Eric, when you speculate, you need to apply some basic science. For
example, a reaction involving three nuclei, one of which has a very
low concentration has a probability of occurring that is near zero,
based on the random chance that all three can get together at the same
time at the same location. Then you have to add the ability to
overcome the huge Coulomb barrier at a significant rate, which is also
very small. Only then is it worth considering the fast He3, which is
not detected.
Why would you assume a person who is measuring the mass peak at D2
would not notice if it started to drop?
Ed Storms
On May 24, 2013, at 10:16 PM, Eric Walker wrote:
On Fri, May 24, 2013 at 7:30 PM, Edmund Storms
<stor...@ix.netcom.com> wrote:
First Eric, looking for deuterium would automatically see an
increase as well as a decrease. No additional effort is required.
You would be surprised what people will overlook if they're not
expecting it as a possibility -- for example, they could do a whole
bunch of initial trial runs and set them aside because they assumed
something was wrong with the experimental setup.
Second, what reaction do you propose would use up the very small
amount of D2 in H2?
Perhaps Robin's hydrino reactions, or this one:
N + p + d → Ni + fast 3He
(I know you don't think there are fast particles -- this is
something I'm still keeping tabs on and haven't convinced myself of
yet.)
Eric
