organization: novaBBS Message-ID: <2eebff514860e3cdc0705ce0e386d43e@www.novabbs.com> References: <0dd990630edbc9332716605722eb087a@www.novabbs.com> MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8; format=flowed Content-Transfer-Encoding: 8bit Injection-Info: i2pn2.org; logging-data="2257590"; mail-complaints-to="usenet@i2pn2.org"; posting-account="OjDMvaaXMeeN/7kNOPQl+dWI+zbnIp3mGAHMVhZ2e/A"; User-Agent: Rocksolid Light X-Rslight-Site: $2y$10$RTME/rQlmFIM2WglycDujuurDA7HTOZfhhbsmIiu1hf/jY8DgLNYu X-Spam-Checker-Version: SpamAssassin 4.0.0 X-Rslight-Posting-User: 26080b4f8b9f153eb24ebbc1b47c4c36ee247939 Bytes: 5138 Lines: 84 Question to ChatGPT (DeepSeek is better, but it's down). QUESTION: Why neutrinos are so important in quantum physics? ChatGPT said: Neutrinos are incredibly important because they offer insight into the fundamental forces and particles in the universe. 1. They Challenge the Standard Model Neutrinos were originally thought to be massless, which was consistent with the Standard Model of particle physics. However, experiments in the late 1990s, such as the discovery of neutrino oscillations, showed that neutrinos have a small but non-zero mass. This revelation was a major breakthrough, suggesting that the Standard Model was incomplete and that there must be physics beyond it. Understanding the exact nature of neutrino mass could lead to a deeper understanding of the universe. 2. Neutrino Oscillations The phenomenon of neutrino oscillations—the process by which neutrinos change from one type (or flavor) to another—provides a clear example of quantum mechanics in action. This behavior requires the quantum mechanical concept of superposition, where a particle like a neutrino can exist in multiple states simultaneously. 3. Insight into Particle Physics and Cosmology Neutrinos play a key role in both particle physics and cosmology. They were produced in huge numbers during the Big Bang, and understanding them can help us learn more about the early universe. Neutrinos also interact weakly with matter, meaning they can travel long distances through space and even pass through the Earth without much interaction. This makes them valuable messengers for studying distant astrophysical phenomena, such as supernovae and the early universe. 4. Weak Force and Quantum Field Theory Neutrinos interact with other particles via the weak force, one of the four fundamental forces of nature, which is described by quantum field theory. The weak force is responsible for processes like beta decay, and neutrinos are often emitted in such reactions. The study of neutrinos helps us refine our understanding of weak interactions and how they fit into the broader framework of quantum field theory. 5. The Neutrino as a Probe for New Physics Because neutrinos are so weakly interacting, they can be used as a probe to explore phenomena beyond the reach of other particles. For instance, scientists hope that neutrinos could offer clues about dark matter and dark energy, which make up most of the universe's mass-energy content but are not directly detectable by conventional means. Neutrino experiments are a promising avenue for studying these mysterious components of the cosmos. In summary, neutrinos are important because they provide a window into the mysteries of the universe that we can't access with other particles. Their role in quantum mechanics, their contribution to our understanding of the forces of nature, and their potential to reveal new physics make them central to the study of quantum physics and cosmology. ****************************************************************** MY CONCLUSION: Originally invented by Pauli in 1930 to save the law of conservation of energy in beta decays (neutrons decay into protons and electrons), they started to be used since the 1960s to solve ANY PROBLEM in quantum physics WHERE CALCULATIONS FAIL (minor differences, but yet relevant). Even when not said by ChatGPT, they are a valuable excuse to justify dark matter, dark energy and other mysteries in COSMOLOGY, much more than Higgs crap and similar lunatic proposals. But I doubt they EVEN EXIST. They are THEORETICAL CONSTRUCTS, like Higgs boson and similar shit. The world is rapidly degenerating, as it was never seen in history. Look around about politics, economy, kazharian fiat money (USD, Euros, etc.), food and energy inflation, AI crushing workforce rapidly, technology dead ends, social wars on everything, overpopulation, proxy hot wars, illiteracy in young people, misuse of smartphones and apps, fraud and crime at state levels, rewriting of modern history, etc. Physics is as corrupt as the society where it's developed today.