tyrant91101
Sep11-09, 01:43 AM
I have been learning particle physics lately but it's been mostly from a theoretical perspective and not a mathematical one so I have yet to come across any such math but my curiosity is peaked.
From what I understand it, this is the process:
n \rightarrow p + W^{-}
Followed by:
W^{-} \rightarrow e^{-} + \bar{v}_{e}
Since m_{e} ~= .511 MeV/c^2 and m_{v_{e}} << m_{e}, there is about 79.9995 GeV/c^{2} missing. I am unclear where this energy goes. Does it go into the momentum of the electron (since it is ultrarelitivistic during the decay)?
I've tried to solve the equation E = m^{2}c^{4} + p^{2}c^{2} but I get a weird mass for the electron (5.68 x 10^{-12} kg) and I am all around confused by the equation.
If I have the wrong equation, which other one do I use for this type of math? If I am using the write equation, what is the best way of dealing with the units?
From what I understand it, this is the process:
n \rightarrow p + W^{-}
Followed by:
W^{-} \rightarrow e^{-} + \bar{v}_{e}
Since m_{e} ~= .511 MeV/c^2 and m_{v_{e}} << m_{e}, there is about 79.9995 GeV/c^{2} missing. I am unclear where this energy goes. Does it go into the momentum of the electron (since it is ultrarelitivistic during the decay)?
I've tried to solve the equation E = m^{2}c^{4} + p^{2}c^{2} but I get a weird mass for the electron (5.68 x 10^{-12} kg) and I am all around confused by the equation.
If I have the wrong equation, which other one do I use for this type of math? If I am using the write equation, what is the best way of dealing with the units?