In reply to David Roberson's message of Sat, 14 Jul 2012 01:15:00 -0400 (EDT):
Hi,
[snip]
I want to put in my 2 cents worth concerning repulsion between neutrons. If
two neutrons meet in free space I would think that they would be attracted
together by the strong force. The reason that this
is an efficient way to
reach the lowest energy state for equal nucleon count elements.
Dave
-Original Message-
From: mixent mix...@bigpond.com
To: vortex-l vortex-l@eskimo.com
Sent: Sat, Jul 14, 2012 6:02 pm
Subject: Re: [Vo]:Repulsive interactions between neutrons
In reply to David Roberson's
In reply to Axil Axil's message of Mon, 2 Jul 2012 14:56:11 -0400:
Hi,
[snip]
P theory, hydrinos, ZPE or the many other theories discussed on this site
do *not *supply the answer to my satisfaction.
As I have already pointed out several times, a molecular cluster can add
sufficient energy to a
that the high energy gammas must not be emitted at any time.
Dave
-Original Message-
From: mixent mix...@bigpond.com
To: vortex-l vortex-l@eskimo.com
Sent: Fri, Jul 13, 2012 11:47 pm
Subject: Re: [Vo]:Repulsive interactions between neutrons
In reply to Axil Axil's message of Mon, 2 Jul
Subject: Re: [Vo]:Repulsive interactions between neutrons
Hey, this is starting to sound like the LW theory. But the electrons don’t
need to form outside the nucleus. They get inside to do their mischief…which is
the destabilization of the nucleus.
Cheers: Axil
This is off by more than an order of magnitude.
Where did the quark mass value come from?
From: Axil Axil
For example, a proton has a mass of approximately 938 MeV/c2, of which the
rest mass of its three valence quarks only contributes about 11 MeV/c2; most
of the remainder can
I see that this quark mass value in question - comes from Wiki's entry on
quarks.
Here is the significant problem with using that value: there is one
hypothetical figure for naked or current quarks- unbound quarks which
cannot exist for long on their own, and another very different value for
http://ipdiscover.com/pipermail/newcandle_ipdiscover.com/2007-September/001017.html
Back in 2007, Jones Beene asked a very good question that needed an answer.
Where exactly is that pot of energy that nuclear repulsion uses ultimately
comes from?
In all good comradeship I felt his
P theory, hydrinos, ZPE or the many other theories discussed on this site
do supply the answer to my satisfaction.
On edit, this should say
P theory, hydrinos, ZPE or the many other theories discussed on this site
do *not *supply the answer to my satisfaction.
On Mon, Jul 2, 2012
Repulsive interactions between neutrons
To set the stage, the standard model of particle physics says that neutrons
attract each other.
From an idea from an outlier (our kind of people) in the field of physics
Dr. O, Maneul as follows:
“Neutrons and protons in the nucleus work like the north
The goal is to try and find a way in which charge screening can fission a
nucleus. What factors cause the nucleus to fall apart into many smaller
pieces?
In order to explain how charge screening can make a nucleus unstable, we
need to answer how the proton can transmute into a neutron. Neutrons
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