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Chemical bonds --- Valence (Theoretical chemistry) --- Molecular structure --- Liaisons chimiques --- Valence (Chimie théorique) --- Structure moléculaire
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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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Theoretical spectroscopy. Spectroscopic techniques --- fysicochemie --- Molecular physics --- Moleculair spectrum --- Molecular spectra --- Spectre moleculaire --- Molecules --- Spectrum, Molecular --- Absorption spectra --- Mass spectrometry --- Molecular spectroscopy --- Nuclear spectroscopy --- Raman spectroscopy --- Spectrum analysis --- Spectra --- Molecular spectra.
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Experimental atomic and molecular physics --- Theoretical spectroscopy. Spectroscopic techniques --- Chemical structure --- fysicochemie --- Vibrational spectra --- Spectre de vibration --- 543.4 --- #WSCH:FY14 --- Spectrum, Vibrational --- Vibration spectra --- Molecular spectra --- Molecular spectroscopy --- Optical methods of analysis --- 543.4 Optical methods of analysis --- Vibrational --- SPECTROSCOPY --- LASERS --- Monograph --- Spectrum analysis. --- Lasers. --- Light amplification by stimulated emission of radiation --- Masers, Optical --- Optical masers --- Light amplifiers --- Light sources --- Optoelectronic devices --- Nonlinear optics --- Optical parametric oscillators --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectroscopy --- Chemistry, Analytic --- Interferometry --- Optics --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Qualitative --- Spectrometry
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Theory and experiment in chemistry today provide a wealth of data, but such data have no meaning unless they are correctly interpreted by sound and transparent physical models. Linus Pauling was a grandmaster in the modelling of molecular properties. Indeed, many of his models have served chemistry for decades and that has been his lasting legacy for chemists all over the world. The aim of this book is to put such simple models into the language of modern quantum chemistry, thus providing a deeper justification for many of Pauling's ideas and concepts. However, it should be stressed that ma
Chemical bonds. Valence --- fysicochemie --- Chemical bonds. --- Molecules --- Bonds, Chemical --- Chemical structure --- Chemistry, Physical and theoretical --- Overlap integral --- Quantum chemistry --- Valence (Theoretical chemistry) --- Mathematical models.
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Theory and experiment in chemistry today provide a wealth of data, but such data have no meaning unless they are correctly interpreted by sound and transparent physical models. Linus Pauling was a grandmaster in the modelling of molecular properties. Indeed, many of his models have served chemistry for decades and that has been his lasting legacy for chemists all over the world. The aim of this book is to put such simple models into the language of modern quantum chemistry, thus providing a deeper justification for many of Pauling's ideas and concepts. However, it should be stressed that many contributions to this work, written by some of the world's most prominent theoretical chemists, do not merely follow Pauling's footprints. By taking his example, they made bold leaps forward to overcome the limitations of the old models, thereby opening new scientific vistas. This book is an important contribution to the chemical literature. It is an almost obligatory textbook for postgraduate students and postdoctoral researchers in physical chemistry, chemical physics and advanced physical organic chemistry.
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