Morning Bob(Well.. at least I think it's the morning where you right now) I was doing a little research on physical chemistry(not much though), and I can across radio decay and how it was pretty much transmutation by losing protons. My question to you is on bremsstrahlung radiation, is it a reverse beta decay instead of losing protons to…
Morning Bob(Well.. at least I think it's the morning where you right now) I was doing a little research on physical chemistry(not much though), and I can across radio decay and how it was pretty much transmutation by losing protons. My question to you is on bremsstrahlung radiation, is it a reverse beta decay instead of losing protons to change the element it adds them instead with EVOs? I wanna thank you for taking time out of your day for reading and answering questions. It means a lot.
Parkhomov showed in over 2 decades of experiments that both naturally lensed Relic Neutrinos and technologically produced Cold Neutrinos can cause neutrons in beta isotopes to accelerate their beta decay producing neutrons and electrons. This process leaves behind a proton in the nucleus.
Morning Bob(Well.. at least I think it's the morning where you right now) I was doing a little research on physical chemistry(not much though), and I can across radio decay and how it was pretty much transmutation by losing protons. My question to you is on bremsstrahlung radiation, is it a reverse beta decay instead of losing protons to change the element it adds them instead with EVOs? I wanna thank you for taking time out of your day for reading and answering questions. It means a lot.
Parkhomov showed in over 2 decades of experiments that both naturally lensed Relic Neutrinos and technologically produced Cold Neutrinos can cause neutrons in beta isotopes to accelerate their beta decay producing neutrons and electrons. This process leaves behind a proton in the nucleus.
A typical example is 40K to 40Ca