A provocative subject which may have keen relevance to the operation of a
robust Ni-H reactor revolves around the plasma state. There are a number of
reasons for a plasma being advantageous as a stimulant, but most have to do
with the hydrogen molecule transitioning to either the monatomic state
On Sat, Jan 28, 2012 at 11:30 AM, Jones Beene jone...@pacbell.net wrote:
A detail worth noting in regard to whether DGT forgot to mention that they
too are using argon, is that the images of DGT Hyperion indicating a tank
which is colored blue.
But they do use argon. See pp. 16 and 19:
Jones,
You wrote:
The video in question demonstrates that even a bulb not designed to
operate as a plasma emitter, can create an local plasma, and produce
copious light with a few watts of input (like the CFL which can operate
at a subwatt level).
Did the experiment measure radiant+thermal
The electric light from the plasma emission from the bulb under discussion
is spot on to the color generated by nitrogen plasma.
The nitrogen spectrum is preferably blue (consider the color of nitrogen
laser) instead, so such color is typical for the lightning in dry
conditions.
What I would
-Original Message-
From: pagnu...@htdconnect.com
The video in question demonstrates that even a bulb not designed to
operate as a plasma emitter, can create a local plasma, and produce copious
light with a few watts of input (like the CFL which can operate at a subwatt
level).
Did the
-Original Message-
From: Terry Blanton
But they do use argon. See pp. 16 and 19:
http://www.defkalion-energy.com/files/HyperionSpecsSheetNovember2011.pdf
Not only that - they do show a tank with a red shoulder! Earlier pictures
did not.
Some of this is in contrast to previous
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