OK, you caught me lurking.
I am fascinated by this BLP stuff but haven't been following it in detail over the years. Ron Wormus gave this: http://www.blacklightpower.com/Documentary%20Video/blacklight_experiment_vid eo_v2.wmv These guys seem competent, respected and well kitted out in their lab. Where is a video or write up for the more technical crowd? 'Heat spike': relative magnitudes 'Small amount of hydrogen': How much? Nickel: How much? Electrical input: etc Temperature of reaction vessel? Did Ni undergo phase change? Big questions: 1) More power is generated than is needed to split water from hydrogen. What about that needed to regenerate the Ni or is it a consumable? 2) Is the Ni H complex somehow more inert at the end of the process? I can't vouch anything for Mills' GUTs because I haven't been exposed to them. It is understood that Chemistry is the physics of the outer electron shell. Processes are expected to be only a few eV. A Chemistry of inner electron shells would be radical and he would be a visionary in the league of a Linus Pauling when he used QM to describe the chemical bond. On this point would the activation energies of these reactions be prohibitively large or slow to start but then rapidly feeding back? Can they do chemical kinetic type experiments to postulate reaction intermediates, you know, what data? Mechanisms. On a simple hydrogen model, the energy levels are proportional to the mass of the electron. To drop below would require the mass of the electron to change. I can't imagine (yet) what the effect of a change in the effective mass would have in a lattice. I guess it wouldn't. I don't know how easy it is to transmute electrons into muons. Any suggestions and write ups? Remi.

