In reply to Jones Beene's message of Sun, 16 Jan 2022 22:11:56 + (UTC):
Hi Jones,
I agree that Beryllium is an interesting possibility, but the reaction I would
expect is more like
Be9 + H => D + 2 x He4
No neutrino required.
or if you want to use D instead of H
Be9 + D => T + 2 x He4
On Sun, Jan 16, 2022 at 10:51 AM H LV wrote:
> One commentator suggested that a mirror be used to redirect the moon light to
> a spot under the moonshade. I like this experimental modification because it
> respects the question the "believers" are asking. It does not substitute one
> question
A nickel-beryllium alloy could be an interesting and available catalyst for use
in Mills-Holmlid dense hydrogen research. It would be an active material in
several ways - used as the target for a high pressure flow of hydrogen. The 360
alloy is mostly nickel with a few % beryllium and some titan
Nice animation showing how the Earth looks from the Moon and how the
Moon looks from the Earth during April 2020
https://www.youtube.com/watch?v=eV1ZXm3MH6I
Harry
I wrote:
>
> If one holds that the two situations are not physically equivalent then it
> becomes necessary to design an experiment involving shaded moonlight where
> the effect of radiant cooling can be neutralized. One might say repeat the
> experiment with the same apparatus on a clear moonless
Lately I have been watching many youtube videos investigating the question
of whether or not moonlight has a cooling effect. The experiment is very
simple. On a clear night with moonlight measure the temperature of two
similar bodies, with one in the moonlight and the other shaded from the
moonlig
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