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  • Re: Positrons

    From Paul.B.Andersen@relativity@paulba.no to sci.physics,sci.physics.relativity,sci.math on Wed Jul 23 15:39:04 2025
    From Newsgroup: sci.physics.relativity

    Den 21.07.2025 00:47, skrev Bertitaylor:
    When you bust a neutron you get positrons and muons. That happens
    naturally in the Sun and artificially on Earth.

    OK.
    But after few microseconds the muon decays into
    an electron and an antineutrino and a neutrino.

    Than means that you claim a neutron will decay into
    a positron, an electron and two neutrinos.

    Mass of neutron: 1.6749e-27 kg
    Mass of positron: 9.1e-31 kg
    Mass of electron: 9.1e-31 kg
    Mass of neutrino < 1.4e-36 kg (negligible)

    So the mass before the neutrino is busted is 1.6749e-27 kg,
    and the mass after is 1.82e-30 kg, that means
    that 99.9% of the mass is lost.

    How do you explain that?
    Can mass disappear?
    Because it can't be transformed into kinetic energy.
    Or can it?


    Woof woof


    Miaow, miaow!https://www.youtube.com/watch?v=1jWHBWmo0OY
    --
    Paul, sensitivity

    https://paulba.no/
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  • From Rylee Hannanov@roo@eyvl.ru to sci.physics.relativity,sci.math on Wed Jul 23 21:37:20 2025
    From Newsgroup: sci.physics.relativity

    Paul.B.Andersen wrote:

    How do you explain that?
    Can mass disappear?
    Because it can't be transformed into kinetic energy.
    Or can it?

    absolutely good question, my friend. Mass is as the only thing that may
    not disappear. You are more competent than most of us, I really
    appreciate. Yes, that can only disappear transcending to another domain, quantum domain, and or the above relativity domain. So funny indeed. Which reinforces this world is created, with whatever purposes.
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