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  • Light is a two force

    From mitchrae3323@gmail.com@21:1/5 to All on Fri Aug 18 19:16:11 2023
    What is the strength of its magnetism
    and its electric field? They both would
    create each other at the same time.
    But is what is their strength?

    Mitchell Raemsch

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From Jim Pennino@21:1/5 to mitchr...@gmail.com on Sat Aug 19 07:14:55 2023
    mitchr...@gmail.com <mitchrae3323@gmail.com> wrote:
    What is the strength of its magnetism
    and its electric field? They both would
    create each other at the same time.
    But is what is their strength?

    Mitchell Raemsch

    See Maxwell's equations, moron.

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From Alan Folmsbee@21:1/5 to mitchr...@gmail.com on Sat Aug 19 08:36:31 2023
    On Friday, August 18, 2023 at 10:16:14 PM UTC-4, mitchr...@gmail.com wrote:
    What is the strength of its magnetism
    and its electric field? They both would
    create each other at the same time.
    But is what is their strength?

    Mitchell Raemsch

    That is an over-simplification of a photon, to assume an electric field
    and a magnetic field are the most primitive items with which to
    decompose a photon.

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From mitchrae3323@gmail.com@21:1/5 to Alan Folmsbee on Sat Aug 19 09:20:35 2023
    On Saturday, August 19, 2023 at 8:36:35 AM UTC-7, Alan Folmsbee wrote:
    On Friday, August 18, 2023 at 10:16:14 PM UTC-4, mitchr...@gmail.com wrote:
    What is the strength of its magnetism
    and its electric field? They both would
    create each other at the same time.
    But is what is their strength?

    Mitchell Raemsch
    That is an over-simplification of a photon, to assume an electric field
    and a magnetic field are the most primitive items with which to
    decompose a photon.

    Einstein said he no longer believed in his Nobel photon in 1937.
    But there are two forces in electro magnetism.

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From Jim Pennino@21:1/5 to mitchr...@gmail.com on Sat Aug 19 09:40:10 2023
    mitchr...@gmail.com <mitchrae3323@gmail.com> wrote:
    On Saturday, August 19, 2023 at 8:36:35 AM UTC-7, Alan Folmsbee wrote:
    On Friday, August 18, 2023 at 10:16:14 PM UTC-4, mitchr...@gmail.com wrote:
    What is the strength of its magnetism
    and its electric field? They both would
    create each other at the same time.
    But is what is their strength?

    Mitchell Raemsch
    That is an over-simplification of a photon, to assume an electric field
    and a magnetic field are the most primitive items with which to
    decompose a photon.

    Einstein said he no longer believed in his Nobel photon in 1937.
    But there are two forces in electro magnetism.

    Why are you such a blazingly stupid idiot and a liar?

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From mitchrae3323@gmail.com@21:1/5 to Alan Folmsbee on Sat Aug 19 09:55:59 2023
    On Saturday, August 19, 2023 at 9:48:49 AM UTC-7, Alan Folmsbee wrote:
    On Saturday, August 19, 2023 at 10:16:11 AM UTC-4, Jim Pennino wrote:
    mitchr...@gmail.com <mitchr...@gmail.com> wrote:
    What is the strength of its magnetism
    and its electric field? They both would
    create each other at the same time.
    But is what is their strength?

    Mitchell Raemsch
    See Maxwell's equations, moron.
    Hello Jim Pennino,
    Maxwell's equations are useful for describing electromagnetic waves,
    but in 1870, the electron, photon particle, and the proton were not known. In order to decompose light into its most primitive components, I
    recommend the following ideas.

    magnetism can be the H field or B field
    H =velocity of lines of flux or (speed)
    B = frequency with which lines of flux are passing through an area (Hertz) So if light has a magnetic field, is it H or B?

    Energy is not contained in a photon. Energy has time squared in it.
    Energy has distance squared in it.
    Energy is force * distance = acceleration times distance * (something) Energy = (distance squared / time squared)* something
    where (something is mass or charge)
    mass = area of the spacetime continuum

    So a photon, to be decomposed into two items, cannot have energy.
    Atoms have energy changes when emitting or absorbing a photon.
    If a photon has an energy associated with it, that is only a
    potential energy for accountants to pretend energy is
    always conserved, not energy.

    A photon is a fraction of an atomic wavefunction. (2/3)
    A wavefunction has 3 dimensions, in my theory. X, Y, T.
    A photon has two dimensions X, T.
    That is the most primitive description for light, not E and H fields.
    E*H = acceleration * velocity = meter square per second cubed
    E*B = acceleration * Hertz = meter per second cubed
    Wrong and wrong.

    See my website for photon sketches using the most primitive
    dimensions:

    https://impuremath.wordpress.com/contraspline/

    see Fig 5 and Fig. 6

    Why are you disturbed alan?
    Einstein said no to his photon.

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From Alan Folmsbee@21:1/5 to Jim Pennino on Sat Aug 19 09:48:45 2023
    On Saturday, August 19, 2023 at 10:16:11 AM UTC-4, Jim Pennino wrote:
    mitchr...@gmail.com <mitchr...@gmail.com> wrote:
    What is the strength of its magnetism
    and its electric field? They both would
    create each other at the same time.
    But is what is their strength?

    Mitchell Raemsch
    See Maxwell's equations, moron.
    Hello Jim Pennino,
    Maxwell's equations are useful for describing electromagnetic waves,
    but in 1870, the electron, photon particle, and the proton were not known.
    In order to decompose light into its most primitive components, I
    recommend the following ideas.

    magnetism can be the H field or B field
    H =velocity of lines of flux or (speed)
    B = frequency with which lines of flux are passing through an area (Hertz)
    So if light has a magnetic field, is it H or B?

    Energy is not contained in a photon. Energy has time squared in it.
    Energy has distance squared in it.
    Energy is force * distance = acceleration times distance * (something)
    Energy = (distance squared / time squared)* something
    where (something is mass or charge)
    mass = area of the spacetime continuum

    So a photon, to be decomposed into two items, cannot have energy.
    Atoms have energy changes when emitting or absorbing a photon.
    If a photon has an energy associated with it, that is only a
    potential energy for accountants to pretend energy is
    always conserved, not energy.

    A photon is a fraction of an atomic wavefunction. (2/3)
    A wavefunction has 3 dimensions, in my theory. X, Y, T.
    A photon has two dimensions X, T.
    That is the most primitive description for light, not E and H fields.
    E*H = acceleration * velocity = meter square per second cubed
    E*B = acceleration * Hertz = meter per second cubed
    Wrong and wrong.

    See my website for photon sketches using the most primitive
    dimensions:

    https://impuremath.wordpress.com/contraspline/

    see Fig 5 and Fig. 6

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)