Mastering Quantum Mechanics
Essentials, Theory, and Applications
A complete overview of quantum mechanics, covering essential concepts and results, theoretical foundations, and applications.
This undergraduate textbook offers a comprehensive overview of quantum mechanics, beginning with essential concepts and results, proceeding through the theoretical foundations that provide the field's conceptual framework, and concluding with the tools and applications students will need for advanced studies and for research. Drawn from lectures created for MIT undergraduates and for the popular MITx online course, “Mastering Quantum Mechanics,” the text presents the material in a modern and approachable manner while still including the traditional topics necessary for a well-rounded understanding of the subject. As the book progresses, the treatment gradually increases in difficulty, matching students' increasingly sophisticated understanding of the material.
Part 1, on essentials, offers a sound introduction to the subject, touching on such topics as states and probability amplitudes, the Schrödinger equation, energy eigenstates of particles in potentials, the hydrogen atom, and spin one-half particles. Part 2, on theoretical foundations, covers mathematical tools, the pictures of quantum mechanics and the axioms of quantum mechanics, entanglement and tensor products, angular momentum, and identical particles. Part 3, on applications, introduces tools and techniques that help students master the theoretical concepts with a focus on approximation methods. About 240 exercises appear throughout the text, and nearly 300 end-of-chapter problems support the understanding of the subject. After mastering the material in this book, students will have the strong foundation in quantum mechanics that is required for graduate work in physics.
Hardcover$110.00 X ISBN: 9780262046138 1104 pp. | 8 in x 10 in 248 b&w illus.
“Zwiebach's book stands out from the many other undergraduate quantum textbooks on the market in the unmatched clarity and attention to detail of the exposition, as well as in its coverage of important modern topics like quantum computation and information.”
Professor of Physics, Brandeis University