Verfügbarkeit: Quantum chemistry

Quantum chemistry:

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1. Verfasser:	Levine, Ira N. 1937- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Upper Saddle River, NJ [u.a.] Pearson Prentice Hall 2009
Ausgabe:	6. ed., Pearson internat. ed.
Schlagworte:	Chimie quantique Quantum chemistry Quantenchemie Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Pearson international edition
Beschreibung:	X, 751 S. graph. Darst.
ISBN:	9780132358507 0132358506

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adam_text	Contents PREFACE ix 1 THE SCHRÖDINGER EQUATION 1 1.1 Quantum Chemistry, 1 1.2 Historical Background of Quantum Mechanics, 2 1.3 The Uncertainty Principle^ 1.4 The Time-Dependent Schrödinger Equation, 8 1.5 The Time-Independent Schrödinger Equation, 12 1.6 Probability, 15 1.7 Complex Numbers, 17 1.8 Units, 19 1.9 Calculus, 19 1.10 Summary, 20 2 THE PARTICLE IN A BOX 23 2.1 Differential Equations, 23 2.2 Particle in a One-Dimensional Box, 24 2.3 The Free Particle in One Dimension, 30 2.4 Particle in a Rectangular Well, 31 2.5 Tunneling, 33 2.6 Summary, 34 3 OPERATORS 37 3.1 Operators, 37 3.2 Eigenfunctions and Eigenvalues, 41 3.3 Operators and Quantum Mechanics, 42 3.4 The Three-Dimensional, Many-Particle Schrödinger Equation, 48 3.5 The Particle in a Three-Dimensional Box, 51 3.6 Degeneracy, 54 3.7 Average Values, 56 3.8 Requirements for an Acceptable Wave Function, 59 3.9 Summary, 60 4 THE HARMONIC OSCILLATOR 65 4.1 Power-Series Solution of Differential Equations, 65 4.2 The One-Dimensional Harmonic Oscillator, 68 4.3 Vibration of Molecules, 77 4.4 Numerical Solution of the One-Dimensional Time-Independent Schrödinger Equation, 80 4.5 Summary, 91 iv Contents v 5 ANGULAR MOMENTUM 97 5.1 Simultaneous Specification of Several Properties, 97 5.2 Vectors, 100 5.3 Angular Momentum of a One-Particle System, 105 5.4 The Ladder-Operator Method for Angular Momentum, 117 5.5 Summary, 122 6 THE HYDROGEN ATOM 126 6.1 The One-Particle Central-Force Problem, 126 6.2 Noninteracting Particles and Separation of Variables, 128 6.3 Reduction of the Two-Particle Problem to Two One-Particle Problems, 130 6.4 The Two-Particle Rigid Rotor, 133 6.5 The Hydrogen Atom, 137 6.6 The Bound-State Hydrogen-Atom Wave Functions, 144 6.7 Hydrogenlike Orbitals, 153 6.8 The Zeeman Effect, 157 6.9 Numerical Solution of the Radial Schrödinger Equation, 159 6.10 Summary, 161 7 THEOREMS OF QUANTUM MECHANICS 166 7.1 Introduction, 166 7.2 Hermitian Operators, 167 7.3 Expansion in Terms of Eigenfunctions, 173 7.4 Eigenfunctions of Commuting Operators, 178 7.5 Parity, 181 7.6 Measurement and the Superposition of States, 184 7.7 Position Eigenfunctions, 189 7.8 The Postulates of Quantum Mechanics, 192 7.9 Measurement and the Interpretation of Quantum Mechanics, 196 7.10 Matrices, 200 7.11 Summary, 203 8 THE VARIATION METHOD 211 8.1 The Variation Theorem, 211 8.2 Extension of the Variation Method, 215 8.3 Determinants, 216 8.4 Simultaneous Linear Equations, 220 8.5 Linear Variation Functions, 223 8.6 Matrices, Eigenvalues, and Eigenvectors, 230 8.7 Summary, 238 9 PERTURBATION THEORY 248 9.1 Introduction, 248 9.2 Nondegenerate Perturbation Theory, 249 9.3 Perturbation Treatment of the Helium-Atom Ground State, 255 9.4 Variation Treatments of the Ground State of Helium, 258 9.5 Perturbation Theory for a Degenerate Energy Level, 261 vi Contents 9.6 Simplification of the Secular Equation, 265 9.7 Perturbation Treatment of the First Excited States of Helium, 267 9.8 Comparison of the Variation and Perturbation Methods, 273 9.9 Time-Dependent Perturbation Theory, 274 9.10 Interaction of Radiation and Matter, 276 9.11 Summary, 279 10 ELECTRON SPIN AND THE SPIN-STATISTICS THEOREM 283 10.1 Electron Spin, 283 10.2 Spin and the Hydrogen Atom, 286 10.3 The Spin-Statistics Theorem, 286 10.4 The Helium Atom, 290 10.5 The Pauli Exclusion Principle, 292 10.6 Slater Determinants, 296 10.7 Perturbation Treatment of the Lithium Ground State, 298 10.8 Variation Treatments of the Lithium Ground State, 299 10.9 Spin Magnetic Moment, 299 10.10 Ladder Operators for Electron Spin, 303 10.11 Summary, 305 11 MANY-ELECTRON ATOMS 309 11.1 The Hartree-Fock Self-Consistent-Field Method, 309 11.2 Orbitals and the Periodic Table, 316 11.3 Electron Correlation, 319 11.4 Addition of Angular Momenta, 322 11.5 Angular Momentum in Many-Electron Atoms, 327 11.6 Spin-Orbit Interaction, 338 11.7 The Atomic Hamiltonian, 341 11.8 The Condon-Slater Rules, 343 11.9 Summary, 346 12 MOLECULAR SYMMETRY 351 12.1 Symmetry Elements and Operations, 351 12.2 Symmetry Point Groups, 359 12.3 Summary, 365 13 ELECTRONIC STRUCTURE OF DIATOMIC MOLECULES 369 13.1 The Born-Oppenheimer Approximation, 369 13.2 Nuclear Motion in Diatomic Molecules, 373 13.3 Atomic Units, 378 13.4 The Hydrogen Molecule Ion, 379 13.5 Approximate Treatments of the HJ Ground Electronic State, 383 13.6 Molecular Orbitals for Hj Excited States, 392 13.7 MO Configurations of Homonuclear Diatomic Molecules, 397 13.8 Electronic Terms of Diatomic Molecules, 403 13.9 The Hydrogen Molecule, 409 13.10 The Valence-Bond Treatment of H2, 412 13.11 Comparison of the MO and VB Theories, 415 13.12 MO and VB Wave Functions for Homonuclear Diatomic Molecules, 417 Contents vii 13.13 Excited States of H2, 420 13.14 SCF Wave Functions for Diatomic Molecules, 422 13.15 MO Treatment of Heteronuclear Diatomic Molecules, 425 13.16 VB Treatment of Heteronuclear Diatomic Molecules, 428 13.17 The Valence-Electron Approximation, 429 13.18 Summary, 430 14 THEOREMS OF MOLECULAR QUANTUM MECHANICS 435 14.1 Electron Probability Density, 435 14.2 Dipole Moments, 438 14.3 The Hartree-Fock Method for Molecules, 440 14.4 The Virial Theorem, 450 14.5 The Virial Theorem and Chemical Bonding, 456 14.6 The Hellmann-Feynman Theorem, 460 14.7 The Electrostatic Theorem, 463 14.8 Summary, 468 15 MOLECULAR ELECTRONIC STRUCTURE 471 15.1 Ab Initio, Density-Functional, Semiempirical, and Molecular-Mechanics Methods, 471 15.2 Electronic Terms of Polyatomic Molecules, 472 15.3 The SCF MO Treatment of Polyatomic Molecules, 476 15.4 Basis Functions, 477 15.5 The SCF MO Treatment of H20, 485 15.6 Population Analysis and Bond Orders, 493 15.7 The Molecular Electrostatic Potential, Molecular Surfaces, and Atomic Charges, 496 15.8 Localized MOs, 501 15.9 The SCF MO Treatment of Methane, Ethane, and Ethylene, 508 15.10 Molecular Geometry, 518 15.11 Conformational Searching, 529 15.12 Molecular Vibrational Frequencies, 535 15.13 Thermodynamic Properties, 538 15.14 Ab Initio Quantum Chemistry Programs, 541 15.15 Performing Ab Initio Calculations, 542 15.16 Speeding Up Hartree-Fock Calculations, 547 15.17 Solvent Effects, 552 16 ELECTRON-CORRELATION METHODS 566 16.1 Configuration Interaction, 566 16.2 M0ller-Plesset (MP) Perturbation Theory, 578 16.3 The Coupled-Cluster Method, 585 16.4 Density-Functional Theory, 591 16.5 Composite Methods for Energy Calculations, 613 16.6 The Diffusion Quantum Monte Carlo Method, 615 16.7 Relativistic Effects, 616 16.8 Valence-Bond Treatment of Polyatomic Molecules, 618 16.9 The GVB, VBSCF, and BOVB Methods, 626 16.10 Chemical Reactions, 628 viii Contents 17 SEMIEMPIRICAL AND MOLECULAR-MECHANICS TREATMENTS OF MOLECULES 636 17.1 Semiempirical MO Treatments of Planar Conjugated Molecules, 636 17.2 The Hiickel MO Method, 637 17.3 The Pariser-Parr-Pople Method, 657 17.4 General Semiempirical MO and DFT Methods, 659 17.5 The Molecular-Mechanics Method, 672 17.6 Empirical and Semiempirical Treatments of Solvent Effects, 688 17.7 Chemical Reactions, 692 18 COMPARISONS OF METHODS 700 18.1 Molecular Geometry, 700 18.2 Energy Changes, 703 18.3 Other Properties, 711 18.4 Hydrogen Bonding, 713 18.5 Conclusion,?^ 18.6 The Future of Quantum Chemistry, 717 APPENDIX 719 BIBLIOGRAPHY 722 ANSWERS TO SELECTED PROBLEMS 725 INDEX 731
adam_txt	Contents PREFACE ix 1 THE SCHRÖDINGER EQUATION 1 1.1 Quantum Chemistry, 1 1.2 Historical Background of Quantum Mechanics, 2 1.3 The Uncertainty Principle^ 1.4 The Time-Dependent Schrödinger Equation, 8 1.5 The Time-Independent Schrödinger Equation, 12 1.6 Probability, 15 1.7 Complex Numbers, 17 1.8 Units, 19 1.9 Calculus, 19 1.10 Summary, 20 2 THE PARTICLE IN A BOX 23 2.1 Differential Equations, 23 2.2 Particle in a One-Dimensional Box, 24 2.3 The Free Particle in One Dimension, 30 2.4 Particle in a Rectangular Well, 31 2.5 Tunneling, 33 2.6 Summary, 34 3 OPERATORS 37 3.1 Operators, 37 3.2 Eigenfunctions and Eigenvalues, 41 3.3 Operators and Quantum Mechanics, 42 3.4 The Three-Dimensional, Many-Particle Schrödinger Equation, 48 3.5 The Particle in a Three-Dimensional Box, 51 3.6 Degeneracy, 54 3.7 Average Values, 56 3.8 Requirements for an Acceptable Wave Function, 59 3.9 Summary, 60 4 THE HARMONIC OSCILLATOR 65 4.1 Power-Series Solution of Differential Equations, 65 4.2 The One-Dimensional Harmonic Oscillator, 68 4.3 Vibration of Molecules, 77 4.4 Numerical Solution of the One-Dimensional Time-Independent Schrödinger Equation, 80 4.5 Summary, 91 iv Contents v 5 ANGULAR MOMENTUM 97 5.1 Simultaneous Specification of Several Properties, 97 5.2 Vectors, 100 5.3 Angular Momentum of a One-Particle System, 105 5.4 The Ladder-Operator Method for Angular Momentum, 117 5.5 Summary, 122 6 THE HYDROGEN ATOM 126 6.1 The One-Particle Central-Force Problem, 126 6.2 Noninteracting Particles and Separation of Variables, 128 6.3 Reduction of the Two-Particle Problem to Two One-Particle Problems, 130 6.4 The Two-Particle Rigid Rotor, 133 6.5 The Hydrogen Atom, 137 6.6 The Bound-State Hydrogen-Atom Wave Functions, 144 6.7 Hydrogenlike Orbitals, 153 6.8 The Zeeman Effect, 157 6.9 Numerical Solution of the Radial Schrödinger Equation, 159 6.10 Summary, 161 7 THEOREMS OF QUANTUM MECHANICS 166 7.1 Introduction, 166 7.2 Hermitian Operators, 167 7.3 Expansion in Terms of Eigenfunctions, 173 7.4 Eigenfunctions of Commuting Operators, 178 7.5 Parity, 181 7.6 Measurement and the Superposition of States, 184 7.7 Position Eigenfunctions, 189 7.8 The Postulates of Quantum Mechanics, 192 7.9 Measurement and the Interpretation of Quantum Mechanics, 196 7.10 Matrices, 200 7.11 Summary, 203 8 THE VARIATION METHOD 211 8.1 The Variation Theorem, 211 8.2 Extension of the Variation Method, 215 8.3 Determinants, 216 8.4 Simultaneous Linear Equations, 220 8.5 Linear Variation Functions, 223 8.6 Matrices, Eigenvalues, and Eigenvectors, 230 8.7 Summary, 238 9 PERTURBATION THEORY 248 9.1 Introduction, 248 9.2 Nondegenerate Perturbation Theory, 249 9.3 Perturbation Treatment of the Helium-Atom Ground State, 255 9.4 Variation Treatments of the Ground State of Helium, 258 9.5 Perturbation Theory for a Degenerate Energy Level, 261 vi Contents 9.6 Simplification of the Secular Equation, 265 9.7 Perturbation Treatment of the First Excited States of Helium, 267 9.8 Comparison of the Variation and Perturbation Methods, 273 9.9 Time-Dependent Perturbation Theory, 274 9.10 Interaction of Radiation and Matter, 276 9.11 Summary, 279 10 ELECTRON SPIN AND THE SPIN-STATISTICS THEOREM 283 10.1 Electron Spin, 283 10.2 Spin and the Hydrogen Atom, 286 10.3 The Spin-Statistics Theorem, 286 10.4 The Helium Atom, 290 10.5 The Pauli Exclusion Principle, 292 10.6 Slater Determinants, 296 10.7 Perturbation Treatment of the Lithium Ground State, 298 10.8 Variation Treatments of the Lithium Ground State, 299 10.9 Spin Magnetic Moment, 299 10.10 Ladder Operators for Electron Spin, 303 10.11 Summary, 305 11 MANY-ELECTRON ATOMS 309 11.1 The Hartree-Fock Self-Consistent-Field Method, 309 11.2 Orbitals and the Periodic Table, 316 11.3 Electron Correlation, 319 11.4 Addition of Angular Momenta, 322 11.5 Angular Momentum in Many-Electron Atoms, 327 11.6 Spin-Orbit Interaction, 338 11.7 The Atomic Hamiltonian, 341 11.8 The Condon-Slater Rules, 343 11.9 Summary, 346 12 MOLECULAR SYMMETRY 351 12.1 Symmetry Elements and Operations, 351 12.2 Symmetry Point Groups, 359 12.3 Summary, 365 13 ELECTRONIC STRUCTURE OF DIATOMIC MOLECULES 369 13.1 The Born-Oppenheimer Approximation, 369 13.2 Nuclear Motion in Diatomic Molecules, 373 13.3 Atomic Units, 378 13.4 The Hydrogen Molecule Ion, 379 13.5 Approximate Treatments of the HJ Ground Electronic State, 383 13.6 Molecular Orbitals for Hj Excited States, 392 13.7 MO Configurations of Homonuclear Diatomic Molecules, 397 13.8 Electronic Terms of Diatomic Molecules, 403 13.9 The Hydrogen Molecule, 409 13.10 The Valence-Bond Treatment of H2, 412 13.11 Comparison of the MO and VB Theories, 415 13.12 MO and VB Wave Functions for Homonuclear Diatomic Molecules, 417 Contents vii 13.13 Excited States of H2, 420 13.14 SCF Wave Functions for Diatomic Molecules, 422 13.15 MO Treatment of Heteronuclear Diatomic Molecules, 425 13.16 VB Treatment of Heteronuclear Diatomic Molecules, 428 13.17 The Valence-Electron Approximation, 429 13.18 Summary, 430 14 THEOREMS OF MOLECULAR QUANTUM MECHANICS 435 14.1 Electron Probability Density, 435 14.2 Dipole Moments, 438 14.3 The Hartree-Fock Method for Molecules, 440 14.4 The Virial Theorem, 450 14.5 The Virial Theorem and Chemical Bonding, 456 14.6 The Hellmann-Feynman Theorem, 460 14.7 The Electrostatic Theorem, 463 14.8 Summary, 468 15 MOLECULAR ELECTRONIC STRUCTURE 471 15.1 Ab Initio, Density-Functional, Semiempirical, and Molecular-Mechanics Methods, 471 15.2 Electronic Terms of Polyatomic Molecules, 472 15.3 The SCF MO Treatment of Polyatomic Molecules, 476 15.4 Basis Functions, 477 15.5 The SCF MO Treatment of H20, 485 15.6 Population Analysis and Bond Orders, 493 15.7 The Molecular Electrostatic Potential, Molecular Surfaces, and Atomic Charges, 496 15.8 Localized MOs, 501 15.9 The SCF MO Treatment of Methane, Ethane, and Ethylene, 508 15.10 Molecular Geometry, 518 15.11 Conformational Searching, 529 15.12 Molecular Vibrational Frequencies, 535 15.13 Thermodynamic Properties, 538 15.14 Ab Initio Quantum Chemistry Programs, 541 15.15 Performing Ab Initio Calculations, 542 15.16 Speeding Up Hartree-Fock Calculations, 547 15.17 Solvent Effects, 552 16 ELECTRON-CORRELATION METHODS 566 16.1 Configuration Interaction, 566 16.2 M0ller-Plesset (MP) Perturbation Theory, 578 16.3 The Coupled-Cluster Method, 585 16.4 Density-Functional Theory, 591 16.5 Composite Methods for Energy Calculations, 613 16.6 The Diffusion Quantum Monte Carlo Method, 615 16.7 Relativistic Effects, 616 16.8 Valence-Bond Treatment of Polyatomic Molecules, 618 16.9 The GVB, VBSCF, and BOVB Methods, 626 16.10 Chemical Reactions, 628 viii Contents 17 SEMIEMPIRICAL AND MOLECULAR-MECHANICS TREATMENTS OF MOLECULES 636 17.1 Semiempirical MO Treatments of Planar Conjugated Molecules, 636 17.2 The Hiickel MO Method, 637 17.3 The Pariser-Parr-Pople Method, 657 17.4 General Semiempirical MO and DFT Methods, 659 17.5 The Molecular-Mechanics Method, 672 17.6 Empirical and Semiempirical Treatments of Solvent Effects, 688 17.7 Chemical Reactions, 692 18 COMPARISONS OF METHODS 700 18.1 Molecular Geometry, 700 18.2 Energy Changes, 703 18.3 Other Properties, 711 18.4 Hydrogen Bonding, 713 18.5 Conclusion,?^ 18.6 The Future of Quantum Chemistry, 717 APPENDIX 719 BIBLIOGRAPHY 722 ANSWERS TO SELECTED PROBLEMS 725 INDEX 731
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spelling	Levine, Ira N. 1937- Verfasser (DE-588)13821204X aut Quantum chemistry Ira N. Levine 6. ed., Pearson internat. ed. Upper Saddle River, NJ [u.a.] Pearson Prentice Hall 2009 X, 751 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Pearson international edition Chimie quantique ram Quantum chemistry Quantenchemie (DE-588)4047979-1 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Quantenchemie (DE-588)4047979-1 s DE-604 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015663320&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Levine, Ira N. 1937- Quantum chemistry Chimie quantique ram Quantum chemistry Quantenchemie (DE-588)4047979-1 gnd
subject_GND	(DE-588)4047979-1 (DE-588)4123623-3
title	Quantum chemistry
title_auth	Quantum chemistry
title_exact_search	Quantum chemistry
title_exact_search_txtP	Quantum chemistry
title_full	Quantum chemistry Ira N. Levine
title_fullStr	Quantum chemistry Ira N. Levine
title_full_unstemmed	Quantum chemistry Ira N. Levine
title_short	Quantum chemistry
title_sort	quantum chemistry
topic	Chimie quantique ram Quantum chemistry Quantenchemie (DE-588)4047979-1 gnd
topic_facet	Chimie quantique Quantum chemistry Quantenchemie Lehrbuch
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015663320&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT levineiran quantumchemistry

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