Introduces the fundamentals of BASIC, FORTRAN and C++ language using the concepts of Chemistry. This book includes an account of various statements input/output, format, control (if - then - else, go to, do loops and more has been illustrated by various examples.
Intended specifically for practicing professionals and advanced students in chemistry and biochemistry, this invaluable book covers the full range of the computer applications in these fields, including numerical, nonnumerical, and graphics applications. New material includes multiple linear regression using MREG, principal-components analysis, Monte Carlo integration, parameterization of the force field, and molecular modeling software. Major areas covered include: * Error, Statistics, and the Floating-Point Number System * Curve Fitting * Multiple Linear Regression Analysis * Numerical Integration * Numerical Solution of Differential Equations * Matrix Methods and Linear Equation Systems * Random Numbers and Monte Carlo Simulation * Simplex Optimization * Chemical Structure Information Handling * Mathematical Graph Theory * Substructure Searching * Molecular Mechanics and Molecular Dynamics * Pattern Recognition * Artificial Intelligence and Expert Systems * Spectroscopic Library Searching and Structure Elucidation * Graphical Display of Data and of Molecules Whatever your area of research, this comprehensive, lucidly written book offers an indispensable resource of computer applications that will facilitate your work.
Computers have been applied to problems in chemistry and the chemical sciences since the dawn of the computer age; however, it is only in the past ten or fifteen years that we have seen the emergence of computational chemistry as a field of research in its own right. Its practitioners, computational chemists, are neither chemists who dabble in computing nor programmers who have an interest in chemistry, but computa tional scientists whose aim is to solve a wide range of chemical problems using modern computing machines. This book gives a broad overview of the methods and techniques employed by the computational chemist and of the wide range of problems to which he is applying them. It is divided into three parts. The first part records the basics of chemistry and of computational science that are essential to an understanding of the methods of computational chemistry. These methods are described in the second part of the book. In the third part, a survey is given of some areas in which the techniques of computational chemistry are being applied. As a result of the limited space available in a single volume, the areas covered are necessarily selective. Nevertheless, a sufficiently wide range of applications are described to provide the reader with a balanced overview of the many problems being attacked by computational studies in chemistry.
Computers have become an integral part of chemistry. Virtually all modern scientific instrumentation contains some form of computer and, indeed, the operation of many instruments has become so complex that it is impossible without some degree of computer control. It is vital for the modern student of chemistry to have at least a basic knowledge of computers, and the deeper that knowledge is, the better use will be made of the techniques available. Computers in Chemistry provides an excellent overview of computers and their use in chemistry, giving the student an insight into both the workings of a computer and the ways in which computer facilities can be effectively applied in the study of chemistry today. Topics covered include programming hardware, laboratory software, interfacing computers with experiments and presenting computed information.
This book is about the development of knowledge-based, and related, expert systems in chemistry and toxicology. It shows how computers can work with qualitative information where precise numerical methods are not satisfactory.
This e-book is a collection of exercises designed for students studying chemistry courses at a high school or undergraduate level. The e-book contains 24 chapters each containing various activities employing applications such as MS excel (spreadsheets) and Spartan (computational modeling). Each project is explained in a simple, easy-to-understand manner. The content within this book is suitable as a guide for both teachers and students and each chapter is supplemented with practice guidelines and exercises. Computer Based Projects for a Chemistry Curriculum therefore serves to bring computer based learning – a much needed addition in line with modern educational trends – to the chemistry classroom.
Applications Of Computer In Chemistry Are Now A Part Of Curriculum In B.Sc. And M.Sc. Classes Of Most Of The Universities. This Portion Has Been Introduced By U.G.C. In The Model Course Curriculum As Well. The Present Book Focuses On The Use Of This Electronic Machine In Dealing With The Problems Of Chemistry. Main Attention Has Been Focused On Development Of Programming Logic And Technique Particularly Dealing With The Problems Of Chemistry Which Should Be The Most Important Part Before Actually Writing Any Computer Program. Fundamentals Of Three Languages Viz. Basic, Fortran And C-Language, Have Been Included In This Book. Most Of The Programs In This Book Are Given In Basic Language As It Is Easy To Learn And Interactive Too. Ample Programs Are Also Given In Fortran And C-Language. It Is Has Been Tried To Include All The Programs In This Book With Their Outputs. Hope This Book Will Serve The Purpose And Will Prove To Be Useful For The Students Pursuing Studies In Chemistry At B.Sc. Or M.Sc. Level.ContentsIntroduction To Computers; Fundamental Concepts Of Programming; Ms-Dos And Its Use; Fundamentals Of Basic Programming; Fundamentals Of Fortran Programming; Fundamentals Of C-Language; Some Useful Programs In Chemistry; Etc.
Computational Chemistry Using the PC, Third Edition takes the reader from a basic mathematical foundation to beginning research-level calculations, avoiding expensive or elaborate software in favor of PC applications. Geared towards an advanced undergraduate or introductory graduate course, this Third Edition has revised and expanded coverage of molecular mechanics, molecular orbital theory, molecular quantum chemistry, and semi-empirical and ab initio molecular orbital approaches. With significant changes made to adjust for improved technology and increased computer literacy, Computational Chemistry Using the PC, Third Edition gives its readers the tools they need to translate theoretical principles into real computational problems, then proceed to a computed solution. Students of computational chemistry, as well as professionals interested in updating their skills in this fast-moving field, will find this book to be an invaluable resource.
This versatile introduction to the application of (personal) computers in chemical research activities can be used as a textbook practical manual reference book study guide for independent learning Mathematical solutions and sample programs are presented for a large number of common chemical and physical problems. Computer graphics, the use of PCs in modelling and simulation studies, and data processing are also treated. Although its approach is initially elementary, the book covers most of the mathematical methods needed in research. Practical examples from chemistry, chemical engineering, biology, and pharmacy illustrate these methods. Chemists will find in this comprehensive introduction all the knowledge they need to modify existing programs or to develop new ones to meet their needs. Special feature: Enclosed are two diskettes (in ASCII code) which contain all the programs given in the book in both BASIC and PASCAL. The diskettes are suitable for all IBM-compatible PCs.