Hi Horace,
I noticed that the sums of the released photons plus the terms in brackets
are close, but not really the same. Why?
What is the meaning of that sum? I cannot figure out, I'm sorry.
2011/12/17 Horace Heffner hheff...@mtaonline.net
Deflation fusion theory provides a potential
On Jan 2, 2012, at 4:24 AM, Daniel Rocha wrote:
Hi Horace,
I noticed that the sums of the released photons plus the terms in
brackets are close, but not really the same. Why?
What is the meaning of that sum? I cannot figure out, I'm sorry.
The sums in brackets are estimates of the
Alright, so the most probable reactions are those that minimize the energy
spent at any given time. That is, those that require the least binding
energy for the deflated proton. But, shouldn't that mean that Ni58 is the
one that gives more energy? After all the number in bracket is the smallest
On Jan 2, 2012, at 7:10 AM, Daniel Rocha wrote:
Alright, so the most probable reactions are those that minimize the
energy spent at any given time. That is, those that require the
least binding energy for the deflated proton. But, shouldn't that
mean that Ni58 is the one that gives more
How do you know how much go to photons and to neutrinos?
2012/1/2 Horace Heffner hheff...@mtaonline.net
On Jan 2, 2012, at 7:10 AM, Daniel Rocha wrote:
Alright, so the most probable reactions are those that minimize the energy
spent at any given time. That is, those that require the least
On Jan 2, 2012, at 7:38 AM, Daniel Rocha wrote:
How do you know how much go to photons and to neutrinos?
Due to lack of time I'll cut and paste a lot of stuff from prior
posts. I do have to go. I hope it makes sense.
Very little goes to photons because the electron does not have time
THE RIDDLE AND POSSIBLE SOLUTION
Deflation fusion theory provides a potential solution to the riddle
of why the radioactive byproducts 59CU29, 61Cu29, 58CO27, and 62Cu29
to the Ni + p reactions do not appear in Rossi's byproducts. This
solution of the specific problem byproducts problem
I have consolidated my remarks in this thread, with some additional
comments, into this paper:
http://www.mtaonline.net/~hheffner/NiProtonRiddle.pdf
Best regards,
Horace Heffner
http://www.mtaonline.net/~hheffner/
On Dec 18, 2011, at 12:02 PM, Horace Heffner wrote:
I have consolidated my remarks in this thread, with some additional
comments, into this paper:
http://www.mtaonline.net/~hheffner/NiProtonRiddle.pdf
As typical for me, I continue to find and correct typos. Somehow I
submitted a back
Deflation fusion theory provides a potential solution to the riddle
of why the radioactive byproducts 59CU29, 61Cu29 and 62Cu29 to the Ni
+ p reactions do not appear in Rossi's byproducts. This solution of
the specific radioactive byproducts problem is manifest if the
following rules are
Deflation fusion theory provides a potential solution to the riddle
of why the radioactive byproducts 59CU29, 61Cu29 and 62Cu29 to the Ni
+ p reactions do not appear in Rossi's byproducts. This solution of
the specific problem byproducts is manifest if the following rules
are obeyed by
11 matches
Mail list logo