• =?UTF-8?Q?Psi_=28=CE=A8=29_=2D__in_the_light_of_quantum_behavior=2E?=

    From 44socrat@gmail.com@21:1/5 to All on Tue Aug 20 03:46:56 2019
    Psi (Ψ) - in the light of quantum behavior.
    The Problem with Quantum Measurements - Psi (Ψ)
    The '' measurement problem'' / ''wave-particle collapse''
    About one wave measurement of one quantum particle.
    #
    There isn't electric wave without quantum particle.
    The wave-function is result of a real work of quantum particle (h)
    The wave-function Psi (Ψ) is derivate form of quantum particle.
    The wave-particle collapse problem could be contemplated as
    boundary changes of wave and particle simultaneously.
    #
    When the wave collapses, the pure electric particle (E=h*f)
    changes its parameters into negative potential state - Dirac's
    virtual / antiparticles (-E=Mc^2) and "disappears " in Zero Vacuum T=0K. =====

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  • From poraty4@gmail.com@21:1/5 to 44so...@gmail.com on Tue Aug 20 23:03:57 2019
    On Tuesday, August 20, 2019 at 1:46:57 PM UTC+3, 44so...@gmail.com wrote:
    Psi (Ψ) - in the light of quantum behavior.
    The Problem with Quantum Measurements - Psi (Ψ)
    The '' measurement problem'' / ''wave-particle collapse''
    About one wave measurement of one quantum particle.
    #
    There isn't electric wave without quantum particle.
    The wave-function is result of a real work of quantum particle (h)
    The wave-function Psi (Ψ) is derivate form of quantum particle.
    The wave-particle collapse problem could be contemplated as
    boundary changes of wave and particle simultaneously.
    #
    When the wave collapses, the pure electric particle (E=h*f)
    changes its parameters into negative potential state - Dirac's
    virtual / antiparticles (-E=Mc^2) and "disappears " in Zero Vacuum T=0K. ================================
    what is zero vacuum ?
    and what is not zero vacuum ?

    TIA
    Y.P
    =================

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  • From 44socrat@gmail.com@21:1/5 to All on Fri Aug 23 08:34:28 2019
    Take a cat in the Schrodinger wave Psi (Ψ)
    The cat exist in the sphere of probability density = |Psi|^2
    Find cat when the Schrodinger wave collapses
    Then the cat exist in the math method of ''Renormalization''
    #
    In Maxwell EM waves there is Lorentz electron force
    What force exists in the Schrodinger wave Psi (Ψ) ?
    ========

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  • From poraty4@gmail.com@21:1/5 to 44so...@gmail.com on Sat Aug 24 05:07:38 2019
    On Friday, August 23, 2019 at 6:34:29 PM UTC+3, 44so...@gmail.com wrote:
    Take a cat in the Schrodinger wave Psi (Ψ)
    The cat exist in the sphere of probability density = |Psi|^2
    Find cat when the Schrodinger wave collapses
    Then the cat exist in the math method of ''Renormalization''
    #
    In Maxwell EM waves there is Lorentz electron force
    What force exists in the Schrodinger wave Psi (Ψ) ?
    ========

    a nice salad of words !!
    ==================
    Y.P
    ========================

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