Overview

This textbook does away with the classic, unimaginative approach and comes straight to the point with a bare minimum of mathematics -- emphasizing the understanding of concepts rather than presenting endless strings of formulae. It nonetheless covers all important aspects of computational chemistry, such as - vector space theory - quantum mechanics - approximation methods - theoretical models - and computational methods. Throughout the chapters, mathematics are differentiated by necessity for understanding - fundamental formulae, and all the others. All formulae are explained step by step without omission, but the non-vital ones are marked and can be skipped by those who do not relish complex mathematics. The reader will find the text a lucid and innovative introduction to theoretical and computational chemistry, with food for thought given at the end of each chapter in the shape of several questions that help develop understanding of the concepts. What the reader will not find in this book are condescending sentences such as, 'From (formula A) and (formula M) it is obvious that (formula Z).'

Full Product Details

Author:   Bernd Michael Rode (University of Innsbruck, Austria) ,  Thomas S. Hofer (University of Innsbruck, Austria) ,  Michael D. Kugler (University of Innsbruck, Austria)
Publisher:   Wiley-VCH Verlag GmbH
Imprint:   Blackwell Verlag GmbH
Dimensions:   Width: 17.30cm , Height: 1.50cm , Length: 24.10cm
Weight:   0.476kg
ISBN:  

9783527317738

ISBN 10:   3527317732
Pages:   195
Publication Date:   26 January 2007
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   To order  
Stock availability from the supplier is unknown. We will order it for you and ship this item to you once it is received by us.

Table of Contents

INTRODUCTION Theory and Models - Interpretation of Experimental Data Notations Vector Space and Function Space Dual Space and Hilbert Space The Probability Function Operators BASIC CONCEPTS OF VECTOR SPACE THEORY OF MATTER The Wave Equation as Probability Function Postulates of Quantum Mechanics The Schrodinger Equation Hermicity Exact Measurability and Eigenvalue Problems Eigenvalue Problems of Hermitian Operator The Eigenvalue Equation of the Hamiltonian Eigenvalue Spectrum CONCEQUENCES OF QUANTUM MECHANICS Geometrical Interpretation of Eigenvalue Equations in Vector Space Commutators and Uncertainty Relations Virtual Particles and Forces in Nature CHEMISTRY AND QUANTUM MECHANICS Eigenvalue Problem of Angular Momentum and 'Orbital' Concept Molecular Orbital and Valence Bond Models Spin - Antisymmetry Principle Virial Theorem Chemical Bond APPROXIMATION FOR MANY-ELECTRON SYSTEMS Non-relativistic Stationary Systems Adiabatic / Born-Oppenheimer Approximation Independent Particle Approximation Spin Orbitals and Slater Determinants Atomic and Molecular Orbitals: The LCAO-MO Approach Quantitative Molecular Orbital Calculations Canonical and Localised Orbitals and Chemical Model Concepts PERTURBATION THEORY IN QUANTUM CHEMISTRY Projections and Projectors Principles of Perturbation Theory Rayleigh-Schrodinger Perturbation Theory Application Examples GROUP THEORY IN THEORETICAL CHEMISTRY Definition of a Group Symmetry Groups Application Examples in Quantum Chemistry Applications in Spectroscopy METHODS IN COMPUTATIONAL QUANTUM CHEMISTRY ab initio Methods Semiempirical MO Methods Density Functional Methods FORCE FIELD METHODS AND MOLECULAR MODELLING Empirical Force Fields Molecular Modelling Programs Docking QSAR - Quantitative Activity - Structure Relationships STATISTICAL SIMULATIONS: MONTE CARLO AND MOLECULAR DYNAMICS METHODS Common Features Monte Carlo Simulations Molecular Dynamics Simulations Evaluation and Visualisation of Simulation Results Quantum Mechanical Simulations

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Author Information

Bernd Michael Rode is professor of theoretical and inorganic chemistry at the University of Innsbruck, Austria. He has taught theoretical chemistry at numerous universities in Asia, where he has also built up new computational chemistry institutions. He has authored nearly 400 scientific publications and obtained numerous honours and awards, among them three honorary doctoral degrees. His present research is focused on theory of liquids and solutions, but he also maintains an experimental group studying chemical evolution towards the origin of life. Thomas S. Hofer has graduated from a college of technology and obtained his M.Sc. degree in chemistry at the University of Innsbruck. Since 2005, he has been working as assistant professor in theoretical chemistry at the University of Innsbruck and will obtain his Ph.D. degree in this field in 2006. He has published 16 scientific articles, including two review articles. He has been awarded the Austrian nation-wide prize for outstanding studies. Michael Kugler obtained his secondary education in Tyrol and Upper Austria and is at present a graduate student of physics and chemistry at the University of Innsbruck.

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