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Methods of Experimental Physics, Volume 3, Part B: Molecular Physics, Second Edition presents the basic principles of electron spin resonance spectrometers and the electron spin resonance spectroscopy. This four-chapter text addresses the concept of thermal equilibrium and relaxation. Some of the topics covered in the book are the features of nuclear quadrupole resonance spectrometers; basic principles of radio-frequency spectrometers; computer methods in magnetic resonance; components of electron spin resonance spectrometer systems; and the resonance condition. Other chapters deal with the i
Molecular theory. --- Molécules --- Molecules. --- Chemistry, Physical and theoretical --- Matter --- Constitution
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BIOCHEMICAL MOLECULES --- BIOPOLYMERS --- LIFE --- PREPARATION
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Statistical physics --- Electronics and optics of solids --- 539.196 --- Interaction of molecules: with atoms, with other molecules. Excitation and dissociation of molecules. Intermolecular forces --- 539.196 Interaction of molecules: with atoms, with other molecules. Excitation and dissociation of molecules. Intermolecular forces
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Molecular physics --- 539.196 --- Interaction of molecules: with atoms, with other molecules. Excitation and dissociation of molecules. Intermolecular forces --- 539.196 Interaction of molecules: with atoms, with other molecules. Excitation and dissociation of molecules. Intermolecular forces --- Collisions (Nuclear physics) --- Molecular theory --- Bombardment with particles --- Electron collisions --- Impact phenomena (Nuclear physics) --- Nuclear collisions --- Particle collisions (Nuclear physics) --- Particles (Nuclear physics) --- Collisions (Physics) --- Chemistry, Physical and theoretical --- Matter --- Collisions --- Constitution --- Collisions (Nuclear physics). --- Molecular theory. --- Quantum mechanics --- Scattering
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PHYSICAL CHEMISTRY --- MOLECULES --- NUCLEIC ACIDS --- VIBRATION --- BENZENE --- POLYMERS --- MECHANICS --- QUANTUM MECHANICS --- STATISTICAL
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Mass transfer --- Diffusion --- Molecules --- Transfert de masse --- Diffusion (Physique) --- Molécules --- Mass transport (Physics) --- Thermodynamics --- Transport theory --- Gases --- Liquids --- Physics --- Separation (Technology) --- Solution (Chemistry) --- Solutions, Solid --- Matter --- Packed towers --- Semiconductor doping --- Properties --- Molécules
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Atoms --- Molecules --- Lasers in physics --- Collisions (Nuclear physics) --- Congresses --- -Collisions (Nuclear physics) --- -Lasers in physics --- -Molecules --- -535 --- 539.1 --- Physics --- Chemistry, Physical and theoretical --- Matter --- Stereochemistry --- Optics --- Nuclear physics. Atomic physics. Molecular physics --- Constitution --- 539.1 Nuclear physics. Atomic physics. Molecular physics --- 535 Optics --- 535 --- Report --- Atoms - Congresses --- Molecules - Congresses --- Lasers in physics - Congresses --- Collisions (Nuclear physics) - Congresses
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Fysicochemical analysis in organic chemistry --- Chemical structure --- fysicochemie --- Molecular physics --- 541.65 --- 539.194 --- Molecular rotation --- #WSCH:AAS2 --- #WSCH:MODS --- #WSCH:FY14 --- Hindered rotation theory --- Internal rotation (Molecular) --- Molecules --- Rotation spectra --- Molecular dynamics --- Stereochemistry --- Relation of chemical structure to optical properties --- Internal mechanics of molecules. Energy relationships. Vibration and rotation in molecules. Electronic levels. Bonds. Resonance energies, potentials. Nuclear coupling. Polarizability etc. --- Internal rotation --- Molecular rotation. --- 539.194 Internal mechanics of molecules. Energy relationships. Vibration and rotation in molecules. Electronic levels. Bonds. Resonance energies, potentials. Nuclear coupling. Polarizability etc. --- 541.65 Relation of chemical structure to optical properties --- Internal mechanics of molecules. Energy relationships. Vibration and rotation in molecules. Electronic levels. Bonds. Resonance energies, potentials. Nuclear coupling. Polarizability etc
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Quantum chemistry --- fysicochemie --- Macromolecules --- Organic reaction mechanisms and kinetics --- Conservation of orbital symmetry --- Programmed instruction --- 539.193 --- 541.124:547 --- -#WSCH:LOSH --- Hoffmann-Woodward rule --- Orbital symmetry, Conservation of --- Woodward-Hoffmann rule --- Chemical reaction, Conditions and laws of --- Molecular orbitals --- Physical organic chemistry --- Stereochemistry --- Symmetry (Physics) --- General properties. Configuration and geometry of molecules. Bond lengths and angles in molecules. Moments etc. --- Limits of reactions-:-Organic chemistry --- 541.124:547 Chemical dynamics in general. Reaction mechanism in general-:-Organic chemistry --- 541.124:547 Limits of reactions-:-Organic chemistry --- Chemical dynamics in general. Reaction mechanism in general-:-Organic chemistry --- 539.193 General properties. Configuration and geometry of molecules. Bond lengths and angles in molecules. Moments etc. --- #WSCH:LOSH --- General properties. Configuration and geometry of molecules. Bond lengths and angles in molecules. Moments etc --- Molecular orbitals. --- Conservation of orbital symmetry - Programmed instruction --- Symmetry (physics)
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