I have long wondered whether or not protons generate bremsstrahlung radiation in the same manner as electrons. It seems that the charge is responsible for the radiation and not the mass unless you are suggesting that the slower rate of deceleration of a proton versus and electron as it travels through matter is the reason. Would the same deceleration rate for either particle generate the same radiation effect?
The flip side of this coin is that the proton would travel proportionally further as a result of the lower deceleration rate. Dave -----Original Message----- From: mixent <[email protected]> To: vortex-l <[email protected]> Sent: Wed, Jun 6, 2012 12:14 am Subject: Re: [Vo]:about Triumph Management (and LENR) <snip> Another possibility is that the reacting particle is actually a Hydrino olecule, and that one of the two protons gets ejected carrying the energy. ince protons are far more massive than electrons, they produce almost no remsstrahlung. here proton addition would create an unstable nucleus, it's also possible that he electron is captured in an "enhanced" electron capture reaction. I say enhanced" because in normal EC reactions the nucleus has to try to "grab" a ast moving K electron on it's way through, whereas the Hydrino electron is lready present, and not really intent on going anywhere. ;-) obin van Spaandonk http://rvanspaa.freehostia.com/project.html <snip>
