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Molecular orbital theory --- Quantum mechanics --- Molecular orbitals. --- Molecular orbitals
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This book covers different aspects of Inorganic Chemistry in 10 chapters with up-to-date coverage. Some topics include VSEPR theory, delocalized p-bonding in polyatomic molecules, metal clusters and their bonding, stability constants of metal complexes, magnetochemistry, mechanism of inorganic reactions, and molecular orbital (MO) approach of bonding in transition metals. Safe and economical inorganic experiments at UG Levels is also presented.
Chemistry, Inorganic --- Inorganic Chemistry. --- Magnetochemistry. --- Metal Complexes. --- Molecular Orbital Theory. --- VSPER Theory.
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Crystal-field theory. --- Eigenvalue. --- Group theory. --- Molecular vibrations. --- Molecular-orbital theory. --- Orbitals. --- Point groups. --- Selection rules. --- Spectra. --- Symmetry (Physics).
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Crystallographic symmetry. --- Determinants. --- Group theory. --- Hybrid orbitals. --- Ligand field theory. --- Molecular orbital theory. --- Molecular symmetry. --- Molecular theory. --- Molecular vibrations. --- Quantum mechanics. --- Resonance integral.
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Crystallographic symmetry. --- Determinants. --- Group theory. --- Hybrid orbitals. --- Ligand field theory. --- Molecular orbital theory. --- Molecular symmetry. --- Molecular theory. --- Molecular vibrations. --- Quantum mechanics. --- Resonance integral.
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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.
Crystallographic symmetry. --- Determinants. --- Group theory. --- Hybrid orbitals. --- Ligand field theory. --- Molecular orbital theory. --- Molecular symmetry. --- Molecular theory. --- Molecular vibrations. --- Quantum mechanics. --- Resonance integral.
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Chemistry of complexes --- Chemical thermodynamics --- fysicochemie --- Metals and their compounds --- Thermochemistry --- Complex compounds --- Transition metal complexes --- 541.11 --- 661.87 --- 541.49 --- #WSCH:FYS3 --- Metal complexes --- Transition metal compounds --- Chemistry, Physical and theoretical --- Thermodynamics --- Heat --- Complexes (Chemistry) --- Compounds, Complex --- Transition metal compounds. Manganese compounds. Iron group compounds --- Complex compounds. Complex chemistry --- Complex compounds. --- Thermochemistry. --- Transition metal complexes. --- Aqueous solution --- Bonding --- Calorimetry --- Enthalpies --- Ligand field theory --- Molecular orbital theory --- Aqueous solution. --- Bonding. --- Calorimetry. --- Enthalpies. --- Ligand field theory. --- Molecular orbital theory. --- 541.49 Complex compounds. Complex chemistry --- 661.87 Transition metal compounds. Manganese compounds. Iron group compounds --- 541.11 Thermochemistry
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Fluorescence --- Phosphorescence --- Spectrum analysis --- 535.371 --- 535.373 --- #WSCH:AAS1 --- #WSCH:MODS --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectroscopy --- Chemistry, Analytic --- Interferometry --- Optics --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Afterglow (Physics) --- Luminescence --- Radioactivity --- Fluorescence in general --- Phosphorescence in general. Phosphors. Duration of phosphorescence --- Qualitative --- Fluorescence. --- Phosphorescence. --- Spectrum analysis. --- Aggregation --- Coupling --- Emission --- Excited states --- Heavy atom --- Intersystem crossing --- Molecular orbital theory --- Perturbation --- Photochemistry --- Radiationless process --- Solvent effects --- Substitution --- Transitions --- Aggregation. --- Coupling. --- Emission. --- Excited states. --- Heavy atom. --- Intersystem crossing. --- Molecular orbital theory. --- Perturbation. --- Photochemistry. --- Radiationless process. --- Solvent effects. --- Substitution. --- Transitions. --- 535.373 Phosphorescence in general. Phosphors. Duration of phosphorescence --- 535.371 Fluorescence in general
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One of the major outstanding questions about black holes is whether they remain stable when subject to small perturbations. An affirmative answer to this question would provide strong theoretical support for the physical reality of black holes. This book takes an important step toward solving the fundamental black hole stability problem in general relativity by establishing the stability of nonrotating black holes - or Schwarzschild spacetimes - under so-called polarized perturbations.
Perturbation (Mathematics) --- Schwarzschild black holes. --- Static black holes --- Black holes (Astronomy) --- Perturbation equations --- Perturbation theory --- Approximation theory --- Dynamics --- Functional analysis --- Mathematical physics --- Perturbation (Astronomy) --- Celestial mechanics --- Bianchi identities. --- Hawking mass. --- Kerr metric. --- Morawetz estimates. --- Reege-Wheeler equations. --- Ricci coefficients. --- Theorem M0. --- asymptotic stability. --- cosmic censorship. --- curvature components. --- decay estimates. --- extreme curvature components. --- general covariance. --- general null frame transformations. --- general theory of relativity. --- geometric analysis. --- invariant quantities. --- mathematical physics, differential geometry. --- molecular orbital theory. --- null structure. --- partial differential equations. --- polarized symmetry. --- space-time.
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