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Experimental solid state physics --- -Diffraction --- Electrons --- Diffraction. --- -Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Ions --- Positrons --- Diffraction --- Constitution
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'BJR' is an international, multi-disciplinary journal covering the clinical and technical aspects of medical imaging, radiotherapy, oncology, medical physics, radiobiology and the underpinning sciences. BJR is essential reading for radiologists, medical physicists, radiation oncologists, radiotherapists, radiographers and radiobiologists.
Physical methods for diagnosis --- Radiology. --- Radiology --- X-rays --- Radiologie --- Rayons X --- Periodicals. --- Périodiques --- X-rays. --- #TS:WDEP --- Periodicals --- Health Sciences --- Diagnostics --- Oncology --- Biophysics --- Radiation --- Life Sciences --- Physics --- General and Others --- Radiologic and Imaging Nursing --- Health Sciences. --- Radiation. --- Life Sciences. --- Physics. --- Rays, Roentgen --- Roentgen rays --- Roentgenograms --- Electromagnetic waves --- Ionizing radiation --- Cathode rays --- Radiography --- Vacuum-tubes --- Radiological physics --- Journal --- Medical radiology --- Health and Wellbeing.
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Experimental atomic and molecular physics --- Theoretical spectroscopy. Spectroscopic techniques --- fysicochemie --- Atomic physics --- 535 --- Electrons --- -Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Ions --- Positrons --- Optics --- Spectra --- Constitution --- Spectra. --- -Optics --- 535 Optics --- -535 Optics --- Corpuscular theory of matter --- Spectroscopie --- Spectroscopy
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Molecular physics --- Molecular theory --- Electrons --- 538.9 --- Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Ions --- Positrons --- Chemistry, Physical and theoretical --- Physics of condensed matter (in liquid state and solid state) --- Constitution --- Electrons. --- Molecular theory. --- 538.9 Physics of condensed matter (in liquid state and solid state)
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Crystal optics. --- X-rays --- Crystal optics --- Scattering. --- fysicochemie --- Chemical and physical cristallography --- CRYSTALS --- X RAYS --- INELASTIC SCATTERING --- ELASTIC SCATTERING --- Monograph --- Crystals. --- X-rays. --- Inelastic scattering. --- Elastic scattering. --- Collisions, Elastic --- Elastic collisions --- Scattering (Physics) --- Rays, Roentgen --- Roentgen rays --- Roentgenograms --- Electromagnetic waves --- Ionizing radiation --- Radiation --- Cathode rays --- Radiography --- Vacuum-tubes --- Crystallography --- Powders --- Solids --- Chemical and physical crystallography
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An invaluable, up-to-date reference aid for investigators and researchers, this two-volume work develops the principles and concepts of statistical physics and quantum chemistry that are the basis for the interpretation of experimental data. These volumes build on the author's now standard text, Theory of Neutron Scattering (OUP, 1971), and include expanded coverage of nuclear scattering, with many sections completely rewritten and updated, and many previously unpublished experimental calculations. With a greatly expanded bibliography including 200 new references, this work will interest graduate students and researchers in physics.
Condensed matter. --- Neutrons --- Scattering. --- fysicochemie --- Geology. Earth sciences --- Nuclear chemistry --- Solid state physics --- Condensed matter --- Electrons --- Magnetic ions --- -Plasma (Ionized gases) --- Ions --- Nuclear magnetism --- Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Positrons --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Solids --- Gaseous discharge --- Gaseous plasma --- Magnetoplasma --- Ionized gases --- Baryons --- Scattering --- Constitution
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Radiography, Thoracic. --- Thoracic Radiography --- Radiographies, Thoracic --- Thoracic Radiographies --- Thorax --- Chest --- X-rays --- Radiography, Thoracic --- Rays, Roentgen --- Roentgen rays --- Roentgenograms --- Electromagnetic waves --- Ionizing radiation --- Radiation --- Cathode rays --- Radiography --- Vacuum-tubes --- Thorax, Human --- Thorax (Zoology) --- Viscera --- Diseases&delete& --- Diagnosis --- Diseases --- Pathology of the respiratory system --- Pathology of the circulatory system --- Physical methods for diagnosis
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Electromagnetic fields --- Electrons --- Quantum theory --- Relativity (Physics) --- 537.8 --- 537.8 Electromagnetism. Electromagnetic field. Electrodynamics. Maxwell theory --- Electromagnetism. Electromagnetic field. Electrodynamics. Maxwell theory --- Gravitation --- Nonrelativistic quantum mechanics --- Space and time --- Quantum dynamics --- Quantum mechanics --- Quantum physics --- Physics --- Mechanics --- Thermodynamics --- Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Ions --- Positrons --- Fields, Electromagnetic --- Magnetic fields --- Electric fields --- Constitution --- Electromagnetism. Ferromagnetism
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Celebrated for his brilliantly quirky insights into the physical world, Nobel laureate Richard Feynman also possessed an extraordinary talent for explaining difficult concepts to the general public. Here Feynman provides a classic and definitive introduction to QED (namely, quantum electrodynamics), that part of quantum field theory describing the interactions of light with charged particles. Using everyday language, spatial concepts, visualizations, and his renowned "Feynman diagrams" instead of advanced mathematics, Feynman clearly and humorously communicates both the substance and spirit of QED to the layperson. A. Zee's introduction places Feynman's book and his seminal contribution to QED in historical context and further highlights Feynman's uniquely appealing and illuminating style.
Quantum mechanics. Quantumfield theory --- Electromagnetism. Ferromagnetism --- Photons --- Electrons --- Quantum electrodynamics --- 535.14 --- #WSCH:AAS2 --- Electrodynamics, Quantum --- QED (Physics) --- Quantum field theory --- Schwinger action principle --- Light quantum --- Light --- Einstein-Podolsky-Rosen experiment --- Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Ions --- Positrons --- Quantum theory of light. Photons --- Constitution --- Electrons. --- Photons. --- Quantum electrodynamics. --- 535.14 Quantum theory of light. Photons --- #WNAT:didaktiek --- Quantum theory. --- Électrons. --- Électrodynamique quantique. --- Théorie quantique. --- SCIENCE / Physics / Quantum Theory.
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Experimental atomic and molecular physics --- Quantum chemistry --- fysicochemie --- Theoretical spectroscopy. Spectroscopic techniques --- Electrons --- -Quantum chemistry --- 539.1 --- Chemistry, Quantum --- Chemistry, Physical and theoretical --- Quantum theory --- Excited state chemistry --- Corpuscular theory of matter --- Atoms --- Leptons (Nuclear physics) --- Matter --- Particles (Nuclear physics) --- Cathode rays --- Ions --- Positrons --- Scattering --- Nuclear physics. Atomic physics. Molecular physics --- Constitution --- Quantum chemistry. --- Scattering. --- 539.1 Nuclear physics. Atomic physics. Molecular physics --- Electron-positron scattering --- Electron scattering --- Scattering (Physics)
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