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This book deconstructs and debunks the lucrative and widespread marriage of quantum physics with pop-spirituality while tracing this pernicious strain of pseudoscience to its source: the founders of quantum mechanics themselves. The association of mystical ideas with modern physics in the self-improvement industry is not new. The "spookiness" of quantum properties like uncertainty and entanglement has proven fertile ground for new-age mystics and alternative medicine advocates who saw a way to put a scientific veneer on their claims. In the early days, the founders of quantum physics accused it of implying an observer-created reality. Later, Taoists and Wu Li dancers were quantized. Then ancient Indian medicine, Ayurveda, morphed into "quantum healing." Little wonder The Oprah Winfrey Show told its viewers: think about losing weight, making more money, and falling in love, and you'll become thin, wealthy, and happily married ... all based on quantum physics. Criticism of the pseudoscientific misappropriation of quantum physics has been widespread but inadequate; thus far, the scientific community has failed to account for its own role in the fusion of pop-spirituality and quantum physics. As well as thoroughly exploring and debunking quantum mysticism, this book traces the development of quantum mysticism and pulls no punches in exposing the unwitting role of quantum theory's founders in propagating quantum mysticism.
Based on courses taught by the author for over 15 years, this text raises the scientific awareness of untrained readers.
The goal of this book is to expose the reader to the indispensable role that mathematics plays in modern physics. Starting with the notion of vector spaces, the first half of the book develops topics as diverse as algebras, classical orthogonal polynomials, Fourier analysis, complex analysis, differential and integral equations, operator theory, and multi-dimensional Green's functions. The second half of the book introduces groups, manifolds, Lie groups and their representations, Clifford algebras and their representations, and fibre bundles and their applications to differential geometry and gauge theories.This second edition is a substantial revision with a complete rewriting of many chapters and the addition of new ones, including chapters on algebras, representation of Clifford algebras, fibre bundles, and gauge theories. The spirit of the first edition, namely the balance between rigour and physical application, has been maintained, as is the abundance of historical notes and worked out examples that demonstrate the "unreasonable effectiveness of mathematics" in modern physics.
This new edition has been made more user-friendly through organization into more concise chapters. It addresses the mathematical needs of sophomores and juniors in physics, engineering and other related fields. An entirely new section covers Probability.
Helps students learn not just how science works, but also how to counter popular misconceptions and pseudoscience.
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