On Mon, Jun 17, 2013 at 6:48 PM, wrote:
> I calculate them. If you have access to a windows machine, you can
> download the
> program from http://rvanspaa.freehostia.com/Isotopes.zip (if it doesn't
> work,
> please let me know ;)
> (Elements beyond Uranium are excluded).
>
Sorry, It didn't work.
In reply to Harry Veeder's message of Mon, 17 Jun 2013 16:54:06 -0400:
Hi Harry,
[snip]
>Robin,
>Do you look these values up in a table or do you calculate them?
>I thought the addition of protons to any element above Ni62 will not
>release heat, or does it depend on the isotopes involved?
I cal
Axil,
I don't know. Perhaps it affects a neutron's susceptibility to decay.
Harry
On Mon, Jun 17, 2013 at 2:25 AM, Axil Axil wrote:
> I am interested in what goes on inside those nuclei. How do those
> expanding protons effect the weak force?
>
>
> On Mon, Jun 17, 2013 at 2:12 AM, Harry Veeder
On Mon, Jun 17, 2013 at 3:16 AM, wrote:
> In reply to Harry Veeder's message of Mon, 17 Jun 2013 02:12:21 -0400:
> Hi,
> [snip]
> >Ni62 + H --> Cu63
> >63Cu is a stable copper isotope
> >
> >Pd106 + H --> Ag107
>
> 1H+106Pd => 107Ag + 5.788 MeV (exothermic)
>
> >Pd108 + H --> Ag109
>
> 1H+108Pd
In reply to Harry Veeder's message of Mon, 17 Jun 2013 02:12:21 -0400:
Hi,
[snip]
>Ni62 + H --> Cu63
>63Cu is a stable copper isotope
>
>Pd106 + H --> Ag107
1H+106Pd => 107Ag + 5.788 MeV (exothermic)
>Pd108 + H --> Ag109
1H+108Pd => 109Ag + 6.488 MeV (exothermic)
>107Ag and 109Ag are stable si
I am interested in what goes on inside those nuclei. How do those expanding
protons effect the weak force?
On Mon, Jun 17, 2013 at 2:12 AM, Harry Veeder wrote:
> Ni62 + H --> Cu63
> 63Cu is a stable copper isotope
>
> Pd106 + H --> Ag107
> Pd108 + H --> Ag109
> 107Ag and 109Ag are stable silver
Ni62 + H --> Cu63
63Cu is a stable copper isotope
Pd106 + H --> Ag107
Pd108 + H --> Ag109
107Ag and 109Ag are stable silver isotopes.
Standard binding theory says these should be endothermic reactions but if
the charge radius of the proton is not fixed then binding theory
may need to be revised to
This is a global causation theory that applies to all types of nuclei
equally.
This idea does not address LENR reactions in only nuclei with an even
number of nucleons: Ni58, Ni60, Ni62, Ni64. It also does not explain how no
radioactive isotopes are produced.
On Mon, Jun 17, 2013 at 1:31 AM, Ha
Recent evidence indicates the charge radius of proton is smaller in the
presence of a muon than in the presence of an electron.
http://en.wikipedia.org/wiki/Proton#Charge_radius
Since a muon is a massive cousin of the electron, a muon's orbit is much
smaller than an electron and therefore its orbi
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