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 <janap...@gmail.com> 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 <hveeder...@gmail.com>wrote:
>
>> 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 too.
>>
>> Harry
>>
>>
>> On Mon, Jun 17, 2013 at 1:42 AM, Axil Axil <janap...@gmail.com> wrote:
>>
>>> 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, Harry Veeder <hveeder...@gmail.com>wrote:
>>>
>>>> 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 orbital speed is much
>>>> greater.
>>>>
>>>> This could mean that the charge radius of proton might depend inversely
>>>> on the speed of negatively charged particles in the proton's neighborhood.
>>>>
>>>> If so, then protons (hydrogen ions) will tend to swell even more inside
>>>> a lattice because they are bathed by even slower moving electrons. If the
>>>> swelling also extends the reach of the strong force, this
>>>> might enable protons to fuse with the lattice nuclei.
>>>>
>>>>
>>>> Harry
>>>>
>>>>
>>>>
>>>
>>>
>>
>

Reply via email to