Robin--
I CONCUR WITH YOUR MRI (NMR) THOUGHT.
It is my understanding that the resonance with magnetic dipoles of a nucleus
is with a RF signal that invokes a small energy shift in the subject
nucleus. These resonances are modified by a magnetic field. The energy
absorbed in a resonant transition reflects a differential spin quantum
number from the ground (unexcited) energy state of the subject nucleus. The
energy associated with a single spin quanta is small. It may be possible to
excite nuclear magnetic dipoles by more than one quanta and reach a higher
excited energy state than one spin quanta above the base. The resulting
"eximer" may not decay to the original base state, but to an entirely
different nucleus with a loss of mass (spin energy mass) distributed as
thermal energy to the rest of the coherent system to which it is coupled.
In the case of LiAlH bonded to a Ni nano particle, maybe with dissolved H in
the Ni lattice, all of which is a coherent system.
Bob Cook
-----Original Message-----
From: mix...@bigpond.com
Sent: Thursday, June 18, 2015 8:13 PM
To: vortex-l@eskimo.com
Subject: Re: [Vo]:Cat stimultion
In reply to Axil Axil's message of Thu, 18 Jun 2015 20:43:15 -0400:
Hi,
[snip]
http://www.e-catworld.com/2015/02/27/rossi-natural-gas-powered-e-cat-not-a-matter-of-simple-heat/
Natural gas did not work. Its more than just heat.
That's interesting. It made me think of MRI where resonance occurs for a
specific combination of frequency and magnetic field strength. If a constant
frequency is available then resonance could be achieved by regularly varying
the
magnetic field strength as would occur with AC current.
Knowing your penchant for all things magnetic, I guess you have already
suggested this. :)
Regards,
Robin van Spaandonk
http://rvanspaa.freehostia.com/project.html