The Feynman Lectures on Physics

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The Feynman Lectures on Physics

The Feynman Lectures on Physics including Feynman's Tips on Physics: The Definitive and Extended Edition (2nd edition, 2005)
Author	Richard P. Feynman, Robert B. Leighton, and Matthew Sands
Country	United States
Language	English
Subject	Physics
Publisher	Addison–Wesley
Publication date	1964. revised and extended edition in 2005
OCLC	19455482
Website	http://www.feynmanlectures.caltech.edu/

The Feynman Lectures on Physics is a physics textbook based on some lectures by Richard P. Feynman, a Nobel laureate who has sometimes been called "The Great Explainer". The lectures were presented before undergraduate students at the California Institute of Technology (Caltech), during 1961–1963. The book's co-authors are Feynman, Robert B. Leighton, and Matthew Sands.

The Feynman Lectures on Physics is perhaps the most popular physics book ever written. More than 1.5 million English-language copies have been sold; probably even more copies have been sold in a dozen foreign-language editions. A 2013 review in Nature described the book as having "simplicity, beauty, unity ... presented with enthusiasm and insight".

Description

The textbook comprises three volumes. The first volume focuses on mechanics, radiation, and heat, including relativistic effects. The second volume covers mainly electromagnetism and matter. The third volume covers quantum mechanics; for example, it shows how the double-slit experiment demonstrates the essential features of quantum mechanics. The book also includes chapters on the relationship between mathematics and physics, and the relationship of physics to other sciences.

In 2013, Caltech in cooperation with The Feynman Lectures Website made the book freely available, on the web site.

Background

Feynman the “Great Explainer”: The Feynman Lectures on Physics found an appreciative audience beyond the undergraduate community.

 

By 1960, Richard Feynman’s research and discoveries in physics had resolved a number of troubling inconsistencies in several fundamental theories. In particular, it was his work in quantum electrodynamics for which he was awarded the 1965 Nobel Prize in physics. At the same time that Feynman was at the pinnacle of his fame, the faculty of the California Institute of Technology was concerned about the quality of the introductory courses for undergraduate students. It was thought the courses were burdened by an old-fashioned syllabus and the exciting discoveries of recent years, many of which had occurred at Caltech, were not being taught to the students.

Thus, it was decided to reconfigure the first physics course offered to students at Caltech, with the goal being to generate more excitement in the students. Feynman readily agreed to give the course, though only once. Aware of the fact that this would be a historic event, Caltech recorded each lecture and took photographs of each drawing made on the blackboard by Feynman. 

Based on the lectures and the tape recordings, a team of physicists and graduate students put together a manuscript that would become The Feynman Lectures on Physics. Although Feynman's most valuable technical contribution to the field of physics may have been in the field of quantum electrodynamics, the Feynman Lectures were destined to become his most widely-read work.

The Feynman Lectures are considered to be one of the most sophisticated and comprehensive college-level introductions to physics. Feynman himself stated in his original preface that he was “pessimistic” with regard to his success in reaching all of his students. The Feynman lectures were written “to maintain the interest of very enthusiastic and rather smart students coming out of high schools and into Caltech”. Feynman was targeting the lectures to students who, “at the end of two years of our previous course, [were] very discouraged because there were really very few grand, new, modern ideas presented to them”. As a result, some physics students find the lectures more valuable after they have obtained a good grasp of physics by studying more traditional texts, and the books are sometimes seen as more helpful for teachers than for students.

While the two-year course (1961–1963) was still underway, rumors of it spread throughout the physics research and teaching community. In a special preface to the 1989 edition, David Goodstein and Gerry Neugebauer claimed that as time went on, the attendance of registered undergraduate students dropped sharply but was matched by a compensating increase in the number of faculty and graduate students. Co-author Matthew Sands, in his memoir accompanying the 2005 edition, contested this claim. Goodstein and Neugebauer also stated that, “it was [Feynman’s] peers — scientists, physicists, and professors — who would be the main beneficiaries of his magnificent achievement, which was nothing less than to see physics through the fresh and dynamic perspective of Richard Feynman”, and that his "gift was that he was an extraordinary teacher of teachers".

Addison-Wesley published a collection of exercises and problems to accompany The Feynman Lectures on Physics. The problem sets were first used in the 1962-1963 academic year, and were organized by Robert B. Leighton. Some of the problems are sophisticated and difficult enough to require an understanding of advanced topics, such as Kolmogorov's zero–one law. The original set of books and supplements contained a number of errors, some of which rendered problems insoluble. Various errata were issued, which are now available online.

Addison–Wesley also released in CD format all the audio tapes of the lectures, over 103 hours with Richard Feynman, after remastering the sound and clearing the recordings. For the CD release, the order of the lectures was rearranged from that of the original texts. The publisher has released a table showing the correspondence between the books and the CDs. 

In March 1964, Feynman appeared once again before the freshman physics class as a lecturer, but the notes for this particular guest lecture were lost for a number of years. They were finally located, restored, and made available as Feynman's Lost Lecture: The Motion of Planets Around the Sun.

In 2005, Michael A. Gottlieb and Ralph Leighton co-authored Feynman's Tips on Physics, which includes four of Feynman's freshman lectures which had not been included in the main text (three on problem solving, one on inertial guidance), a memoir by Matthew Sands about the origins of the Feynman Lectures on Physics, and exercises (with answers) that were assigned to students by Robert B. Leighton and Rochus Vogt in recitation sections of the Feynman Lectures course at Caltech. Also released in 2005, was a "Definitive Edition" of the lectures which included corrections to the original text. 

An account of the history of these famous volumes is given by Sands in his memoir article “Capturing the Wisdom of Feynman", and another article "Memories of Feynman" by the physicist T. A. Welton.

In a September 13, 2013 email to members of the Feynman Lectures online forum, Gottlieb announced the launch of a new website by Caltech and The Feynman Lectures Website which offers "[A] free high-quality online edition" of the lecture text. To provide a device-independent reading experience, the website takes advantage of modern web technologies like HTML5, SVG, and MathJax to present text, figures, and equations in any sizes while maintaining the display quality.

Contents

Volume I: Mainly mechanics, radiation, and heat

Preface: “When new ideas came in, I would try either to deduce them if they were deducible or to explain that it was a new idea … and which was not supposed to be provable.”

 

Chapters

1. Atoms in motion
2. Basic Physics
3. The relation of physics to other sciences
4. Conservation of energy
5. Time and distance
6. Probability
7. The theory of gravitation
8. Motion
9. Newton's laws of dynamics
10. Conservation of momentum
11. Vectors
12. Characteristics of force
13. Work and potential energy (A)
14. Work and potential energy (conclusion)
15. The special theory of relativity
16. Relativistic energy and momentum
17. Space-time
18. Rotation in two dimensions
19. Center of mass; Moment of inertia
20. Rotation in space
21. The harmonic oscillator
22. Algebra
23. Resonance
24. Transients
25. Linear systems and review
26. Optics: The principle of least time
27. Geometrical optics
28. Electromagnetic radiation
29. Interference
30. Diffraction
31. The origin of the refractive index
32. Radiation damping. Light scattering
33. Polarization
34. Relativistic effects in radiation
35. Color vision
36. Mechanisms of seeing
37. Quantum behavior
38. The Relation of Wave and particle viewpoints
39. The kinetic theory of gases
40. The principles of statistical mechanics
41. The brownian movement
42. Applications of kinetic theory
43. Diffusion
44. The laws of thermodynamics
45. Illustrations of thermodynamics
46. Ratchet and pawl
47. Sound. The wave equation
48. Beats
49. Modes
50. Harmonics
51. Waves
52. Symmetry in physical laws

Volume II: Mainly electromagnetism and matter

Chapters

1. Electromagnetism
2. Differential calculus of vector fields
3. Vector integral calculus
4. Electrostatics
5. Application of Gauss' law
6. The electric field in various circumstances
7. The electric field in various circumstances (continued)
8. Electrostatic energy
9. Electricity in the atmosphere
10. Dielectrics
11. Inside dielectrics
12. Electrostatic analogs
13. Magnetostatics
14. The magnetic field in various situations
15. The vector potential
16. Induced currents
17. The laws of induction
18. The Maxwell equations
19. Principle of least action
20. Solutions of Maxwell's equations in free space
21. Solutions of Maxwell's equations with currents and charges
22. AC circuits
23. Cavity resonators
24. Waveguides
25. Electrodynamics in relativistic notation
26. Lorentz transformations of the fields
27. Field energy and field momentum
28. Electromagnetic mass (ref. to Wheeler–Feynman absorber theory)
29. The motion of charges in electric and magnetic fields
30. The internal geometry of crystals
31. Tensors
32. Refractive index of dense materials
33. Reflection from surfaces
34. The magnetism of matter
35. Paramagnetism and magnetic resonance
36. Ferromagnetism
37. Magnetic materials
38. Elasticity
39. Elastic materials
40. The flow of dry water
41. The flow of wet water
42. Curved space

Volume III: Quantum mechanics

Chapters

1. Quantum behavior
2. The relation of wave and particle viewpoints
3. Probability amplitudes
4. Identical particles
5. Spin one
6. Spin one-half
7. The dependence of amplitudes on time
8. The Hamiltonian matrix
9. The ammonia maser
10. Other two-state systems
11. More two-state systems
12. The hyperfine splitting in hydrogen
13. Propagation in a crystal lattice
14. Semiconductors
15. The independent particle approximation
16. The dependence of amplitudes on position
17. Symmetry and conservation laws
18. Angular momentum
19. The hydrogen atom and the periodic table
20. Operators
21. The Schrödinger equation in a classical context: a seminar on superconductivity

Abbreviated editions

Six readily-accessible chapters were later compiled into a book entitled Six Easy Pieces: Essentials of Physics Explained by Its Most Brilliant Teacher. Six more chapters are in the book Six Not So Easy Pieces: Einstein's Relativity, Symmetry and Space-Time. 

“Six Easy Pieces grew out of the need to bring to as wide an audience as possible, a substantial yet nontechnical physics primer based on the science of Richard Feynman... General readers are fortunate that Feynman chose to present certain key topics in largely qualitative terms without formal mathematics…”

Six Easy Pieces (1994)

Chapters:

1. Atoms in motion
2. Basic Physics
3. The relation of physics to other sciences
4. Conservation of energy
5. The theory of gravitation
6. Quantum behavior

Six Not-So-Easy Pieces (1998)

Chapters:

1. Vectors
2. Symmetry in physical laws
3. The special theory of relativity
4. Relativistic energy and momentum
5. Space-time
6. Curved space

The Very Best of The Feynman Lectures (Audio, 2005)

Chapters:

1. The Theory of Gravitation (Vol. I, Chapter 7)
2. Curved Space (Vol. II, Chapter 42)
3. Electromagnetism (Vol. II, Chapter 1)
4. Probability (Vol. I, Chapter 6)
5. The Relation of Wave and Particle Viewpoints (Vol. III, Chapter 2)
6. Superconductivity (Vol. III, Chapter 21)

Publishing information

• Feynman R, Leighton R, and Sands M. The Feynman Lectures on Physics . 3 volumes 1964, 1966. Library of Congress Catalog Card No. 63-20717

  • ISBN 0-201-02115-3 (1970 paperback three-volume set)
  • ISBN 0-201-50064-7 (1989 commemorative hardcover three-volume set)
  • ISBN 0-8053-9045-6 (2006 the definitive edition, 2nd printing, hardcover)

• Feynman's Tips On Physics: A Problem-Solving Supplement to the Feynman Lectures on Physics (hardcover) ISBN 0-8053-9063-4
• Six Easy Pieces (hardcover book with original Feynman audio on CDs) ISBN 0-201-40896-1
• Six Easy Pieces (paperback book) ISBN 0-201-40825-2
• Six Not-So-Easy Pieces (paperback book with original Feynman audio on CDs) ISBN 0-201-32841-0
• Six Not-So-Easy Pieces (paperback book) ISBN 0-201-32842-9
• Exercises for the Feynman Lectures (paperback book) ISBN 2-35648-789-1 (out of print)
• Feynman R, Leighton R, and Sands M. "The Feynman Lectures on Physics, Volume I" (online edition), The Feynman Lectures Website, September 2013.