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Physicochemistry --- fysicochemie --- Solution (Chemistry) --- Water --- Molecular theory --- Solutions (Chimie) --- Eau --- Théorie moléculaire --- Théorie moléculaire
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Chemistry --- Catalysis --- Molecular theory --- Catalyse --- Théorie moléculaire --- Periodicals. --- Periodicals --- Périodiques --- Théorie moléculaire --- Périodiques. --- #TS:WBIB --- General and Others --- Kinetics --- Chemistry. --- Kinetics. --- katalysatoren
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Chemistry, Physical and theoretical. --- Chimie physique et théorique. --- Cinétique chimique. --- Liaisons chimiques. --- Théorie moléculaire. --- Thermochimie. --- Équilibre chimique. --- Électrolytes --- Chimie physique et théorique --- Cinétique chimique --- Liaisons chimiques --- Théorie moléculaire --- Thermochimie --- Équilibre chimique --- Chimie physique et théorique --- Cinétique chimique --- Théorie moléculaire --- Équilibre chimique --- Électrolytes
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Chemical structure --- fysicochemie --- Molecular theory --- Molecular Structure --- Théorie moléculaire --- Periodicals --- periodicals. --- Périodiques --- Théorie moléculaire --- Molecuulfysica. --- Périodiques. --- 54 --- Chemistry. Mineralogical sciences --- Chemistry --- General and Others --- Biochemistry --- Life Sciences --- Chemistry. --- Biochemistry. --- Life Sciences. --- 54 Chemistry. Mineralogical sciences --- Chemistry, Physical. --- Molécules. Structure. (Revue) --- Molecuulbouw. (Tijdschrift) --- 54 Chemie. Kristallografie. Mineralogie --- Chemie. Kristallografie. Mineralogie --- Molecular theory - Periodicals --- Chemistry, Physical
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"Heilbronner and Dunitz are both professors of chemistry. Although their book is aimed primarily at scientists, the authors hope it will also appeal to scientists in general, and, indeed, to laymen with an interest in the development of science from its cloudy beginnings to its pervasive influence in modern society. Rather than going into the formal mathematical background, the authors describe how symmetry concepts inherited from the early Greek philosophers began to enter scientific thought. In chemistry, the main impact has been on the development of the molecular hypothesis. Once it became recognized that molecules were just more or less stable arrangements of atoms in space, symmetry concepts began to play an ever increasing role in chemical science - not only in specialist areas such as spectroscopy, crystallography, and theoretical chemistry, but also in the everyday activities of the practical synthetic chemist. Today, chemistry teaching has adapted itself to some extent to this situation. Chemistry students are now often introduced to symmetry concepts at the very beginning of their studies; older chemists may be at a disadvantage in this respect. If they feel that their encounter with symmetry concepts during their student days was inadequate, the present book may help to fill the deficit."--BOOK JACKET.
Chemistry --- Symmetry (Physics) --- Chimie --- Symétrie (Physique) --- History --- Histoire --- 548.12 --- #WSCH:AAS2 --- #WSCH:MACV --- Theory of symmetry. Theory of original forms in general --- History. --- Symmetry (Physics). --- 548.12 Theory of symmetry. Theory of original forms in general --- fysicochemie --- Stereochemistry --- Symétrie (Physique) --- Symmetry. --- Molecular theory. --- Symétrie. --- Symétrie (physique) --- Symétrie moléculaire --- Théorie moléculaire. --- Histoire. --- Symétrie. --- Symétrie (physique) --- Symétrie moléculaire --- Théorie moléculaire.
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Symmetry (Physics) --- Molecular theory --- 541.1 --- 541.5 --- 548.12 --- #wbib:dd.Prof.H.Bosmans --- Invariance principles (Physics) --- Symmetry (Chemistry) --- Conservation laws (Physics) --- Physics --- Chemistry, Physical and theoretical --- Matter --- Physical chemistry --- Valencies. Bonds. Affinity --- Theory of symmetry. Theory of original forms in general --- Constitution --- Molecular theory. --- Symmetry (Physics). --- 548.12 Theory of symmetry. Theory of original forms in general --- 541.5 Valencies. Bonds. Affinity --- 541.1 Physical chemistry --- Théorie moléculaire --- Symétrie (Physique) --- Théorie moléculaire --- Symétrie (Physique) --- Quantum chemistry --- Physicochemistry --- fysicochemie --- #WSCH:MACV --- Symmetry (physics)
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nuclear physics --- fysicochemie --- Organic spectroscopy --- Nuclear physics --- Magnetism. --- Nuclear magnetic resonance --- Physics. --- Health Sciences --- Physics --- Clinical Medicine --- General and Others --- Magnetism --- Magnetic Resonance Spectroscopy. --- In Vivo NMR Spectroscopy --- MR Spectroscopy --- Magnetic Resonance --- NMR Spectroscopy --- NMR Spectroscopy, In Vivo --- Nuclear Magnetic Resonance --- Spectroscopy, Magnetic Resonance --- Spectroscopy, NMR --- Spectroscopy, Nuclear Magnetic Resonance --- Magnetic Resonance Spectroscopies --- Magnetic Resonance, Nuclear --- NMR Spectroscopies --- Resonance Spectroscopy, Magnetic --- Resonance, Magnetic --- Resonance, Nuclear Magnetic --- Spectroscopies, NMR --- Spectroscopy, MR --- Magnetic Resonance Imaging --- Periodicals --- Biochemistry --- Biology --- Magnetic Resonance Spectroscopy --- Résonance magnétique nucléaire --- methods --- periodicals --- periodicals. --- Périodiques --- EJBIOMO EJCHIMI EJPHYSI ELSEVIER-E EPUB-ALPHA-J EPUB-PER-FT --- Résonance magnétique nucléaire --- Théorie moléculaire --- Périodiques
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Retains the easy-to-read format and informal flavor of the previous editions, and includes new material on the symmetric properties of extended arrays (crystals), projection operators, LCAO molecular orbitals, and electron counting rules. Also contains many new exercises and illustrations.
Quantum chemistry --- fysicochemie --- Group theory --- Molecular theory --- Groupes, Théorie des --- Théorie moléculaire --- Molecular theory. --- 548.12 --- 512.54 --- 541.6 --- #WSCH:AAS2 --- Chemistry, Physical and theoretical --- Matter --- Groups, Theory of --- Substitutions (Mathematics) --- Algebra --- Theory of symmetry. Theory of original forms in general --- Groups. Group theory --- Chemical structure in general. Chemical structure in relation to properties of substances. Chemistry of high polymers --- Constitution --- Group theory. --- Theoretische chemie --- Chemistry --- Use of --- Groups (Mathematics) --- Crystallographic symmetry --- Determinants --- Hybrid orbitals --- Ligand field theory --- Molecular orbital theory --- Molecular symmetry --- Molecular vibrations --- Quantum mechanics --- Resonance integral --- 541.6 Chemical structure in general. Chemical structure in relation to properties of substances. Chemistry of high polymers --- 512.54 Groups. Group theory --- 548.12 Theory of symmetry. Theory of original forms in general --- Crystallographic symmetry. --- Determinants. --- Hybrid orbitals. --- Ligand field theory. --- Molecular orbital theory. --- Molecular symmetry. --- Molecular vibrations. --- Quantum mechanics. --- Resonance integral. --- Théorie des groupes --- Théorie des groupes --- Théorie moléculaire --- Molecular toxicology. --- Symmetry (Physics) --- Ligands. --- Molecular orbitals. --- Molecular structure. --- Crystallography, Mathematical. --- Symétrie (physique) --- Orbitales moléculaires. --- Théorie moléculaire. --- Structure moléculaire --- Chimie --- Groupes, Théorie des. --- Cristallographie mathématique. --- Mathematics. --- Mathématiques. --- Symmetry group --- Symétrie (physique) --- Orbitales moléculaires. --- Théorie moléculaire. --- Structure moléculaire --- Groupes, Théorie des. --- Cristallographie mathématique. --- Mathématiques.
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