Each chapter has solved numerical problems. In the PDF version, you will often find handwritten notes in the margins from previous owners (a benefit of scanned copies). Pay attention to:
| Chapter Area | Topics | |--------------|--------| | | Mass, radius, spin, parity, electric/magnetic moments, binding energy, liquid drop model | | Radioactivity | Alpha, beta, gamma decay – theory, Geiger-Nuttall law, beta spectrum, neutrino hypothesis | | Nuclear Forces | Deuteron problem, proton-proton and neutron-proton scattering, meson theory | | Nuclear Models | Shell model, collective model (Bohr-Mottelson), optical model | | Nuclear Reactions | Q-value, cross-section, compound nucleus, direct reactions, resonance scattering | | Particle Accelerators & Detectors | Cyclotron, Betatron, Van de Graaff, GM counter, scintillation, semiconductor detectors | | Elementary Particles | Classification, quarks, leptons, interactions (brief intro) | | Nuclear Astrophysics (sometimes) | Stellar nucleosynthesis, energy generation in stars | nuclear physics by a.b. gupta pdf
Instead of risky searches, look for authorized channels to access the material: Each chapter has solved numerical problems
: Working principles of Cyclotrons, Synchrotrons, and Linear Accelerators. 4. Particle Physics 4. Particle Physics