Understanding Quantum Physics
A User's Manual, Vol. 1
Published on 1. July 1990
Book
Hardback
624 pages
978-0-13-747908-5 (ISBN)
Description
Appropriate for a junior/senior-level undergraduate course in Quantum Physics; requires a background in freshman and sophomore physics (mechanics, electricity and magnetism, and thermodynamics), and a solid working knowledge of calculus and algebra.
Sharing a passion and wonderment for the field that makes it a real joy to read, this book provides a uniquely engaging, in-depth introduction to the concepts of quantum physics and their practical implementation. Written in an informal yet substantive style, it is filled with clear, thorough explanations that help students develop insight into physical ideas and master techniques of problem-solving using quantum mechanics.
Sharing a passion and wonderment for the field that makes it a real joy to read, this book provides a uniquely engaging, in-depth introduction to the concepts of quantum physics and their practical implementation. Written in an informal yet substantive style, it is filled with clear, thorough explanations that help students develop insight into physical ideas and master techniques of problem-solving using quantum mechanics.
More details
Language
English
Place of publication
United States
Publishing group
Pearson Education (US)
Target group
Professional and scholarly
Dimensions
Height: 185 mm
Width: 242 mm
Thickness: 37 mm
Weight
1148 gr
ISBN-13
978-0-13-747908-5 (9780137479085)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Previous edition
Book
02/1989
Prentice-Hall
€50.75
Article exhausted; check for reprint
Content
(NOTE: All chapters conclude with Final Thoughts, and Exercises and Problems; most also include Annotated Selected Readings.)I. WHAT'S IT ALL ABOUT?: A QUALITATIVE INTRODUCTION.
1. Introductory: Why Quantum Physics?
2. Into the Microworld: Duality and the Double Slit.
II. STARTING FROM SCRATCH.
3. First Postulates: The State Function and Its Interpretation.
4. An Illustrative Interlude: Wave Packets in One Dimension.
5. Observables in Quantum Physics: A Pragmatist's Approach.
6. A Quantum Equation of Motion: The Schroedinger Equation At Last.
7. Simplifying Matters: The Time-Independent Schroedinger Equation.
III. EXAMPLES, EXAMPLES, EXAMPLES.
8. States of a Particle in One Dimension I: Mainly Piecewise-Constant Potentials.
9. States of a Particle in One Dimension II: Mainly Continuous Potentials.
IV. TOOLS OF THE TRADE; MORE FORMALISM.
10. Operators in Quantum Mechanics I: The Importance of Being Hermitian.
11. Operators in Quantum Mechanics II: To Commute or Not to Commute.
12. Eigenfunction Expansions: How to Solve Any Problem in Quantum Mechanics.
13. Altered States: The Great Measurement Mystery.
Appendixes.
A. SI Units (The International System of Units. B. Fundamental Constants in SI (and CGS) Units. C. Order-of-Magnitude Estimates. D. Conversion Tables. E. Prefix Dictionary. F. A User's Guide to Atomic Units. G. The Greek Alphabet. H. Handy Trigonometric identities. I. Integrals You Should Know. J. Integrals Involving the Gaussian Function. K. Review of Complex Numbers. L. The Dirac Delta Function.
Bibliography.
Index.
1. Introductory: Why Quantum Physics?
2. Into the Microworld: Duality and the Double Slit.
II. STARTING FROM SCRATCH.
3. First Postulates: The State Function and Its Interpretation.
4. An Illustrative Interlude: Wave Packets in One Dimension.
5. Observables in Quantum Physics: A Pragmatist's Approach.
6. A Quantum Equation of Motion: The Schroedinger Equation At Last.
7. Simplifying Matters: The Time-Independent Schroedinger Equation.
III. EXAMPLES, EXAMPLES, EXAMPLES.
8. States of a Particle in One Dimension I: Mainly Piecewise-Constant Potentials.
9. States of a Particle in One Dimension II: Mainly Continuous Potentials.
IV. TOOLS OF THE TRADE; MORE FORMALISM.
10. Operators in Quantum Mechanics I: The Importance of Being Hermitian.
11. Operators in Quantum Mechanics II: To Commute or Not to Commute.
12. Eigenfunction Expansions: How to Solve Any Problem in Quantum Mechanics.
13. Altered States: The Great Measurement Mystery.
Appendixes.
A. SI Units (The International System of Units. B. Fundamental Constants in SI (and CGS) Units. C. Order-of-Magnitude Estimates. D. Conversion Tables. E. Prefix Dictionary. F. A User's Guide to Atomic Units. G. The Greek Alphabet. H. Handy Trigonometric identities. I. Integrals You Should Know. J. Integrals Involving the Gaussian Function. K. Review of Complex Numbers. L. The Dirac Delta Function.
Bibliography.
Index.