In reply to Jones Beene's message of Tue, 30 Nov 2021 22:02:46 + (UTC):
Hi Jones,
Further to the Mills option:
In an electrolytic cell both H and K will form at the cathode, though the K
will only be short lived because it combines
with water to form KOH & H.
However if a K atom and an H
In reply to Jones Beene's message of Tue, 30 Nov 2021 22:02:46 + (UTC):
Hi Jones,
[snip]
> Robin, your comment brings up an interesting possibility - at least for
> water-splitting... given the large amount of effort that has gone into
> efficient electrolysis over the past few decades
>
Robin, your comment brings up an interesting possibility - at least for
water-splitting... given the large amount of effort that has gone into
efficient electrolysis over the past few decades
There is copious data to indicate that KOH electrolysis can exceed "unity" ...
by a small amount, but
In reply to Jones Beene's message of Tue, 30 Nov 2021 19:32:23 + (UTC):
Hi,
If I understand this correctly, the reaction of K40 + e- => Ar40 should yield
about 2.5 MeV. However I suspect that most
of the energy would be carried away, never to be seen again, by the neutrino.
>An
An accelerated weak-force interaction - as odd as this possibility may sound -
could be of interest to those trying to find and optimize what is in fact
"real" nuclear energy - but which may have been classified as LENR or Millsean
- formerly.
This is rather ironic but the radioactive isotope
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