Computational materials science
an introduction
By June Gunn Lee
"Computational materials science" is published by Taylor & Francis in 2011 - Boca Raton, FL and the language of the book is English.
“Computational materials science” Metadata:
- Title: ➤ Computational materials science
- Author: June Gunn Lee
- Language: English
- Publisher: Taylor & Francis
- Publish Date: 2011
- Publish Location: Boca Raton, FL
“Computational materials science” Subjects and Themes:
- Subjects: ➤ TECHNOLOGY & ENGINEERING / Material Science - Materials - Data processing - Mathematical models - MATHEMATICS / Applied - SCIENCE / Chemistry / Physical & Theoretical - Materials, data processing - Molecular dynamics
Edition Specifications:
- Pagination: p. cm.
Edition Identifiers:
- The Open Library ID: OL25032766M - OL16152029W
- Online Computer Library Center (OCLC) ID: 776243329
- Library of Congress Control Number (LCCN): 2011032715
- ISBN-13: 9781439836163
- All ISBNs: 9781439836163
AI-generated Review of “Computational materials science”:
"Computational materials science" Description:
The Open Library:
"Preface No longer underestimated, computational science has emerged as a powerful partner to experimental and theoretical studies. Accelerated by the ever-growing power of computers and new computational methods, it is one of the fastest growing fields in science these days. Its predictive power in atomic and subatomic scales benefits all disciplines of science, and materials science is definitely one of them. Note that, for example, materials under extreme conditions such as high temperature or pressure, high radiation, on a very small scale, can be rather easily examined via the keyboard in computational materials science. Computational science has been a familiar subject in physics and chemistry, but in the materials field it was considered of secondary importance. It is now in the mainstream, and we have to catch up with the knowledge accumulated in the subject, which strongly involves physics and mathematics. Here, we are forced to deal with an obvious question: how much catch-up will be enough to cover the major topics and to perform computational works as materials researchers? Dealing with the entire field might be most desirable, but many certainly prefer to cover only the essential and necessary parts and would rather be involved in actual computational works. That is what this book is all about. As listed in the Further Readings sections in several chapters, a number of excellent and successful books are already available in this field. However, they are largely physics- or chemistry-oriented, full of theories, algorisms, and equations. It is quite difficult, if not impossible, for materials students to follow all those topics in detail"--
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