Molecular Orbital Calculations Using Chemical Graph Theory

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Molecular Orbital Calculations Using Chemical Graph Theory

Molecular Orbital Calculations Using Chemical Graph Theory
Author :
Publisher : Springer Science & Business Media
Total Pages : 123
Release :
ISBN-10 : 9783642778940
ISBN-13 : 3642778941
Rating : 4/5 (941 Downloads)

Book Synopsis Molecular Orbital Calculations Using Chemical Graph Theory by : Jerry R. Dias

Download or read book Molecular Orbital Calculations Using Chemical Graph Theory written by Jerry R. Dias and published by Springer Science & Business Media. This book was released on 2012-12-06 with total page 123 pages. Available in PDF, EPUB and Kindle. Book excerpt: Professor John D. Roberts published a highly readable book on Molecular Orbital Calculations directed toward chemists in 1962. That timely book is the model for this book. The audience this book is directed toward are senior undergraduate and beginning graduate students as well as practicing bench chemists who have a desire to develop conceptual tools for understanding chemical phenomena. Although, ab initio and more advanced semi-empirical MO methods are regarded as being more reliable than HMO in an absolute sense, there is good evidence that HMO provides reliable relative answers particularly when comparing related molecular species. Thus, HMO can be used to rationalize electronic structure in 1t-systems, aromaticity, and the shape use HMO to gain insight of simple molecular orbitals. Experimentalists still into subtle electronic interactions for interpretation of UV and photoelectron spectra. Herein, it will be shown that one can use graph theory to streamline their HMO computational efforts and to arrive at answers quickly without the aid of a group theory or a computer program of which the experimentalist has no understanding. The merging of mathematical graph theory with chemical theory is the formalization of what most chemists do in a more or less intuitive mode. Chemists currently use graphical images to embody chemical information in compact form which can be transformed into algebraical sets. Chemical graph theory provides simple descriptive interpretations of complicated quantum mechanical calculations and is, thereby, in-itself-by-itself an important discipline of study.


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