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The Systems Thinker – Dynamic Systems: Make Better Decisions and Find Lasting Solutions Using Scientific Analysis

معرفی کتاب «The Systems Thinker – Dynamic Systems: Make Better Decisions and Find Lasting Solutions Using Scientific Analysis» نوشتهٔ Albert Rutherford، منتشرشده توسط نشر ARB Publications در سال 2020. این کتاب در فرمت azw3، زبان انگلیسی ارائه شده است. «The Systems Thinker – Dynamic Systems: Make Better Decisions and Find Lasting Solutions Using Scientific Analysis» در دستهٔ ریاضیات قرار دارد.

Learn to be comfortable with change. Increase your tolerance for uncertainty. Chaos and unpredictability dominate our world- affecting even the smallest of events. We often cannot predict how seemingly insignificant actions will alter our lives. This may lead us into rash decisions driven by the urge to regain control and quickly fix problems. But poorly considered decisions often create more problems for us than they solve. If you can’t fight something, get to know it and use it to your advantage. This book is a primer on nonlinear system dynamics and chaos; how these forces shape our world and how to overcome their adverse effects. Reading this book will teach you to prepare for unpredictable events, and give you the tools to navigate the challenges of a chaotic world. The Systems Thinker – Dynamic Systems sheds light on why sometimes life sometimes unfolds counterintuitively to expectations, how small changes can lead to tremendously big ones over time. - Learn the difference between linear and nonlinear systems and their effect on your life. - Deepen your knowledge about the additivity and homogeneity principle. - How to use synergy and interference in real life? - What are feedback loops and how can they generate equilibrium? Get introduced to the world of chaos. - Detailed introduction to chaos theory and the butterfly effect. - Learn the importance of exponentials, power laws, long-tail distribution, phase transitions, bifurcation, and strange attractors. - Discover the world of fractals. Learn about the Raleigh-Benard instability, Metcalf’s Law, Edward Lorenz’s discovery of the Butterfly Effect, Benoit Mandelbrot’s concept of fractals, the Koch snowflake and others. Incorporate the concept of chaos and unpredictability into your life to –counterintuitively – find more peace and predictability. These days computer-generated fractal patterns are everywhere, from squiggly designs on computer art posters to illustrations in the most serious of physics journals. Interest continues to grow among scientists and, rather surprisingly, artists and designers. This book provides visual demonstrations of complicated and beautiful structures that can arise in systems, based on simple rules. It also presents papers on seemingly paradoxical combinations of randomness and structure in systems of mathematical, physical, biological, electrical, chemical, and artistic interest. Topics include: iteration, cellular automata, bifurcation maps, fractals, dynamical systems, patterns of nature created through simple rules, and aesthetic graphics drawn from the universe of mathematics and art.

Chaos and Fractals is divided into six parts: Geometry and Nature; Attractors; Cellular Automata, Gaskets, and Koch Curves; Mandelbrot, Julia and Other Complex Maps; Iterated Function Systems; and Computer Art.

Additionally, information on the latest practical applications of fractals and on the use of fractals in commercial products such as the antennas and reaction vessels is presented. In short, fractals are increasingly finding application in practical products where computer graphics and simulations are integral to the design process. Each of the six sections has an introduction by the editor including the latest research, references, and updates in the field. This book is enhanced with numerous color illustrations, a comprehensive index, and the many computer program examples encourage reader involvement.
These days computer-generated fractal patterns are everywhere, from squiggly designs on computer art posters to illustrations in the most serious of physics journals. Interest continues to grow among scientists and, rather surprisingly, artists and designers. This book provides visual demonstrations of complicated and beautiful structures that can arise in systems, based on simple rules. It also presents papers on seemingly paradoxical combinations of randomness and structure in systems of mathematical, physical, biological, electrical, chemical, and artistic interest. Topics include: iteration, cellular automata, bifurcation maps, fractals, dynamical systems, patterns of nature created through simple rules, and aesthetic graphics drawn from the universe of mathematics and art. Chaos and Fractals is divided into six parts: Geometry and Nature; Attractors; Cellular Automata, Gaskets, and Koch Curves; Mandelbrot, Julia and Other Complex Maps; Iterated Function Systems; and Computer Art. Additionally, information on the latest practical applications of fractals and on the use of fractals in commercial products such as the antennas and reaction vessels is presented. In short, fractals are increasingly finding application in practical products where computer graphics and simulations are integral to the design process. Each of the six sections has an introduction by the editor including the latest research, references, and updates in the field. This book is enhanced with numerous color illustrations, a comprehensive index, and the many computer program examples encourage reader involvement This book gathers peer-reviewed papers presented at the 18th International Conference on Geometry and Graphics (ICGG), held in Milan, Italy, on August 3-7, 2018. The spectrum of papers ranges from theoretical research to applications, including education, in several fields of science, technology and the arts. The ICGG 2018 mainly focused on the following topics and subtopics: Theoretical Graphics and Geometry (Geometry of Curves and Surfaces, Kinematic and Descriptive Geometry, Computer Aided Geometric Design), Applied Geometry and Graphics (Modeling of Objects, Phenomena and Processes, Applications of Geometry in Engineering, Art and Architecture, Computer Animation and Games, Graphic Simulation in Urban and Territorial Studies), Engineering Computer Graphics (Computer Aided Design and Drafting, Computational Geometry, Geometric and Solid Modeling, Image Synthesis, Pattern Recognition, Digital Image Processing) and Graphics Education (Education Technology Research, Multimedia Educational Software Development, E-learning, Virtual Reality, Educational Systems, Educational Software Development Tools, MOOCs). Given its breadth of coverage, the book introduces engineers, architects and designers interested in computer applications, graphics and geometry to the latest advances in the field, with a particular focus on science, the arts and mathematics education. The investigation of phenomena involving fractals has gone through a spectacular development in the last decade. Many physical, technological and biological processes have been shown to be related to and described by objects with non-integer dimensions. The physics of far-from-equilibrium growth phenomena represents one of the most important fields in which fractal geometry is widely applied. During the last couple of years considerable experimental, numerical and theoretical information has accumulated concerning such processes.This book, written by a well-known expert in the field, summarizes the basic concepts born in the studies of fractal growth and also presents some of the most important new results for more specialized readers. It also contains 15 beautiful color plates demonstrating the richness of the geometry of fractal patterns. Accordingly, it may serve as a textbook on the geometrical aspects of fractal growth and it treats this area in sufficient depth to make it useful as a reference book. No specific mathematical knowledge is required for reading this book which is intended to give a balanced account of the field.

Fractals and Chaos: An Illustrated Course provides you with a practical, elementary introduction to fractal geometry and chaotic dynamics-subjects that have attracted immense interest throughout the scientific and engineering disciplines. The book may be used in part or as a whole to form an introductory course in either or both subject areas. A prominent feature of the book is the use of many illustrations to convey the concepts required for comprehension of the subject. In addition, plenty of problems are provided to test understanding. Advanced mathematics is avoided in order to provide a concise treatment and speed the reader through the subject areas. The book can be used as a text for undergraduate courses or for self-study.

The aim of this textbook is to provide the reader with an elementary introduction to fractal geometry and chaotic dynamics: subjects which have attracted immense interest throughout the scientific and engineering disciplines. The book may be used in part or as a whole to form an introductory course in either or both subject areas. A prominent feature of the book is the use of many illustrations to convey the concepts required for comprehension of the subject. Plenty of problems are provided to test understanding. In addition, advanced mathematics is avoided in order to provide a concise treatment and speed the reader through the subject areas.The book can be used as a text for undergraduate courses or for self-study. Summarizes the basic concepts born in the studies of fractal growth and also presents some of the most important new results for more specialized readers. The book contains 15 colour plates demonstrating the richness of the geometry of fractal patterns. Designed to complement Vicsek's text on "Fractal Growth Phenomena", this software contains 12 programmes for demonstrating on IBM XT/AT and compatible personal computers how aggregation phenomena may lead to objects with non-integer dimensionality.
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