I just calculated the neutrino mass = 1.2287398 х 10^{-36} kg, which is 16% less that the upper limit 0.8 eV /c^2 published by The KATRIN Collaboration.
@@maliciousmarka I have used pre-existing data, and also my own theory; the theory is described, i.e. in papers "Quarks and hadrons in the real space", "Magnetic monopole as the shadow side of the electric charge". Currently my manuscript entitled "Direct derivation of the neutrino mass" was rejected from 10 journals without any explanation. To meet a honest editor among the so-called main journals is a very seldom phenomenon...
I just calculated the neutrino mass = 1.2287398 х 10^{-36} kg, which is 16% less that the upper limit 0.8 eV /c^2 published by The KATRIN Collaboration.
Can you explain how you got to this value? Did you use pre-existing experimental data or other notions?
@@maliciousmarka I have used pre-existing data, and also my own theory; the theory is described, i.e. in papers "Quarks and hadrons in the real space", "Magnetic monopole as the shadow side of the electric charge". Currently my manuscript entitled "Direct derivation of the neutrino mass" was rejected from 10 journals without any explanation. To meet a honest editor among the so-called main journals is a very seldom phenomenon...
Spoiler: maximum is 0.8eV