Jones, John,
John [snip] Heat is a chaotic form of random microscopic changes
in kinetic energy, if so there should be windows where there is no change in
momentum which could be argued to be as localized moments of zero heat?[/snip]
Jones [snip] This possibility would also
From: John Berry
Also, if you seek a transient effect, does heat exist in a moment?
Heat is a chaotic form of random microscopic changes in kinetic energy, if so
there should be windows where there is no change in momentum which could be
argued to be as localized moments of zero heat?
John,
From: Kevin O'Malley
This paper sounds familiar, as if I had heard the same things a couple of years
ago. But I've searched through Vort archives and nothing rings the bell.
Kevin,
Not sure what direction you are going with this – but in 2010 – we were talking
about fractional electron
On Wed, Nov 5, 2014 at 12:54 AM, Kevin O'Malley kevmol...@gmail.com wrote:
This paper sounds familiar, as if I had heard the same things a couple of
years ago.
Nature, three years ago:
http://www.nature.com/nature/journal/v485/n7396/full/nature10974.html
An interesting possibility about FQHE – in the context of LENR, is that there
could be a transient version inside a Casimir cavity.
The phenomenon of the fractional quantum Hall effect (FQHE) occurs when
electrons are contained in two dimensions, cooled to near absolute zero
temperature, and
Also, if you seek a transient effect, does heat exist in a moment?
Heat is a chaotic form of random microscopic changes in kinetic energy, if
so there should be windows where there is no change in momentum which could
be argued to be as localized moments of zero heat?
Additionally maybe the
This paper sounds familiar, as if I had heard the same things a couple of
years ago. But I've searched through Vort archives and nothing rings the
bell.
Closest thing I came across was where I had posted that the Heisenberg
Uncertainty Principle (up) had observations in science experiments
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