Axil--
I am not sure about Mizuno. I do not remember reading anything about gammas being observed as least as input to the experiment. I assumed he also realized only small energy changes. Its the lack of gammas that indicate other small energy quanta transfers are occurring. Bob Sent from Windows Mail From: Axil Axil Sent: Thursday, July 24, 2014 10:28 PM To: [email protected] What happens in the endothermic energy case where energy is delivered to enable the reaction. As in Mizuno, when deuterium becomes podium. Is the energy delivered as a gamma ray or is it sent over in discrete low energy quanta? On Fri, Jul 25, 2014 at 2:16 AM, Eric Walker <[email protected]> wrote: On Thu, Jul 24, 2014 at 10:16 PM, Bob Cook <[email protected]> wrote: Why focus on the Coulomb field? Focus on the intense magnetic fields that can polarize nuclei parallel and antiparallel and cause them to spin in harmony. Transfer of mass via spin energy is possible, although it is not common in a plasma or free particle system most are familiar with. Solid state lattices allow more options for interactions including spin coupling. The Coulomb field is more intuitively accessible to me at this point, and an ion core presents a huge surface of charge to impart energy to (in addition to any nearby electrons). I get the impression that spin coupling is like trying to go fast on a ten-speed bike, but using only the lowest gear. No matter how fast you pedal the pedals, energy is still going to be translated into motion of the bike only very slowly. This might just be a misimpression on my part. As I learn more about nuclear spin, perhaps its potential as a conduit will become apparent. Gammas are not necessary for mass conversion to thermal kinetic energy. I think we agree on this point. What's needed is to transfer the energy of the decay of a compound nucleus to the environment in a benign way (assuming we have fusion, as I do). Since we don't see gammas, I assume that energy is imparted through some other mechanism. Eric
