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Atkins set out to prove that Einstein was wrong. What he ended up doing was showing that Isaac Newton was wrong, too (Wrong because the force of attraction does not exist). Science has been in a boondoggle of misdirection. Atkins is going to turn Physics, as we know it, on its collective ear by defining gravity, showing that the Ether exists, redefining black holes, showing that the speed of light is nearly infinite, redefining how the solar system works, and much, much more. This is science fact...not science fiction WOW
The Mechanical Theory of Everything is a comprehensive and unifying look at how the universe works. Through fresh insights and rigorous derivations, readers will learn: where energy comes from, how a photon dissipates in ten billion years, what electrons and protons are made of, the solution to Einstein s Unified Field theory, how language is made, and why we age. The evidence presented is compelling and spectacular that the universe in which we live is mechanical.
Once again, Rundy has outdone himself. And he has taken us to new heights. This man was once listed as one of the smartest men in America...if not the world. The way that Rundy perceives the world around us is nothing short of amazing. In this latest work, Rundy gives us answers to many questions which have eluded us. This collection of theories covers more than two dozen topics. Among these, why Astrology is real, the speed of light varies, the solar system used to have only five planets, how to spot abusive people/predators, how to reduce crime by more than 30%%%%, making rehabilitation of criminals reality, exposing government corruption, improving the economy, how to get rich, and the impending civil war. If you want answers to life's mysteries, you need look no further than Sheer Genius. Then again, maybe you shouldn't read this. Some of it is pretty scary. Small Print Version 12/14
Einstein was Right! Quantum Mechanics and General Relativity are the two main theories of physics that describe the universe in which we live. Attempts at combining them have been made since the 1920's with no success. Albert Einstein spent much of his later years searching for the key to unification. He never fully accepted quantum theory and maintained it was incomplete. Einstein showed that gravitation is the curving of spacetime, not an attractive force between masses. Evans has showed that electromagnetism is the spinning of spacetime. Using Cartan differential geometry, Evans describes Einstein's gravitation and quantum electromagnetics in the same equations. This book describes the basics of special relativity, quantum mechanics, general relativity, and the geometry used to describe them.
This advanced, accessible textbook on effective field theories uses worked examples to bring this important topic to a wider audience.
Emphasising computational modeling, this introduction to the physics on matter at extreme conditions is invaluable for researchers and graduate students.
Advances made by physicists in understanding matter, space, and time and by astronomers in understanding the universe as a whole have closely intertwined the question being asked about the universe at its two extremesâ€"the very large and the very small. This report identifies 11 key questions that have a good chance to be answered in the next decade. It urges that a new research strategy be created that brings to bear the techniques of both astronomy and sub-atomic physics in a cross-disciplinary way to address these questions. The report presents seven recommendations to facilitate the necessary research and development coordination. These recommendations identify key priorities for future scientific projects critical for realizing these scientific opportunities.
Introduces the superstring theory that attempts to unite general relativity and quantum mechanics.
Despite the rapidly expanding ambit of physical research and the continual appearance of new branches of physics, the main thrust in its development was and is the attempt at a theoretical synthesis of the entire body of physical knowledge. The main triumphs in physical science were, as a rule, associ ated with the various phases of this synthesis. The most radical expression of this tendency is the program of construction of a unified physical theory. After Maxwellian electrodynamics had unified the phenomena of electricity, magnetism, and optics in a single theoretical scheme on the basis of the con cept of the electromagnetic field, the hope arose that the field concept would become the precise foundation of a new unified theory of the physical world. The limitations of an electromagnetic-field conception of physics, however, already had become clear in the first decade of the 20th century. The concept of a classical field was developed significantly in the general theory of relativity, which arose in the elaboration of a relativistic theory of gravitation. It was found that the gravitational field possesses, in addition to the properties inherent in the electromagnetic field, the important feature that it expresses the metric structure of the space-time continuum. This resulted in the following generalization of the program of a field synthesis of physics: The unified field representing gravitation and electromagnetism must also describe the geometry of space-time.
The only graduate-level textbook on quantum field theory that fully integrates perspectives from high-energy, condensed-matter, and statistical physics Quantum field theory was originally developed to describe quantum electrodynamics and other fundamental problems in high-energy physics, but today has become an invaluable conceptual and mathematical framework for addressing problems across physics, including in condensed-matter and statistical physics. With this expansion of applications has come a new and deeper understanding of quantum field theory—yet this perspective is still rarely reflected in teaching and textbooks on the subject. Developed from a year-long graduate course Eduardo Fradkin has taught for years to students of high-energy, condensed-matter, and statistical physics, this comprehensive textbook provides a fully "multicultural" approach to quantum field theory, covering the full breadth of its applications in one volume. Brings together perspectives from high-energy, condensed-matter, and statistical physics in both the main text and exercises Takes students from basic techniques to the frontiers of physics Pays special attention to the relation between measurements and propagators and the computation of cross sections and response functions Focuses on renormalization and the renormalization group, with an emphasis on fixed points, scale invariance, and their role in quantum field theory and phase transitions Other topics include non-perturbative phenomena, anomalies, and conformal invariance Features numerous examples and extensive problem sets Also serves as an invaluable resource for researchers