On Fri, 12 Mar 2010 08:22:07 Jones Beene wrote
Fran,
The large spheres are diatomic hydrogen when outside the cavity, but become
monatomic after apparent shrinkage from our perspective, due to time
dilation, then releasing the photon, is that correct?
To cover more actual experimental results, one
Robin
You have identified a missing link in my education - I was sure
a covalent bond released a photon in transferring to a lower energy state
just like an electron falling to a lower orbital. After Robin's comment
about 3body collisions I went looking for info on covalent bonds and
Fran,
The large spheres are diatomic hydrogen when outside the cavity, but become
monatomic after apparent shrinkage from our perspective, due to time
dilation, then releasing the photon, is that correct?
To cover more actual experimental results, one might also suggest that on
occasion,
Jones,
The large spheres outside the cavity are monatomic hydrogen which
occasionally collides to form h2 and give off a red photon, the h2 either gets
repelled away from the entrance to the cavity or disassociates due to change in
Casimir force which wants to change the atoms to a
Sorry - just realized I gave the URL for the SIM only -the page it is on =
http://www.byzipp.com/animaTime.htm
In reply to Roarty, Francis X's message of Fri, 12 Mar 2010 12:47:17 -0500:
Hi,
[snip]
Jones,
The large spheres outside the cavity are monatomic hydrogen which
occasionally collides to form h2 and give off a red photon,
I thought it was a well recognized fact that monatomic
In reply to Robin van Spaandonk's message of Fri, 12 Mar 2010 13:12:16
[snip]I thought it was a well recognized fact that monatomic Hydrogen only
combines to
molecular Hydrogen in three body collisions? (I.e. not through emission of a
photon). That's why the Langmuir atomic Hydrogen torch
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