In learning quantum theory, intuitions developed for the classical world fail, and the equations to be solved are sufficiently complex that they require a computer except for the simplest situations. This book represents an attempt to jump the hurdle to an intuitive understanding of wave mechanics by using illustrations to present the time evolution and parameter dependence of wave functions in a wide variety of situations. Most of the illustrations are computer-generated solutions of the Schrödinger equation for one- and three-dimensional systems, with the situations discussed ranging from the simple particle in a box through resonant scattering in one dimension to the hydrogen atom and Regge classification of resonant scattering. Thoroughly revised and expanded to include a discussion of spin and magnetic resonance.
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From the reviews of the fourth edition:
"This book is aimed at beginners in quantum mechanics who want to gain some insight into the various physical phenomena which happen at the (sub)atomic scale, and for which no daily experience is available. It will serve as a good complement to standard textbooks of quantum mechanics since it contains many carefully produced pictures to illustrate the fundamental concepts and ideas from quantum physics--highlighting in particular how the concepts and predictions of classical mechanics are altered and supplemented by wavelike behaviors." (Gabriel Stoltz, Mathematical Reviews, May, 2013)
"This book is aimed at beginners in quantum mechanics who want to gain some insight into the various physical phenomena which happen at the (sub)atomic scale, and for which no daily experience is available. It will serve as a good complement to standard textbooks of quantum mechanics since it contains many carefully produced pictures to illustrate the fundamental concepts and ideas from quantum physics--highlighting in particular how the concepts and predictions of classical mechanics are altered and supplemented by wavelike behaviors." (Gabriel Stoltz, Mathematical Reviews, May, 2013)