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Originally Posted by TheAtomium
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Originally Posted by lyndonashmore
Hi Sylas,
I am still awaiting a reply to my post. The long 'epistle according to Sylas' above answers nothing but repeats all your wrong sums.
You have spent the last 20 odd pages treating light as a longitudinal wave. This has been pointed out to you time and time again. We would like a response.
In using mv^2/2 to represent the whole of the photon energy, using v as the recoil velocity, you are saying light is longitudinal.
Can we have a response to this point please, and then you can go on to proving Mr Mossbauer wrong.
Cheers,
Lyndon
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There is no point anyone even considering answering that question unless you somehow manage to resolve the numerous issues surrounding your electron 'oscillating'.
I will repeat the last issue I had...
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Originally Posted by lyndonashmore
It only gets diffused through the system at resonce 6 Hz in IG space. Otherwise it is contained within a very small number of electrons - as in atom.
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An atom where each electron was ~1 meter apart? Anyway, the energy would be diffused to every electron within the deflected electron's field, regardless of resonance. What is the length of time between absorbtion of the photon and re-emission? That will allow you to calculate a rough estimate of how many electrons have become part of the system.
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Originally Posted by lyndonashmore
The electron does not 'reclaim' the energy - the system of electrons emit a new photon, as in an atom.
Cheers,
Lyndon
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The system emits the electron? I haven't heard that before. How does that work? Where does the photon then emit from, precisely? How on earth does the system remember what direction to send the photon off in? |
This is standard physics.
The frequency of oscillation of the electrons about 1m apart in plasma of IG space is a published result, about 30 or less hertz.
In any case, this is how light travels through glass. I am not inventing anything new here on this point, I am just applying known physics of transparent materials to space.
And getting the correct answers - H = 2nhr/m.
Cheers,
Lyndon.