Computational Chemistry Workbook 2e - Learning Through Examples
Learning Through Examples
2nd Edition
Will be published approx. 2030
Book
Paperback/Softback
250 pages
978-3-527-33488-9 (ISBN)
Description
The only text with a practical approach to theoretical chemistry and the fundamentals of computational chemistry, this book is universal in that it is not limited to a particular computer code or program.
The experienced authors have successfully used these labs for several courses and adopt here an excellent didactic approach, clearly explaining the underlying theory before providing practical examples for students to test on their own computers.
This edition is revised and updated with approximately 15% new content, and now includes several new problems as well as an augmented list of references to guide readers in finding material for further reading. An accompanying website contains the Linux software and all necessary programs for downloading.
Aimed at advanced undergraduate, graduate, advanced bachelor and masters students taking a physical chemistry, a computational chemistry or a theoretical chemistry course, as well as at university teachers designing teaching labs for these courses.
The experienced authors have successfully used these labs for several courses and adopt here an excellent didactic approach, clearly explaining the underlying theory before providing practical examples for students to test on their own computers.
This edition is revised and updated with approximately 15% new content, and now includes several new problems as well as an augmented list of references to guide readers in finding material for further reading. An accompanying website contains the Linux software and all necessary programs for downloading.
Aimed at advanced undergraduate, graduate, advanced bachelor and masters students taking a physical chemistry, a computational chemistry or a theoretical chemistry course, as well as at university teachers designing teaching labs for these courses.
More details
Language
English
Place of publication
Weinheim
Germany
Target group
Professional and scholarly
Dimensions
Height: 244 mm
Width: 170 mm
Thickness: 14 mm
Weight
530 gr
ISBN-13
978-3-527-33488-9 (9783527334889)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Previous edition
Thomas Heine | Jan-Ole Joswig | Achim Gelessus
Computational Chemistry Workbook
Learning Through Examples
Book
09/2009
Wiley-VCH
€45.90
Article exhausted; check for reprint
Person
Thomas Heine is Associate Professor of Theoretical Physics and Theoretical Materials Science at Jacobs University Bremen. He obtained his degrees from TU Clausthal and TU Dresden, Germany. After several postdoctoral stages in Canada, UK, Italy and Switzerland he worked as assistant at the department of Physical Chemistry at TU Dresden, where he designed the theoretical chemistry lab courses. Prof. Heine has authored approximately 100 scientific publications.
Jan-Ole Joswig studied chemistry at the Universities of Hamburg, Konstanz and Edinburgh and received his diploma in 1999. He obtained his PhD from the University of Saarland (Saarbrucken) in 2003. After his post-doc period at Helsinki University of Technology he is currently a research associate at Technical University Dresden. His main research interests are properties of semiconductor and metal clusters and nanoparticles, global geometry optimization and proton transport in fuel cells.
Achim Gelessus is the head of the Computational Laboratory for Analysis, Modeling and Visualization (CLAMV) at Jacobs University Bremen, Germany. He studied chemistry at BUGH Wuppertal, Germany and University of Sussex, UK. He obtained his PhD in Theoretical Chemistry from University Zurich, Switzerland. From 1998 until 2003 he worked as a scientific computing coordinator for the Theory Group at Max Planck Institute for Polymer Research in Mainz, Germany. His current main interest are scientific computing and computer simulations.
Jan-Ole Joswig studied chemistry at the Universities of Hamburg, Konstanz and Edinburgh and received his diploma in 1999. He obtained his PhD from the University of Saarland (Saarbrucken) in 2003. After his post-doc period at Helsinki University of Technology he is currently a research associate at Technical University Dresden. His main research interests are properties of semiconductor and metal clusters and nanoparticles, global geometry optimization and proton transport in fuel cells.
Achim Gelessus is the head of the Computational Laboratory for Analysis, Modeling and Visualization (CLAMV) at Jacobs University Bremen, Germany. He studied chemistry at BUGH Wuppertal, Germany and University of Sussex, UK. He obtained his PhD in Theoretical Chemistry from University Zurich, Switzerland. From 1998 until 2003 he worked as a scientific computing coordinator for the Theory Group at Max Planck Institute for Polymer Research in Mainz, Germany. His current main interest are scientific computing and computer simulations.
Content
INTRODUCTION
Basics of Computational Chemistry
Aim of this Book
How to use this Book
Structure of this Book
The Chapters
The Software
MOLECULAR COORDINATES AND SYMMETRY
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
VIBRATIONS OF DIATOMIC MOLECULES: THE HARMONIC APPROXIMATION
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
VIBRATIONS OF DIATOMIC MOLECULES: THE SCHRODINGER EQUATION
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
ATOMIC ORBITALS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
IONISATION POTENTIALS AND ELECTRON AFFINITIES OF ATOMS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
HUCKEL MOLECULAR ORBITAL THEORY: STABILITY OF CONJUGATED CARBON PI-SYSTEMS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
HUCKEL MOLECULAR ORBITAL THEORY: BOND ORDER, CHARGE ORDER, AND MOLECULAR ORBITALS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
GEOMETRY OPTIMIZATION OF A DIATOMIC MOLECULE
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
THE ELECTRON SPIN
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
VIBRATIONAL SPECTROSCOPY
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
VIBRATIONAL SPECTROSCOPY AND CHARACTER TABLES -
ADVANCED TOPICS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
IONISATION POTENTIAL AND ELECTRON AFFINITIES OF MOLECULES
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
THERMOCHEMISTRY
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
MOLECULAR DYNAMICS -
BASIC CONCEPTS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
MOLECULAR DYNAMICS AND BASIC THERMODYNAMICS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
MOLECULAR DYNAMICS -
SIMULATED ANNEALING
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
APPENDIX: THE COMPUTATIONAL CHEMISTRY SOFTWARE DELIVERED WITH THIS BOOK
Getting Started
A Brief Introduction to Linux
Character Tables for Chemically Important Point Groups
Computational Chemistry Software Delivered with this Book
Basics of Computational Chemistry
Aim of this Book
How to use this Book
Structure of this Book
The Chapters
The Software
MOLECULAR COORDINATES AND SYMMETRY
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
VIBRATIONS OF DIATOMIC MOLECULES: THE HARMONIC APPROXIMATION
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
VIBRATIONS OF DIATOMIC MOLECULES: THE SCHRODINGER EQUATION
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
ATOMIC ORBITALS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
IONISATION POTENTIALS AND ELECTRON AFFINITIES OF ATOMS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
HUCKEL MOLECULAR ORBITAL THEORY: STABILITY OF CONJUGATED CARBON PI-SYSTEMS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
HUCKEL MOLECULAR ORBITAL THEORY: BOND ORDER, CHARGE ORDER, AND MOLECULAR ORBITALS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
GEOMETRY OPTIMIZATION OF A DIATOMIC MOLECULE
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
THE ELECTRON SPIN
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
VIBRATIONAL SPECTROSCOPY
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
VIBRATIONAL SPECTROSCOPY AND CHARACTER TABLES -
ADVANCED TOPICS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
IONISATION POTENTIAL AND ELECTRON AFFINITIES OF MOLECULES
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
THERMOCHEMISTRY
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
MOLECULAR DYNAMICS -
BASIC CONCEPTS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
MOLECULAR DYNAMICS AND BASIC THERMODYNAMICS
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
MOLECULAR DYNAMICS -
SIMULATED ANNEALING
Aim
Theoretical Background
Demonstration
Problems
Review and Summary
APPENDIX: THE COMPUTATIONAL CHEMISTRY SOFTWARE DELIVERED WITH THIS BOOK
Getting Started
A Brief Introduction to Linux
Character Tables for Chemically Important Point Groups
Computational Chemistry Software Delivered with this Book