On Sun, Nov 22, 2020 at 6:28 PM H LV <hveeder...@gmail.com> wrote: > > On Sun, Nov 22, 2020 at 4:20 PM JonesBeene <jone...@pacbell.net> wrote: > >> >> >> - If hydrinos are just more stable versions of isolated hydrogen >> atoms they should have been discovered in hydrogen gas using old >> technology >> many decades ago. But this is just a strawman argument against their >> existence. >> >> >> >> Harry >> >> >> >> What old technology, exactly, would have discovered them? That is an >> intriguing path to follow >> >> >> >> BTW it could be a “fundable” inquiry involving a deeper look at old >> data.. should anyone here be looking for a new project. >> >> >> >> H* would have almost the same mass as hydrogen - but would be so much >> denser that it probably cannot react chemically in the same way, so they >> are relatively inert. >> >> >> >> For instance, there is unlikely to be found in nature a form of water >> where one of the protons is replaced with dense hydrogen as this could >> present a charge imbalance. >> >> >> >> It would be worth the effort to find the most likely place dense hydrogen >> should be found in nature (assuming it is real) >> >> >> >> My guess is that it would be in biological lifeforms which use it for >> survival, somehow. >> >> >> >> Jones >> > > > Look for abnormally high energetic emissions from a hot hydrogen gas. That > would be evidence of hydrogen relaxing below the ground state. The > probability of the formation of hydrinos in an ideal gas would be very > low.. However, I think the probability might increase as the gas got > cooler. This would be in contrast with the probability of fusion > increasing as the temperature of the gas increased. > > Harry >
It might be better to look for unusual absorption lines in a cold gas of hydrogen. This would indicate the hydrino atom was there but changed back into an ordinary hydrogen atom by absorbing energy. Harry > >
