#Polymath software gives constant pressure software
Software packages that support programming, such as MATLAB, are needed to implement algorithms which are required in graduate research and advanced mathematics, programming, control, and numerical analysis courses. Software like Excel is also used for the organization and presentation of information in tabular and graphical forms and for database management-related operations. Additionally, there is also a need to be able to use spreadsheet software, such as Excel, because of its wide use in business and industry. There is a need for a numerical problem solver, such as POLYMATH, that accepts the model equations close to their mathematical forms and provides their numerical solution with very minimal user intervention. We arrived at the conclusion that three types of software are needed.
Shortly after the publication of the first edition, we carried out several comparison studies in order to determine what types of software packages should be included in the "toolbox" of the engineering student and the practicing engineer that would enable the effective and efficient solution of practical problems. The first edition of this book provided examples to the use of CBPS in core chemical engineering subject areas using the POLYMATH software package. By the time the first edition of this book was published in 1999, it became evident that CBPS can be a very important, or possibly the most important, application of the computer in scientific and engineering education and in industrial practice. Since then the emphasis has gradually moved to computer-based (or computer-enhanced) problem solving or CBPS on desktop or notebook computers.
#Polymath software gives constant pressure code
Sometimes mainframe computers were utilized, which required source code programming. Prior to the introduction of the personal computers and mathematical software packages in the early 1980's, desktop calculations for engineering problem solving were mainly carried out with hand-held calculators. For professionals, it can be an invaluable reference book that also allows extensive self-study in problem solving using the most widely used software packages. It can serve as a textbook for students in conjunction with college- and university-level courses, and it can be a companion reference book for individual students. This book is intended for individuals who are interested in solving problems in chemical and biochemical engineering and in related fields by using mathematical software packages on personal computers. For advanced applications, unique software tools are provided for solving complex problems such as parameter estimation in dynamic systems and solution of constrained systems of algebraic equations. The book and a dedicated web site ( ) furnish all necessary problem information, software files, and additional enrichment materials.
Readers may choose to focus on one or more of these software packages or utilize another mathematical software package.
Basic to advanced problem solving is covered utilizing a novel integrated approach with three widely used mathematical software packages: POLYMATH, Excel, and MATLAB. Efficient and effective problem solving is introduced employing numerical methods for linear equations, nonlinear equations, ordinary and partial differential equations, linear and nonlinear regressions, and polynomial curve fitting. An equation-oriented approach that enables computer-based problem solving on personal computers is utilized. Problem solutions are clearly developed using fundamental principles to create mathematical models.
This book provides extensive problem-solving instruction and suggestions, numerous examples, and many complete and partial solutions in the main subject areas of chemical and biochemical engineering and related disciplines.
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