The Elementary Particles of Nature |
Contents
Foreword by Professor C F Powell F R S P | 2 |
Table of Fundamental Particles P | 5 |
Proton P | 9 |
3 other sections not shown
Common terms and phrases
accepted as decaying anti-particle anti-proton artificially produced atomic mass units Atomic Physics B.Sc Berkeley in 1955 binding energy Bohr Bristol Group Chadwick charged II-meson charged particles cloud chamber collisions cosmic radiation cosmic rays decay at rest decay scheme denoted deuteron Dirac theory discovery discrete energy disintegration electric charge electromagnetic field electron volts emission emitted energy levels excitation energies existence experiments explained by assuming fundamental particles half-life Heavy Mesons high energy hydrogen atom Identified from decays interaction J.J. Thomson K-mesons kinetic and excitation known Library QC 721 magnetic magnetic moment mean mean lifetime mesons and hyperons microseconds modes of decay momentum mu-mesons negative mesons neutral particle neutrino nuclear emulsions nuclear magneton Nuclear Physics nuclei nucleons number of events Pic du midi positron predicted Professor C.F. POWELL properties proton reactions leading rest mass Scienfo simultaneous production spin 11 stable term elementary particle theoretical grounds uncharged unstable particles velocity Y-radiation Yukawa