Robin-


During NMR isomeric transitions, nuclear species are stimulated with a radio 
frequency EM field to gain kinetic spin energy in the form of increased angular 
momentum in small quanta of angular momentum—each quantum being equal to 
h/2pie.  An ambient magnetic field would change the allowed states for such 
nuclear spin energy states.

Thus, change in a coherent system’s angular momentum occur in 0 or more quanta 
of angular momentum .   However the total angular momentum must be conserved 
just as energy is conserved in a coherent system phase change.  (The reaction 
does not involve release of any particles with kinetic energy, including no 
photons or neutrinos)  Only an increase of phonic lattice energy and a decrease 
of nuclear orbital angular momentum happens associated with a different meta 
stable or stable nuclear configuration—even ones with a transmuted 
configuration, but withunchangedt sums of protons and neutrons.



Bob Cook





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________________________________
From: mix...@bigpond.com <mix...@bigpond.com>
Sent: Wednesday, July 24, 2019 1:29:51 PM
To: vortex-l@eskimo.com <vortex-l@eskimo.com>
Subject: Re: [Vo]:If Mizuno is correct, this design is likely tobetheprecursor 
to all future devices

In reply to  bobcook39...@hotmail.com's message of Wed, 24 Jul 2019 13:19:02
+0000:
Hi,
[snip]
>For example, spin energy transitions within a coupled “coherent” system may 
>not entail any radiation at all, if there is a perfect conservation of angular 
>momentum during the LENR event.  Of course radiant heat may be emitted in a 
>follow-up reaction involving the decay of the phonic energy of the coherent 
>system’s lattice.

Can you explain in detail what you have in mind?

Regards,


Robin van Spaandonk

local asymmetry = temporary success

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