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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.
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.
The field of Chemical Engineering and its link to computer science is in constant evolution and new engineers have a variety of tools at their disposal to tackle their everyday problems. Introduction to Software for Chemical Engineers, Second Edition provides a quick guide to the use of various computer packages for chemical engineering applications. It covers a range of software applications from Excel and general mathematical packages such as MATLAB and MathCAD to process simulators, CHEMCAD and ASPEN, equation-based modeling languages, gProms, optimization software such as GAMS and AIMS, and specialized software like CFD or DEM codes. The different packages are introduced and applied to solve typical problems in fluid mechanics, heat and mass transfer, mass and energy balances, unit operations, reactor engineering, process and equipment design and control. This new edition offers a wider view of packages including open source software such as R, Python and Julia. It also includes complete examples in ASPEN Plus, adds ANSYS Fluent to CFD codes, Lingo to the optimization packages, and discusses Engineering Equation Solver. It offers a global idea of the capabilities of the software used in the chemical engineering field and provides examples for solving real-world problems. Written by leading experts, this book is a must-have reference for chemical engineers looking to grow in their careers through the use of new and improving computer software. Its user-friendly approach to simulation and optimization as well as its example-based presentation of the software, makes it a perfect teaching tool for both undergraduate and master levels.
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.
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.
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.
Chemistry and chemical engineering have changed significantly in the last decade. They have broadened their scopeâ€"into biology, nanotechnology, materials science, computation, and advanced methods of process systems engineering and controlâ€"so much that the programs in most chemistry and chemical engineering departments now barely resemble the classical notion of chemistry. Beyond the Molecular Frontier brings together research, discovery, and invention across the entire spectrum of the chemical sciencesâ€"from fundamental, molecular-level chemistry to large-scale chemical processing technology. This reflects the way the field has evolved, the synergy at universities between research and education in chemistry and chemical engineering, and the way chemists and chemical engineers work together in industry. The astonishing developments in science and engineering during the 20th century have made it possible to dream of new goals that might previously have been considered unthinkable. This book identifies the key opportunities and challenges for the chemical sciences, from basic research to societal needs and from terrorism defense to environmental protection, and it looks at the ways in which chemists and chemical engineers can work together to contribute to an improved future.
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.
"Sponsored by the ACS Division of Chemical Education."
Computational methods are rapidly becoming major tools of theoretical, pharmaceutical, materials, and biological chemists. Accordingly, the mathematical models and numerical analysis that underlie these methods have an increasingly important and direct role to play in the progress of many areas of chemistry. This book explores the research interface between computational chemistry and the mathematical sciences. In language that is aimed at non-specialists, it documents some prominent examples of past successful cross-fertilizations between the fields and explores the mathematical research opportunities in a broad cross-section of chemical research frontiers. It also discusses cultural differences between the two fields and makes recommendations for overcoming those differences and generally promoting this interdisciplinary work.