Eric, in any theory, a person has to ask how and why. In your theory,
how is the energy released as kinetic energy without particles being
emitted? How is momentum conserved? Kinetic energy is defined as
something moving with a velocity. How is this velocity created from
initially still objects while momentum is conserved. Also, why does
the system choose to release energy this way? What rule makes this the
easiest way?
Ed
On Jun 21, 2013, at 10:10 PM, Eric Walker wrote:
On Fri, Jun 21, 2013 at 8:08 AM, David Roberson <dlrober...@aol.com>
wrote:
Ed's theory implies that the energy is being released in a series
form where one photon after the next is radiated from the NAE and
into the material. The other general type of operation suggests
that an emission from a more or less entangled group of active
components radiate the energy as a group in parallel.
There is a third suggestion being floated -- there's a bursty
release of a large amount of energy in small little packets, here
and there in the substrate, like popcorn popping. The release of
any nuclear reaction in this type of operation would not be
incremental at the microscopic level -- it would be all at once
(e.g., 24 MeV), and possibly collimated, but the release would be as
kinetic energy and, as a side effect, bremsstrahlung, rather than
gammas. At a macroscopic level, it would be more homogenous.
Eric
