Quantum Mechanics: Problems with solutions - Book - IOPscienceThis course is designed to introduce students to a thorough, research-oriented view of Physical Chemistry. Further topics include atomic structure, valence-bond and molecular orbital theories of chemical bonding and group theory. The concepts of quantum theory are applied to molecular spectroscopy and nuclear magnetic resonance. To understand the modern theory of matter, conceptual hurdles of both psychological and mathematical variety must be overcome. A paradox which stimulated the early development of the quantum theory concerned the indeterminate nature of light. Light usually behaves as a wave phenomenon but occasionally it betrays a particle-like aspect, a schizoid tendency known as the wave-particle duality.
5 STEPS TO SOLVING PROBLEMS IN QUANTUM MECHANICS - THE PARTICLE IN A BOX
Quantum Mechanics: 500 Problems with Solutions
You need an eReader or compatible software to experience the benefits of the ePub3 file format. Each part consists of two volumes, Lecture Notes and Problems with Solutions, further supplemented by an additional collection of test problems and solutions available to qualifying university instructors. This volume, Quantum Mechanics: Problems with Solutions contains detailed model solutions to the exercise problems formulated in the companion Lecture Notes volume. In many cases, the solutions include result discussions that enhance the lecture material. For the reader's convenience, the problem assignments are reproduced in this volume. In order to take advantage of this service, your institution needs to have access to this IOP ebook content. Click here to close this overlay, or press the "Escape" key on your keyboard.
It seems that you're in Germany. We have a dedicated site for Germany. This second edition of an extremely well-received book presents more than nonrelativistic quantum mechanics problems of varying difficulty with the aim of providing students didactic material of proven value, allowing them to test their comprehension and mastery of each subject. The coverage is extremely broad, from themes related to the crisis of classical physics through achievements within the framework of modern atomic physics to lively debated, intriguing aspects relating to, for example, the EPR paradox, the Aharonov-Bohm effect, and quantum teleportation. Compared with the first edition, a variety of improvements have been made and additional topics of interest included, especially focusing on elementary potential scattering.
Professor Marcel Nooijen email: nooijen uwaterloo. Summary: We will be discussing the ideas and postulates of quantum theory, which forms the underlying basis for all phenomena in the realm of chemistry. This theoretical framework will lead us to understand deeply some very basic concepts in chemistry. The actual quantitative description of chemical or spectroscopic processes is very complicated of course, and one would have to resort to approximations and computational techniques to obtain reliable results. In this course we will focus on model problems that can be solved with 'relatively little' effort and which illustrate the nature of the quantum world and will introduce you to thinking 'quantum'. Moreover these simple models often lead to surprisingly quantitative understanding of observed excitations of atoms or molecules.
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