
The chemist's approach to the understanding of matter and its chemical transformations is to take a microscopic view, connecting experimental observation with the properties of the constituent molecules. Atoms and sub-atomic particles do not obey the classical laws of mechanics but conform rather to the laws of quantum mechanics. Quantum mechanics is thus of central importance in chemistry. In order to understand the behavior of molecules and their constituent particles it is necessary to have a thorough grounding in the principles and applications of quantum mechanics. Quantum Mechanics 2: The Toolkit provides a toolkit for applying quantum mechanics to chemical problems, introducing more advanced approaches using approximate methods. It describes areas of chemistry where quantum mechanics is important, and shows how quantum mechanics can be applied to chemical problems.
This volume investigates the practical application of quantum mechanical principles to chemical problems through the use of advanced approximate methods. Nicholas Green, an expert in physical chemistry, provides a structured framework for students and researchers to bridge the gap between abstract quantum theory and observable chemical phenomena. The text serves as a technical manual for those requiring a deeper understanding of how sub-atomic behavior dictates molecular transformations.
What You Will Find
Experts and educators frequently identify this text as a standard reference for undergraduate chemistry students seeking to master the mathematical rigors of quantum theory. Readers often note the high density of the prose, which requires a solid foundation in calculus and basic physical chemistry to fully comprehend the presented methodologies.
Page Count:
96
Publication Date:
1998-12-24
Publisher:
Oxford University Press
ISBN-10:
0198502273
ISBN-13:
9780198502272
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