Radioactivity
-10%
portes grátis
Radioactivity
Introduction and History, From the Quantum to Quarks
F. L'Annunziata, Michael
Elsevier Science & Technology
06/2016
932
Dura
Inglês
9780444634894
15 a 20 dias
2130
Descrição não disponível.
1. Radioactivity and Our Well-Being2. Basic Concepts and Definitions3. Hall of Fame: Part I4. Alpha Radiation5. Hall of Fame: Part II6. Beta Radiation and Beta Decay7. Hall of Fame: Part III8. Electromagnetic Radiation: Photons9. Hall of Fame: Part IV10. Neutron Radiation11. Hall of Fame: Part V12. Atomic Electron Radiation13. Hall of Fame: Part VI14. Cosmic Radiation15. Hall of Fame: Part VII16. Cherenkov Radiation17. Hall of Fame: Part VIII18. Radionuclide Decay, Radioactivity Units, and Radionuclide Mass19. Hall of Fame: Part IX20. The Atomic Nucleus21. Hall of Fame: Part X22. The Atom as We Know and Use It
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Albert Einstein; Alpha particle; Alpha-particle range; Annihilation radiation; Auger effect; Auger electron spectroscopy; Auger electrons; Auger yield; Baryons; Becquerel; Beta decay; Beta particle range; Beta radiation; Big-Bang theory; Binding energy; Bosons; Brachytherapy; Bremsstrahlung; Cancer therapy; Charged current interactions; Charged current; Charged particle reactions; Cherenkov radiation; Cluster radioactivity; Compton effect; Cosmic microwave background radiation (CMBR)Cosmic radiation; Cosmic radiation showers; Cross section; Cross-section; Curie; Decay chain; Decay constant; Decay energy (Qa)Electron excitation; Decay energy (Qi?1/2)Double-beta decay; Decay modes; Disintegrations per minute; Disintegrations per second; Elastic scattering; Electromagnetic force; Electromagnetic radiation; Electron capture (EC)Inverse beta decay; Electron density contour; Fermions; Fission; Fluorescence yield; Fusion; Gamma radiation; Gamma ray; Georges Lemai?1/2tre; Gigabecquerel; Gluons; Gravity; Hadrons; Half-life; Inelastic scattering; Internal conversion; Ionization; Kilobecquerel; Kosteri?1/2Kronig transition; Leptons; Linear attenuation coefficient; Linear energy transfer (LET)Negatron emission; Mass attenuation coefficient; Mass; Megabecquerel; Mesons; Microcurie; Millicurie; Neutral current interactions; Neutral current; Neutrino detection; Neutrino mass; Neutron attenuation; Neutron capture; Neutron classification; Neutron decay; Neutron flux; Neutron radioactivity; Neutron velocity; Neutron wavelength; Nonelastic reaction; Nuclear bremsstrahlung; Nuclear density; Nuclear forces; Nuclear models; Nuclear radius; Nuclear reactions; Nuclear recoil; Nuclear weapons; Oliver heaviside; Pair production; Particle detection; Particle identification; Pavel Cherenkov; Photoelectric effect; Photon reactions; Photon spatial asymmetry; Photons; Positron emission; Primary cosmic radiation; Proton radioactivity; Pugwash Conferences; Q value; Quantum microscope; Quarks; Radiation dose; Radionuclide decay; Radionuclide mass; RICH counters; Secondary cosmic radiation; Secular equilibrium; Sergei Vavilov; Spallation; Spontaneous fission; Stopping power; Strong force; Sudbury Neutrino Observatory (SNO)Threshold counters; Superheavy nuclei; Synchrotron radiation; Threshold energy; Time dilation; Time-of-flight (TOF) Cherenkov counters; Time-of-propagation (TOP) Cherenkov counters; Total and partial mass attenuation; Transient equilibrium; Wave-particle duality; Weak force; X-radiation
1. Radioactivity and Our Well-Being2. Basic Concepts and Definitions3. Hall of Fame: Part I4. Alpha Radiation5. Hall of Fame: Part II6. Beta Radiation and Beta Decay7. Hall of Fame: Part III8. Electromagnetic Radiation: Photons9. Hall of Fame: Part IV10. Neutron Radiation11. Hall of Fame: Part V12. Atomic Electron Radiation13. Hall of Fame: Part VI14. Cosmic Radiation15. Hall of Fame: Part VII16. Cherenkov Radiation17. Hall of Fame: Part VIII18. Radionuclide Decay, Radioactivity Units, and Radionuclide Mass19. Hall of Fame: Part IX20. The Atomic Nucleus21. Hall of Fame: Part X22. The Atom as We Know and Use It
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Albert Einstein; Alpha particle; Alpha-particle range; Annihilation radiation; Auger effect; Auger electron spectroscopy; Auger electrons; Auger yield; Baryons; Becquerel; Beta decay; Beta particle range; Beta radiation; Big-Bang theory; Binding energy; Bosons; Brachytherapy; Bremsstrahlung; Cancer therapy; Charged current interactions; Charged current; Charged particle reactions; Cherenkov radiation; Cluster radioactivity; Compton effect; Cosmic microwave background radiation (CMBR)Cosmic radiation; Cosmic radiation showers; Cross section; Cross-section; Curie; Decay chain; Decay constant; Decay energy (Qa)Electron excitation; Decay energy (Qi?1/2)Double-beta decay; Decay modes; Disintegrations per minute; Disintegrations per second; Elastic scattering; Electromagnetic force; Electromagnetic radiation; Electron capture (EC)Inverse beta decay; Electron density contour; Fermions; Fission; Fluorescence yield; Fusion; Gamma radiation; Gamma ray; Georges Lemai?1/2tre; Gigabecquerel; Gluons; Gravity; Hadrons; Half-life; Inelastic scattering; Internal conversion; Ionization; Kilobecquerel; Kosteri?1/2Kronig transition; Leptons; Linear attenuation coefficient; Linear energy transfer (LET)Negatron emission; Mass attenuation coefficient; Mass; Megabecquerel; Mesons; Microcurie; Millicurie; Neutral current interactions; Neutral current; Neutrino detection; Neutrino mass; Neutron attenuation; Neutron capture; Neutron classification; Neutron decay; Neutron flux; Neutron radioactivity; Neutron velocity; Neutron wavelength; Nonelastic reaction; Nuclear bremsstrahlung; Nuclear density; Nuclear forces; Nuclear models; Nuclear radius; Nuclear reactions; Nuclear recoil; Nuclear weapons; Oliver heaviside; Pair production; Particle detection; Particle identification; Pavel Cherenkov; Photoelectric effect; Photon reactions; Photon spatial asymmetry; Photons; Positron emission; Primary cosmic radiation; Proton radioactivity; Pugwash Conferences; Q value; Quantum microscope; Quarks; Radiation dose; Radionuclide decay; Radionuclide mass; RICH counters; Secondary cosmic radiation; Secular equilibrium; Sergei Vavilov; Spallation; Spontaneous fission; Stopping power; Strong force; Sudbury Neutrino Observatory (SNO)Threshold counters; Superheavy nuclei; Synchrotron radiation; Threshold energy; Time dilation; Time-of-flight (TOF) Cherenkov counters; Time-of-propagation (TOP) Cherenkov counters; Total and partial mass attenuation; Transient equilibrium; Wave-particle duality; Weak force; X-radiation
