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 (4.0 / 5.0)
In this fascinating book, Gregg Braden merges the modern discoveries of nature’s patterns (fractals) with the ancient view of a cyclic universe. The result is a powerful model of time—fractal time—and a realistic window into what we can expect for the mysterious year 2012 . . . and beyond. Applying fractal time to the history of the world and life, he proposes that everything from the war and peace between nations to the patterns of human relationships mirror the returning cycles of our past. As each cycle repeats, it carries a more powerful, amplified version of itself. The key: If you know where to look in the past, you know what to expect when the same conditions return in the present and future. For the first time in print, the Time Code Calculator gives us the tool to do just that! Through easy-to-understand science and step-by-step instructions, discover for yourself: · How the conditions for 2012 have occurred in the past, and what we can expect when they repeat! · The “hot dates” that hold the greatest threats of war, and the greatest opportunities for peace! · How Earth’s location in space triggers cycles of spiritual growth for humans! · Your personal time codes for the key events of business, relationships, and change in your life! · How each cycle carries a window of opportunity—a choice point—that allows us to select a new outcome for the returning pattern! · What the 1999 ice cores from Antarctica reveal about past cycles of climate, global warming, Earth’s protective magnetic fields, and what these things mean for us today! In a powerful yet comprehensible style, Gregg gives us a way to make sense of the rapid, and often dramatic, change of today’s world. It is these understandings that guide us away from the destructive choices we’ve made in the past. They also show the way to the greatest possibilities of our lives. Gregg suggests that if we can see time from this perspective, the past reveals the great secret of our moment in history and what we can expect as we approach December 21, 2012!
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$13.99 |
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 (3.5 / 5.0) From the inventor/founder of fractal geometry, the award-winning book that turns modern financial theory on its head
Mathematical superstar and inventor of fractal geometry, Benoit Mandelbrot, has spent the past forty years studying the underlying mathematics of space and natural patterns. What many of his followers don't realize is that he has also been watching patterns of market change. In The (Mis)Behavior of Markets, Mandelbrot joins with science journalist and former Wall Street Journal editor Richard L. Hudson to reveal what a fractal view of the world of finance looks like. The result is a revolutionary reevaluation of the standard tools and models of modern financial theory. Markets, we learn, are far riskier than we have wanted to believe. From the gyrations of IBM's stock price and the Dow, to cotton trading, and the dollar-Euro exchange rate--Mandelbrot shows that the world of finance can be understood in more accurate, and volatile, terms than the tired theories of yesteryear. The ability to simplify the complex has made Mandelbrot one of the century's most influential mathematicians. With The (Mis)Behavior of Markets, he puts the tools of higher mathematics into the hands of every person involved with markets, from financial analysts to economists to 401(k) holders. Markets will never be seen as "safe bets" again.
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$5.99 |
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 (5.0 / 5.0) Intriguing & beautiful world of fractals where art & science merge into a myriad of colors, forms, & patterns. Images created on computers are manipulated mathematical formulas to produce these collages of fractal shapes & textures.
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$12.63 |
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(4.0 / 5.0) Clouds are not spheres, mountains are not cones, and lightening does not travel in a straight line. The complexity of nature's shapes differs in kind, not merely degree, from that of the shapes of ordinary geometry, the geometry of fractal shapes. Now that the field has expanded greatly with many active researchers, Mandelbrot presents the definitive overview of the origins of his ideas and their new applications. The Fractal Geometry of Nature is based on his highly acclaimed earlier work, but has much broader and deeper coverage and more extensive illustrations.
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$32.06 |
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(3.5 / 5.0) Master the fundamentals of discrete mathematics and proof-writing with MATHEMATICS: A DISCRETE INTRODUCTION! With a wealth of learning aids and a clear presentation, the mathematics text teaches you not only how to write proofs, but how to think clearly and present cases logically beyond this course. Though it is presented from a mathematician's perspective, you will learn the importance of discrete mathematics in the fields of computer science, engineering, probability, statistics, operations research, and other areas of applied mathematics. Tools such as Mathspeak, hints, and proof templates prepare you to succeed in this course.
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$113.32 |
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 (4.5 / 5.0) Although the number of commercial Java games is still small compared to those written in C or C++, the market is expanding rapidly. Recent updates to Java make it faster and easier to create powerful gaming applications-particularly Java 3D-is fueling an explosive growth in Java games. Java games like Puzzle Pirates, Chrome, Star Wars Galaxies, Runescape, Alien Flux, Kingdom of Wars, Law and Order II, Roboforge, Tom Clancy's Politika, and scores of others have earned awards and become bestsellers. Java developers new to graphics and game programming, as well as game developers new to Java 3D, will find Killer Game Programming in Java invaluable. This new book is a practical introduction to the latest Java graphics and game programming technologies and techniques. It is the first book to thoroughly cover Java's 3D capabilities for all types of graphics and game development projects. Killer Game Programming in Java is a comprehensive guide to everything you need to know to program cool, testosterone-drenched Java games. It will give you reusable techniques to create everything from fast, full-screen action games to multiplayer 3D games. In addition to the most thorough coverage of Java 3D available, Killer Game Programming in Java also clearly details the older, better-known 2D APIs, 3D sprites, animated 3D sprites, first-person shooter programming, sound, fractals, and networked games. Killer Game Programming in Java is a must-have for anyone who wants to create adrenaline-fueled games in Java.
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$16.00 |
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(5.0 / 5.0) This fascinating book explores the connections between chaos theory, physics, biology, and mathematics. Its award-winning computer graphics, optical illusions, and games illustrate the concept of self-similarity, a typical property of fractals. The author — hailed by Publishers Weekly as a modern Lewis Carroll — conveys memorable insights in the form of puns and puzzles. 1992 edition.
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$15.65 |
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(5.0 / 5.0) CHAOS: An Introduction to Dynamical Systems was developed and class-tested by a distinguished team of authors at two universities through their teaching of courses based on the material. Intended for courses in nonlinear dynamics offered either in Mathematics or Physics, the text requires only calculus, differential equations, and linear algebra as prerequisites. Spanning the wide reach of nonlinear dynamics throughout mathematics, natural and physical science, CHAOS develops and explains the most intriguing and fundamental elements of the topic and examines their broad implications. Among the major topics included are: discrete dynamical systems, chaos, fractals, nonlinear differential equations, and bifurcations. The text also features Lab Visits, short reports that illustrate relevant concepts from the physical, chemical, and biological sciences, drawn from the scientific literature. There are Computer Experiments throughout the text that present opportunities to explore dynamics through computer simulation, designed to be used with any software package. And each chapter ends with a Challenge, which provides students a tour through an advanced topic in the form of an extended exercise.
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$42.94 |
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(4.0 / 5.0) A new treasure trove of stories that make mathematical ideas come to life with an unusual cast of characters. This book explores mathematical concepts and topics such as real numbers, exponents, dimensions, and geometry in both serious and humorous ways. 50 line drawings.
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$6.00 |
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(4.5 / 5.0) "This delightful book illustrates beautifully the paradigm shift in physics from writing equations and solving them to computer modeling and experimentation." -- Greg Chaitin, author of The Limits of Mathematics
In this book Gary William Flake develops in depth the simple idea that recurrent rules can produce rich and complicated behaviors. Distinguishing "agents" (e.g., molecules, cells, animals, and species) from their interactions (e.g., chemical reactions, immune system responses, sexual reproduction, and evolution), Flake argues that it is the computational properties of interactions that account for much of what we think of as "beautiful" and "interesting." From this basic thesis, Flake explores what he considers to be today's four most interesting computational topics: fractals, chaos, complex systems, and adaptation. Each of the book's parts can be read independently, enabling even the casual reader to understand and work with the basic equations and programs. Yet the parts are bound together by the theme of the computer as a laboratory and a metaphor for understanding the universe. The inspired reader will experiment further with the ideas presented to create fractal landscapes, chaotic systems, artificial life forms, genetic algorithms, and artificial neural networks.
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$35.84 |