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At the age of 56, Rob A. Gentile had a massive heart attack followed by a profound near-death experience. On his journey to a heart transplant, he was close to death again and entered the Ethereal a second time. He found himself inside a shapeless, formless vacuum of unending and infinite vastness. He was everywhere at once, scattered across a timeless expanse and connected to the wisdom of the universe-all of it without words. He saw and simultaneously became part of a gigantic interactive web of twinkling lights covering the Earth and stretching into infinity. Curiously, some parts of the web were brighter, some dim, and some completely dark. He later came to believe that this web represents a network that binds us all and is built upon quarks-the smallest elements of matter, and which are made of light. While in the Ethereal, he understood that each quark of light symbolized a life. He realized that if he hurt himself, he hurt everything connected to him, but if he loved, the light would spread. Rob also saw his daughter with special needs, perfect, whole, and radiant. The most important message he received was of unity, oneness, and our real identity. In Quarks of Light, Rob shares his journey and provides a roadmap for overcoming adversity, staying in spirit, and connecting to the Universal language of love and light.
Feynman’s bestselling introduction to the mind-blowing physics of QED—presented with humor, not mathematics Celebrated for his brilliantly quirky insights into the physical world, Nobel laureate Richard Feynman also possessed an extraordinary talent for explaining difficult concepts to the public. In this extraordinary book, Feynman provides a lively and accessible introduction to QED, or quantum electrodynamics, an area of quantum field theory that describes the interactions of light with charged particles. Using everyday language, spatial concepts, visualizations, and his renowned Feynman diagrams instead of advanced mathematics, Feynman clearly and humorously communicates the substance and spirit of QED to the nonscientist. With an incisive introduction by A. Zee that places Feynman’s contribution to QED in historical context and highlights Feynman’s uniquely appealing and illuminating style, this Princeton Science Library edition of QED makes Feynman’s legendary talks on quantum electrodynamics available to a new generation of readers.
At the age of 56, Rob A. Gentile had a massive heart attack followed by a profound near-death experience. On his journey to heart transplant, he was close to death again and entered the Ethereal a second time. He found himself inside a shapeless, formless vacuum of unending and infinite vastness. He was everywhere at once, scattered across a timeless expanse and connected to the wisdom of the universe-all of it without words. He saw and simultaneously became part of a gigantic interactive web of twinkling lights covering the Earth and stretching into infinity. Curiously, some parts of the web were brighter, some dim, and some completely dark. He later came to believe that this web represents a network that binds us all and is built upon quarks-the smallest elements of matter, and which are made of light. While in the Ethereal, he understood that each quark of light symbolized a life. He realized that if he hurt himself, he hurt everything connected to him, but if he loved, the light would spread. Rob also saw his daughter with special needs, perfect, whole, and radiant. The most important message he received was of unity, oneness, and our real identity. In Quarks of Light, Rob shares his journey and provides a roadmap for overcoming adversity, staying in spirit, and connecting to the Universal language of love and light.
Rainbows and exploding stars, ancient Greek optics and modern lasers—these are but a few facets of this entertaining exploration of light in all areas of science and technology. "Like the denizens of some brilliant ocean, humans are awash in light. Surrounded by illuminations both natural and artificial, we remain blissfully unaware of how light determines most of life's rhythms and rituals or how it dominates every field of modern science. Michael I. Sobel, a professor of physics at Brooklyn College, has attempted no less a task than to enlighten us (see how it pervades our language) about the many facets of this ubiquitous phenomenon, from its earliest stirrings of emotion and wonder in ancient savants to its modern applications in lasers and silicon chips. His broader objective, however, is to show the unity of the natural sciences by using light as a central theme. . . . As a guide along the path of light Mr. Sobel is excellent."—James Cornell, New York Times Book Review "At long last, here is a book about a technical subject that anyone can read with interest and understand. . . . The author's technical genius and communication skills are combined with excellent lucid sketches, concise meaty captions, and fascinating photographs."—Jason R. Taylor, Science Books and Films “The title says it all. It is simply a magnificent dissertation on every aspect of light. Its lucid and attractive prose may be read for pleasure and wonder, yet the book is also a reference book of authority. I doubt whether any question about light cannot be answered by consulting it, whether the question is about glow-worms or the aurora borealis, black bodies of the structure of the eye, mirages or fluorescence. This is a marvelous book, one of the best paperbacks I have ever encountered.”—New Scientist
This book presents the essential aspects of relativistic quantum field theory, with minimal use of mathematics. It covers the development of quantum field theory from the original quantization of electromagnetic field to the gauge field theory of interactions among quarks and leptons.Aimed at both scientists and non-specialists, it requires only some rudimentary knowledge of the Lagrangian and Hamiltonian formulation of Newtonian mechanics and a basic understanding of the special theory of relativity and quantum mechanics.
The structure of light hadrons is dominated by the spontaneously broken chiral symmetry of the strongly interacting (QCD) vacuum. Low energy properties of light hadrons can be described in terms of quarks interacting with chiral fields. This book gives a comprehensive account of a large class of models which describe the restoration of chiral symmetry at high temperature and density, the effective interactions between quarks, mesons as solutions of the Beth-Salpeter equation, and baryons in terms of solitions which rotate in flavor space. An in-depth analysis of regularization is given, including regularization by delocalized fields. Symmetry conserving approximations are formulated using both path integral and Feynmann graph methods. The book's style is pedagogical and well-suited to graduate and Ph.D. students who want to learn the techniques used in present day research. It can also serve as a reference for research and lecture courses.
University Physics is a three-volume collection that meets the scope and sequence requirements for two- and three-semester calculus-based physics courses. Volume 1 covers mechanics, sound, oscillations, and waves. Volume 2 covers thermodynamics, electricity and magnetism, and Volume 3 covers optics and modern physics. This textbook emphasizes connections between between theory and application, making physics concepts interesting and accessible to students while maintaining the mathematical rigor inherent in the subject. Frequent, strong examples focus on how to approach a problem, how to work with the equations, and how to check and generalize the result. The text and images in this textbook are grayscale.
From the early wave-particle arguments to the mathematical theory of electromagnetism to Einstein's work on the quantization of light, different descriptions of what constitutes light have existed for over 300 years. This book examines the photon phenomenon from several perspectives. It demonstrates the importance of studying the photon as a concept belonging to a global vacuum (matter-free space). The book explains the models and physical and mathematical descriptions of light and examines the behavior of light and its interaction with matter.
A Nobel-prize winning physicist takes on the essential question: what are we made of? Our understanding of nature's deepest reality has changed radically, but almost without our noticing, over the past twenty-five years. Transcending the clash of older ideas about matter and space, acclaimed physicist Frank Wilczek explains a remarkable new discovery: matter is built from almost weightless units, and pure energy is the ultimate source of mass. He calls it "The Lightness of Being." Space is no mere container, empty and passive. It is a dynamic Grid-a modern ether- and its spontaneous activity creates and destroys particles. This new understanding of mass explains the puzzling feebleness of gravity, and a gorgeous unification of all the forces comes sharply into focus.The Lightness of Being is the first book to explore the implications of these revolutionary ideas about mass, energy, and the nature of "empty space." In it, Wilczek masterfully presents new perspectives on our incredible universe and envisions a new golden age of fundamental physics.
This book is the first of its kind devoted to the key role played by light and electromagnetic radiation in the universe. Readers are introduced to philosophical hypotheses such as the economy, symmetry and the universality of natural laws, and are then guided to practical consequences such as the rules of geometrical optics and even Einstein''s well-known but mysterious relationship, E = mc2. Most chapters feature a pen picture of the life and character of a relevant scientific figure. These OCyHistorical InterludesOCO include, among others, Galileo''s conflicts with the Inquisition, Fourier''s taunting of the guillotine, Neils Bohr and World War II, and the unique character of Richard Feynman.The second edition has been revised and made more accessible to the general reader. Whenever possible, the mathematical material of the first edition has been replaced by appropriate text to give a verbal account of the mystery of the phenomenon of light and how its understanding has developed from pre-historic to present times. The emphasis is on reading for interest and enjoyment; formulae or equations which underpin and reinforce the argument are presented in a form which does not interfere with the flow of the text.The book will be of interest to students and teachers, as well as general readers interested in physics.