Physics, Chemistry All books
From the physics of particules to astronomy, from chemistry to biology, chaos is present in most scientific fields. Three specialists of this subject have undertaken, through many examples, to extract chaos from the scientific world in order to show how strong is its hold on our daily lives.
Why don't sand dunes collapse? How does sand flow in an hourglass? How is it possible to empty a silo of all its wheat? What's a ceramic? The answer to all these questions can be found in the science of the complex organizations of matter, a science which is pluridisciplinary. Étienne Guyon, head of the École Normale Supérieure, and Jean-Paul Troadec, a researcher, present the characteristics of grain matter, the rules by which it is organized (in both crystal and fluid) as well as its movements (in silos as in avalanches).
Richard Feynman, Nobel Prize winner for his work on the description and calculation of interactions between particles, was a genius of our time. Quantum physics theoretician, enfant terrible of the Manhattan project and ascerbic critic of the investigative committee of the American space shuttle, Feynman left a profound impression on modern physics. James Gleick, a former journalist at The New York Times and author of the best-selling Chaos Theory, tells how Feynman's ideas were formed and how he reinvented particle physics. Through this portrait, Gleick explores the nature of genius itself and provides insight about the fascination that it engenders.
As we come to the end of the century, the question of the future of science is often posed. I believe we are just at the beginning of a new endeavour. We are witnessing the development of a science which is no longer limited to simplified, idealised situations, but makes us face the complexity of the real world. This new science will allow human creativity to be experienced as the unique expression of a fundamental trait common to all aspects of nature. Ive tried to present this conceptual transformation, which implies the beginning of a new chapter in the fruitful relations between physics and mathematics, in a manner that will be comprehensible and accessible to all readers interested in the evolution of our ideas of nature. We are but at the threshold of a new chapter in the history of our dialogue with nature, writes Ilya Prigogine. Ilya Prigogine, winner of the Nobel Prize for Chemistry, teaches at the Free University of Brussels and at the University of Texas, in Austin.