Quantum Mechanics: Methods and Meanings Contributor(s): Munley, Frank (Author) |
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ISBN: 1478794593 ISBN-13: 9781478794592 Publisher: Outskirts Press OUR PRICE: $23.70 Product Type: Paperback Published: April 2018 |
Additional Information |
BISAC Categories: - Mathematics | Reference |
Physical Information: 0.84" H x 7" W x 10" (1.56 lbs) 410 pages |
Descriptions, Reviews, Etc. |
Publisher Description: This introduction to quantum mechanics attempts to stick to reality-based interpretations to the extent possible. The preface presents the author's philosophy of physics, which is essentially a call for eclecticism and a realization of the nature and limits of physical concepts and theories. Chapter 1 starts with a review of the pre-1925 quantum achievements of Planck, Bohr, and Sommerfeld, including Einstein's discovery, well before wave mechanics came on the scene in 1925, of the photon concept and its implication of wave-particle duality. The more straightforward consequences of wave mechanics are then covered. Chapter 2 further develops ideas of wave mechanics, and presents the Schr dinger equation with a number of simple applications. The chapter puts appropriate emphasis on the nature of the quantum state and the importance of state preparation, and concludes with a review of quantum interpretations from 1925 up to the present. Chapters 1 and 2 alone can serve as a lower-level introduction to the subject. Chapters 3 to 7 present many of the standard results of quantum mechanics. Chapter 3 concludes with the GRW collapse theory, and Chapter 4 with the role of decoherence in the measurement process. The hydrogen atom and Thomas precession are thoroughly treated in Chapter 6. Chapter 8 delves into time-dependent perturbations and transitions with a careful development of Fermi's Golden Rule. Few quantum mechanics texts consider the classical roots of the Schr dinger equation, but this interesting task is carried out in Chapter 9. Chapter 10 is devoted to hidden variables, non-locality, and Bell's theorem, and Chapter 11 builds on the work in Chapters 9 and 10 to give a short introduction to David Bohm's "ontological" interpretation. The book concludes with Dirac's relativistic equation for the electron and its prediction of the ever-elusive "zitterbewegung." The prerequisites for most of the book are good backgrounds in calculus and modern physics. A familiarity with vector analysis and linear algebra would also help.
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