In the case of Ni, there is not a significant population of P+ or D+ ions
in the lattice. When the thermal wave sweeps through the Ni rod, the it
sweeps the electrons along like an ocean wave. But, there are barriers -
the Ni grains. The barriers form a boundary condition for how well, how
quick
Russ wrote:
Might you point to a reference where the mass of neutrons in deuterium vs.
> other nuclides is said to be different.
>
I do not understand. Is the claim here that a neutron in deuterium is
heavier or lighter than a neutron in some other element? There are
different kinds or neutrons,
Bob—
I would call the electron sloshing phonic kinetic energy of the Ni
lattice—coordinated vibration of the Ni atoms with orbital spin angular
momentum of the electron population coordinated as well to keep the lattice in
tact. The whole grain is a coherent QM system and is not strongly coupl
Neutrons would change their mass if they approach the speed of light. If they
happen to circulate in a coherent system they may become more massive based on
their velocity in the system. I doubt that rest mass changes any. IMHO a
neutrons mass is related to the mass of the electrons and positr
The Alan/Russ experiment has been conducted by young plasma students for
over a 100 years. This goes to show that there is not much new under the
Sun. The glow tube experiment is a demonstration of the Goldstein–Wehner
law.
See
http://campus.mst.edu/aplab/index_files/PlasmaTheory.pdf
Plasma Theo
Sorry that dog won’t hunt, the present experiment is nothing like this. Keep
fishing.
From: Axil Axil
Sent: Monday, May 21, 2018 6:13 PM
To: vortex-l
Subject: [Vo]:Fwd: Glow tube experiment
The Alan/Russ experiment has been conducted by young plasma students for over a
100 years. This
I am referring to the Meshuganon experiment not your current experiment.
Its too bad that you moved on from that Meshuganon experiment, you has
something there.
On Mon, May 21, 2018 at 1:28 PM, Russ wrote:
> Sorry that dog won’t hunt, the present experiment is nothing like this.
> Keep fishing.
bobcook39...@hotmail.com wrote:
Neutrons would change their mass if they approach the speed of light. If
> they happen to circulate in a coherent system they may become more massive
> based on their velocity in the system. I doubt that rest mass changes any.
> IMHO a neutrons mass is related to
In reply to Russ's message of Mon, 21 May 2018 06:37:55 +0100:
Hi Russ,
[snip]
>Might you point to a reference where the mass of neutrons in deuterium vs.
>other nuclides is said to be different.
Just calculate, or look up, the per nucleon mass, for several nuclei. If the
difference is not due to
In reply to Jed Rothwell's message of Mon, 21 May 2018 11:00:54 -0400:
Hi,
[snip]
>Russ wrote:
>
>Might you point to a reference where the mass of neutrons in deuterium vs.
>> other nuclides is said to be different.
>>
>
>I do not understand. Is the claim here that a neutron in deuterium is
>heav
Is the binding energy released from a change in the configuration of the
nucleus derived from the protons and neutrons that comprise the nucleus or
does it come from the nucleus itself?
On Mon, May 21, 2018 at 5:42 PM, wrote:
> In reply to Jed Rothwell's message of Mon, 21 May 2018 11:00:54 -04
I was taught some time back that potential energy created by electric charges
separated in space in a coherent system adds rest mass to that system.
Binding energy is potential energy and, thus ,IMO adds mass to the respective
coherent system which it binds together.
Does anyone consider bindin
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