In reply to mix...@bigpond.com's message of Sun, 05 Jul 2015 13:38:34 +1000:
Hi,
BTW, I would guess that Hydrinos in this size category may not last long, as
they would probably undergo nuclear reactions fairly readily (unless well
separated from other matter), thus the spectral line seen is prob
In reply to Jones Beene's message of Sat, 4 Jul 2015 19:47:40 -0700:
Hi Jones,
[snip]
Ok, I found the reason. It lies in the disproportionation reactions.
If you start with a mixture of p = 16 & p = 4, you get:- (16^2)/2 + 4 = 132.
(Formula derivation available on request).
Note that water mole
-Original Message-
From: mix...@bigpond.com
> Guessing that the observed value might match a different transition, I
created a little table for p = 120-136 ...As you can see, p=132->133 is a
good match
Interesting. Nothing obvious pops up at first glance - as to why this
132/133 lev
In reply to Jones Beene's message of Sat, 4 Jul 2015 16:54:51 -0700:
Hi Jones,
Actually it should be 13.598, rather than 13.6, and for a transition from 136 to
137 a catalyst with m=1 is required, which absorbs 27.2 eV first, so the actual
amount remaining to be emitted as a photon would be 3658
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