<!-- <description> -->The interpretation of quantum mechanics has been in dispute for nearly a century with no sign of a resolution. Using a careful examination of the relationship between the final form of classical particle mechanics (the Hamilton–Jacobi Equation) and Schrödinger's mechanics, this book presents a coherent way of addressing the problems and paradoxes that emerge through conventional interpretations.
Schrödinger's Mechanics critiques the popular way of giving physical interpretation to the various terms in perturbation theory and other technologies and places an emphasis on development of the theory and not on an axiomatic approach. When this interpretation is made, the extension of Schrödinger's mechanics in relation to other areas, including spin, relativity and fields, is investigated and new conclusions are reached.
<!-- </description> -->Contents:AimsBasics: The Schrödinger ConditionThe Dimensions of SpaceMomenta, Operators, and a ProblemApproximation and InterpretationSpin in Schrödinger's TheoryRelativistic EquationsFields and Second Quantisation<!-- </contents> -->
<!-- <readership> -->Readership: Physicists, chemists, philosophers of science, anyone with an interest in physical science.<!-- </readership> -->
Keywords:Quantum Theory;Interpretation;Wave Mechanics;Quantum PhilosophyReview:Key Features:Gives a unique interpretation of the topic