American Journal of Physics

Annual Index Vol 63 (1995)

Book reviews

The End of Physics: The Myth of a Unified Theory. - David Lindley, Author and David G. Boulware; 63(1), 92(B).
Laser Spectroscopy: Selected Reprints. - R. Gupta, Editor and Lutz Hüwel; 63(1), 92-3 (B).
Modern Quantum Mechanics, Revised Edition. - J. J. Sakurai, Author, S. F. Tuan, Editor, and Eugene D. Commins; 63(1), 93-5 (B).
A Matter of Choices: Memoirs of a Female Physicist. - Fay Ajzenherg-Selove, Author and Judy R. Franz; 63 (1), 95-6(B).
Post-Use Review. Physics for Scientists and Engineers, Extended Version. - Paul M. Fishbane, Author, Stephen Gasiorowicz, Author, Stephen T. Thornton, Author, Steven E. Jones, Lawrence B. Rees, and William E. Dibble; 63(2), 188-9(B).
Einstein Lived Here. - Abraham Pais, Author and A. P. French; 63 (2), 189-90(B).
The Physics of Chance: From Blaise Pascal to Niels Bohr. - Charles Ruhla, Author and Charles A. Whitney; 63 (2), 190-1(B).
Uncommon Sense: The Heretical Nature of Science. - Alan Cromer, Author and Alfred Romer; 63 (2), 191-2 (B).
The Refrigerator and the Universe: Understanding the Laws of Energy. - Martin Goldstein, Author, Inge F. Goldstein, Author, and Harvey S. Leff; 63 (3), 282-3 (B).
Post-Use Review: Numerical Methods for Physics. - Alejandro L. Garcia, Author and Patrick Hamill; 63 (3), 283 (B).
Computational Physics.- Steven E. Koonin Author and Patrick Hamill; 63 (3), 283-5 (B).
Quantum Theory: Concepts and Methods. - Asher Peres, Author and Leslie E. Ballentine; 63 (3), 285-6 (B).
Homework and Test Questions for Introductory Physics Teaching. - Arnold Arons, Author and Priscilla W. Laws; 63 (3), 286-7 (B).
Hostages of Each Other: The Transformation of Nuclear Safety since Three Mile Island. - Joseph V. Rees, Author and Marc Eisner; 63 (4), 380-1(B).
Waves Called Solitons: Concepts and Experiments. - M. Remoissenet, Author and J. A. Whitehead; 63(4), 381-2 (B).
Energy, Physics and the Environment. - Ernest L. McFarland, Author, James L. Hunt, Author, J. L. Campbell, Author, and Ruth H. Howes; 63 (4), 382-3 (B).
QED and the Men Who Made It: Dyson, Feynman, Schwinger, and Tomonaga. - Silvan S. Schweber, Author and Felix M. H. Villars; 63 (4), 383-4(B).
A First Course in Computational Physics. - Paul L. DeVries, Author and Patrick Hamill; 63 (3), 383 (B).
Prometheus Bound: Science in a dynamic steady state. - John Ziman, Author and Roland W. Schmitt; 63 (5), 476-7 (B).
Strange Attractors: Creating Patterns in Chaos. (Floppy disk and 3D glasses included.). - Julian C. Sprott, Author and Ralph H.Abraham; 63 (5), 477 (B).
Quantum Optics. - D. F. Walls, Author, G. J. Milburn, Author, and John C. Garrison; 63 (5), 477-8 (B).
Health and Low-Frequency Electromagnetic Fields. - William Ralph Bennett, Jr., Author and Kenneth W. Ford; 63 (5), 478-9 (B).
Space, Titne and Quanta: An Introduction to Contemporary Physics. - Robert Mills, Author and Robert E. Reynolds; 63 (6), 572-3 (B).
An Equation that Changed the World: Newton, Einstein, and the Theory of Relativity. - Harald Fritzsch, Author and Hans Christian von Baeyer; 63 (6), 573 (B).
Group Theory and Physics. - Shlomo Sternberg, Author and Eugene Golowich; 63 (6), 573-4 (B).
Post-Use Review. Principles of Electronic Instrumentation, Third Edition. - A. James Diefendeffer, Author, Brian E. Holton,Author, and C. W. S. Conover; 63 (6), 574-6 (B).
Post-Use Review. Electric and Magnetic Interactions. - Ruth Chabav, Author, Bruce Sherwood, Author, and John E. Gastineau; 63 (7), 669 (B).
Stalin and the Bomb. The Soviet Union and Atomic Energy, 1939-1956. - David Holloway, Author and Jonathan Coopersmith; 63 (7), 669-70 (B).
Angular Momentum: An Illustrated Guide to Rotational Symmetries for Physical Systems. - William J. Thompson, Author and LeRoy F. Cook; 63 (7), 670-1(B).
Quantum Mechanics. - Sara M. McMurry, Author and Donald H. Kobe; 63 (7), 671-2 (B).
Rydberg Atoms. - Thomas F. Gallagher, Author and James E. Bayfield; 63 (8), 765 (B).
The Fundamental Particles and Their Interactions. - William B. Rolnick, Author and D. B. Lichtenberg; 63 (8), 765-6 (B).
Thinking in Complexity: The Complex Dynamics of Matter, Mind, and Mankind. - Klaus Mainzer, Author and Rolf Landauer; 63 (8), 766-7 (B).
Introduction to Quantum Mechanics. - David J. Griffiths, Author and Edward G. Harris; 63(8), 767-8 (B).
Demonstrating Science with Soap Films. - David Lovett, Author and Clinton Van Siclen; 63 (9), 860-1(B).
A Guide To Physics Problems. Part I: Mechanics, Relativity, and Electrodynamics. - Sidney B. Cahn, Author, Boris E. Nadgorny, Author, and Paul D. Scholten; 63 (9), 861(B).
Statistical Methods for Physical Science. (Methods of Experimental Physics, Vol.28.). - John L. Stanford, Author, Stephen B. Vardeman, Author, and William J. Thompson; 63 (9), 861-2 (B).
The Essence of Chaos. - Edward N. Lorenz, Author and Robert C. Hilborn; 63 (9), 862-3 (B).
Exponential growth and the Catholic church. - Albert A. Bartlett; 63 (10), 874(B).
Physics by Example: 200 Problems and Solutions. - W. G. Rees, Author and T. William Houk; 63(10), 959(B).
From Electrostatics to Optics: A Concise Electrodynamics Course. - Günter Schari, Author and Richard A. Matzner; 63 (10), 959-60 (B).
Post-Use Review: Scouting Black Holes. Exploring General Relativity with Calculus. - Edwin F. Taylor, Author, John Archibald Wheeler, Author, and Thomas A. Roman; 63 (11), 1053-4(B).
New Astronomy. - Johannes Kepler, Author, C. Doris Hellman, and James Evans; 63 (11), 1054 (B).
Kepler. - Max Caspar, Author and James Evans; 63(11), 1054-5 (B).
Einstein, History, and Other Passions. - Gerald Holton, Author and Clayton A. Gearhart; 63(11), 1055-6(B).
Post-Use Review. Principles of Physics. - Raymond A. Serway, Author, Alfonso M. Albano, James Arrison, and Tina M. Mello; 63(12), 1154 (B).
Quantum Mechanics: Historical Contingency and the Copenhagen Hegemony. - James T. Cushing, Author and Tim Maudlin; 63 (12), 1155-6(B).
The Collected Works of Eugene Paul Wigner. Part A: Scientific Papers. Volume V: Nuclear Energy. - Alvin M. Weinberg,Author, Alfred M. Perry, Author, and Lawrence Ruby; 63(12), 1156-7(B).

Editorials

Editorial: A century of Resource Letters. - Robert H. Romer; 63 (4), 302 (C).
Editorial: AJP's 1994 Referees. - Don S. Lemons and Robert H. Romer; 63 (6), 491-2 (C).
Editorial: Strong inequalities. - Robert H. Romer; 63 (8), 681-2(C).

Guest comments

Guest Comment: Ethical issues in physics-We need a focused course. - Marshall Thomsen; 63(2), 110-1(G).
Guest Comment: Why undergraduates leave the sciences. - Elaine Seymour; 63 (3), 199-202 (G).
Guest Comment: To support basic research and to develop scientific talent. - Neal F. Lane; 63 (4), 300-1(G).
Guest Comment: Physics and the new order. - David Markowitz; 63 (5), 396-7 (G).
Guest Comment: Teaching writing to teach physics. - Stephen F. Becker; 63 (7), 587 (G).
Guest Comment: The imagination of well-prepared minds. - Neil L. Rudenstine; 63 (10), 879-81(G).
Guest Comment: Training for the real world in science and technology: Science is a business. - Douglas N. Arion; 63 (11), 969 (G).
Guest Comment: What do graduate oral exams tell us? - David Hestenes; 63(12), 1069 (G).

New problems

Relativistic mass increase at slow speeds. - Gerald Gabrielse; 63 (6), 568-9.
Using atomic physics to verify relativity. - R. Grieser, T. Kühl, and G. Huber; 63 (7), 665-8.
Liquid crystal displays. - Peter J. Collings; 63(11), 1044-8.

Questions and answers

Question #9. Why are diamonds such good thermal conductors? - Robert W. Cole; 63(1), 13 (Q).
Question #10. Cooling and expansion of the universe. - J. Richard Christman; 63 (1), 13 (Q).
Question #11. Quantum interaction time differences? - Gary A. LaMotte; 63(1), 13 (Q).
Answer to Question #2 ["Quark masses and binding energy in a proton," James R. Huddle, Am. J. Phys. 62 (10), 871(1994)]. - Kenneth J. Epstein; 63 (1), 13-4(Q).
Answer to Question #2 ["Quark masses and binding energy in a proton," James R. Huddle, Am. J. Phys. 62 (10), 871(1994)]. - Barry R. Holstein; 63 (1), 14(Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - Howard C. Bryant; 63(1), 14(Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - Lawrence Ruby; 63(1), 14-5 (Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871 (1994)]. - Budh Ram; 63(1), 15 (Q).
Question #12. Where did the 10 come from in the ratio of the coulomb to the statcoulomb? - Jay Orear; 63 (2), 108 (Q).
Question #13. A central organizing principle fbr statistical and thermal physics? - Ralph Baierlein; 63 (2), 108 (Q).
Question #14. Simple arguments for the Boltzmann factor? - Dwight E. Neuenschwander; 63(2), 108 (Q).
Answer to Question #1 ["How a Brownian particle at rest gets kicked up to kT." Frank Munley, Am. J. Phys. 62 (10), 871 (1994)]. - Daniel T. Gillespie; 63 (2), 108-9 (Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?" Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871 (1994)]. - Christopher Tong; 63 (2), 109 (Q).
Answer to Question #7 ["The spin-statistics theorem," Dwight E. Neuenschwander, Am. J. Phys. 62 (11), 972 (1994)]. - Roy R. Gould; 63(2), 109 (Q).
Question #15. What space scales participate in cosmic expansion? - Frank Munley; 63 (4), 297 (Q)
Question #16. Eastward deflection of a falling body. - A. P. French; 63 (4), 297 (Q).
Answer to Question #3 ["Why is momentum called p?," N. David Mermin, Am. J. Phys. 62 (10), 871(1994)]. - Daniel T. Gillespie; 63 (4), 297 (Q).
Answer to Question #7 ["The spin-statistics theorem," Dwight E. Neuenschwander, Am. J. Phys. 62 (11), 972 (1994)]. - Henri Bacry; 63 (4), 297-8 (Q).
Answer to Question #7 ["The spin-statistics theorem," Dwight E. Neuenschwander, Am. J. Phys. 62 (11), 972 (1994)]. - Robert C. Hilborn; 63 (4), 298-9 (Q).
Question #17. What happens to energy in the cosmic expansion? - Frank Munley; 63 (5), 394 (Q).
Question #18. Simple proofs of Ampere's law. - A. P. French; 63 (5), 394 (Q).
Answer to Question #2. ["Quark masses and binding energy in a proton." James R. Huddle, Am. J. Phys. 62(10), 871(1994)]. - Kenneth J. Epstein; 63 (5), 394 (Q).
Answer to Question #9. ["Why are diamonds such good thermal conductors?" Robert W. Cole, Am. J. Phys. 63, 13 (1995)]. - M. D. Sturge; 63 (5), 394-5 (Q).
Question #19. Noether's theorem and discrete symmetries. - Dwight E. Neuenschwander; 63 (6), 489 (Q).
Question #20. Coupling a speaker to a closed-tube resonator. - Richard W. Peterson; 63 (6), 489 (Q).
Answer to Question #5 ["Massive neutrinos," Mary L. Boas, Am. J. Phys. 62(11), 972(1994)]. - Richard Hammond; 63(6), 489(Q).
Answer to Question #12 ["Where did the 10 come from in the ratio of the coulomb to the statcoulomb?" Jay Orear, Am. J. Phys. 63(2), 108 (1995)]. - Mario Iona; 63(6), 489-90(Q).
Answer to Question #12 ["Where did the 10 come from in the ratio of the coulomb to the statcoulomb?" Jay Orear, Am. J. Phys. 63(2), 108 (1995)]. - James B. Calvert; 63 (6), 490(Q).
Question #21. Snell's law in quantum mechanics. - Steve Blau and Brad Halfpap; 63 (7), 583 (Q).
Question #22. Is there a gravitational force or not? - Barbara S. Andereck; 63 (7), 583 (Q).
Question #23. What keeps it centered? - Lewis Carroll Epstein; 63 (7), 583 (Q).
Answer to Question #4. ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - Fernando J. Lopez-Lopez; 63 (7), 583-4 (Q).
Answer to Question #4. [Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - F. M. Phelps; 63 (7), 584-6 (Q).
Responses to Question #4. "Is there a physics application that is best analyzed in terms of continued fractions?". - Dwight E. Neuenschwander; 63 (7), 586 (Q).
Question #24. Can an electron be at rest? - Terrence P. Toepker; 63 (9), 777 (Q)
Question #25. Escape velocity from the universe. - Charles Hayes; 63(9), 777 (Q).
Question #26. Electromagnetic field momentum. - Robert H. Romer; 63 (9), 777-9 (Q).
Answer to Question # 1. ["How does a Brownian particle at rest get kicked up to kT?," Frank Munley, Am. J. Phys. 62(6), 871 (1994)]. - Eduardo Sanchez-Velasco; 63(9), 779 (Q).
Answer to Question #15. ["What space scales participate in cosmic expansion?," Frank Munley, Am. J. Phys. 63(4), 297 (1995)]. - Steven K. Blau; 63 (9), 779-80 (Q).
Answer to Question #15. ["What space scales participate in cosmic expansion?," F. Munley, Am. J. Phys. 63(4), 297 (1995)]. - Craig Callender and Robert Weingard; 63 (9), 780 (Q).
Question #27. Supernovae Models. - Dwight E. Neuenschwander; 63(10), 875 (Q).
Question #28. Bernoulli equation. - A. P. French; 63(10), 875(Q).
Question #29. Why is the Coulomb force neglected in e+ e- pair production? - Kaorn Sasabe; 63 (10), 875 (Q).
Answer to Question #14 ["Simple Arguments for the Boltzmann Factor?," Dwight E. Neuenschwander, Am. J. Phys. 63 (2), 108 (1995)]. - Harold S. Zapolsky; 63 (10), 875-6 (Q).
Answer to Question #14 ["Simple arguments for the Boltzmann factor?," Dwight E. Neuenschwander, Am. J. Phys. 63 (2), 108 (1995)]. - Charles A. Whitney; 63 (10), 876-7 (Q).
Answer to question 14: ["Simple arguments for the Boltzmann factor?," Dwight E. Neuenschwander, Am. J. Phys. 63 (2), 108 (1995)]. - J. H. Hannay; 63 (10), 877(Q).
Answer to Question #14 ["Simple Arguments for the Boltzmann Factor?," Dwight E. Neuenschwander, Am. J. Phys. 63 (2), 108 (1995)]. - Harvey S. Leff; 63(10), 877-8 (Q).
Question #30. How are positrons moderated? - Thomas D. Rossing; 63 (12), 1065 (Q).
Question #31. Does any piece of mathematics exist for which there is no application whatsoever in physics? - Dwight E. Neuenschwander; 63(12), 1065 (Q).
Question #32. How do gravitons interact with black holes? - David L. Wallach; 63 (12), 1065 (Q).
Answer to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63 (1), 13 (1995)]. - Lior M. Burko; 63 (12), 1065-6 (Q).
Answers to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63 (1), 13 (1995)] and Question #17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63 (5), 394 (1995)]. - Steve Blau; 63 (12), 1066-7 (Q).
Answer to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63(1), 13 (1995)]. - David Keeports; 63(12), 1067 (Q).
Answer to Question #17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63(5), 394(1995)]. - W. N. Mathews, Jr.; 63(12), 1067 (Q).
Answer to Question #17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63 (5), 394 (1995)). - R. H. Garstang; 63 (12), 1067-8 (Q).

1.10 Announcements, news, and awards, and organizational activities

Uncommon Sense: The Heretical Nature of Science. - Alan Cromer, Author and Alfred Romer; 63 (2), 191-2(B).
Video introductions to laboratory: Students positive, grades unchanged. - R. A. Lewis; 63 (5), 468-70.
Frederick Reif: Recipient of the Robert A. Millikan Medal. - 63 (1), 16.
Erratum: "The World Around Us, E. Leonard Jossem's acceptance speech for the 1994 Oersted Medal presented by the American Association of Physics Teachers, 6 January 1994" [Am. J. Phys. 62(7), 589-595 (1994)). - E. Leonard Jossem; 63(1), 89(E).
Editorial: AJP's 1994 Referees. - Don S. Lemons and Robert H. Romer; 63 (6), 491-2 (C).
American Association of Physics Teachers: Citations for Distinguished Service, 1995. - Reuben E. Alley, Jr.; 63 (6), 493-4.
American Association of Physics Teachers 1995 Oersted Medalist: Robert Beck Clark. - Reuben E. Alley; 63 (7), 588.
Standing on the Shoulders of Giants, Robert Beck Clark's acceptance speech for the 1995 Oersted Medal presented by the American Association of Physics Teachers, 17 January 1995. - Robert Beck Clark; 63 (7), 589-91.
The new morning of the world. - Richard Rhodes; 63(12), 1070-3.

1.30. Physics literature and publications

The End of Physics: The Myth of a Unified Theory. - David Lindley, Author and David G. Boulware; 63 (1), 92(B).
Laser Spectroscopy: Selected Reprints. - R. Gupta, Editor and Lutz Hüwel; 63 (1), 92-3 (B).
Modern Quantum Mechanics, Revised Edition. - J. J. Sakurai, Author, S. F. Tuan, Editor, and Eugene D. Commins; 63 (1), 93-5 (B).
A Matter of Choices: Memoirs of a Female Physicist. - Fay Ajzenberg-Selove, Author and Judy R. Franz; 63 (1), 95-6 (B).
Post-Use Review. Physics for Scientists and Engineers, Extended Version. - Paul M. Fishbane, Author, Stephen Gasiorowicz, Author, Stephen T. Thornton, Author, Steven E. Jones, Lawrence B. Rees, and William E. Dibble; 63(2), 188-9 (B).
Einstein Lived Here. - Abraham Pais, Author and A. P. French; 63 (2), 189-90 (B).
The Physics of Chance: From Blaise Pascal to Niels Bohr. - Charles Ruhia, Author and Charles A. Whitney; 63 (2), 190-1(B).
Uncommon Sense: The Heretical Nature of Science. - Alan Cromer, Author and Alfred Romer; 63 (2), 191-2 (B).
On the problem of making science attractive for women and minorities: An annotated bibliography. - Jan M. Yarrison-Rice; 63(3), 203-11.
The Refrigerator and the Universe: Understanding the Laws of Energy. - Martin Goldstein, Author, Inge F. Goldstein, Author, and Harvey S. Leff, 63 (3), 282-3 (B).
Post-Use Review: Numerical Methods for Physics. - Alejandro L. Garcia, Author and Patrick Hamill; 63 (3), 283 (B).
A First Course in Computational Physics. - Paul L. DeVries, Author and Patric Hamill; 63 (3), 283 (B).
Computational Physics. - Steven E. Koonin Author and Patrick Hamill; 63 (3), 283-5 (B).
Quantum Theory: Concepts and Methods. - Asher Peres, Author and Leslie E. Ballentine; 63 (3), 285-6 (B).
Homework and Test Questions for Introductory Physics Teaching. - Arnold Arons, Author and Priscilla W. Laws; 63 (3), 286-7 (B).
Hostages of Each Other: The Transformation of Nuclear Safety since Three Mile Island. - Joseph V. Rees, Author and Marc Eisner; 63 (4), 380-1(B).
Waves Called Solitons: Concepts and Experiments. - M. Remoissenet, Author and J. A. Whitehead; 63 (4), 381-2 (B).
Energy, Physics and the Environment. - Ernest L. McFarland, Author, James L. Hunt, Author, J. L. Campbell, Author, and Ruth H. Howes; 63 (4), 382-3 (B).
QED and the Men Who Made It: Dyson, Feynman, Schwinger, and Tomonaga. - Silvan S. Schweber, Author and Felix M. H. Villars; 63 (4), 383-4 (B).
A First Course in Computational Physics. - Paul L. DeVries, Author and Patrick Hamill; 63 (3), 383 (B).
Prometheus Bound: Science in a dynamic steady state. - John Ziman, Author and Roland W. Schmitt; 63 (5), 476-7 (B).
Strange Attractors: Creating Patterns in Chaos. (Floppy disk and 3D glasses included.). - Julian C. Sprott, Author and Ralph H. Abraham; 63 (5), 477 (B).
Quantum Optics. - D. F. Walls, Author, G. J. Milburn, Author, and John C. Garrison; 63 (5), 477-8 (B).
Health and Low-Frequency Electromagnetic Fields. - William Ralph Bennett, Jr., Author and Kenneth W. Ford; 63 (5), 478-9 (B).
Space, Time and Quanta: An Introduction to Contemporary Physics. - Robert Mills, Author and Robert E. Reynolds; 63 (6), 572-3 (B).
An Equation that Changed the World: Newton, Einstein, and the Theory of Relativity. - Harald Fritzsch, Author and Hans Christian von Baeyer; 63 (6), 573 (B).
Group Theory and Physics. - Shlomo Sternberg, Author and Eugene Golowich; 63 (6), 573-4 (B).
Post-Use Review. Principles of Electronic Instrumentation, Third Edition. - A. James Diefenderfer, Author, Brian E. Holton, Author, and C. W. S. Conover; 63 (6), 574-6 (B).
Post-Use Review. Electric and Magnetic Interactions. - Ruth Chabav, Author, Bruce Sherwood, Author, and John E. Gastineau; 63 (7), 669 (B).
Angular Momentum: An Ulustrated Guide to Rotational Symmetries for Physical Systems. - William J. Thompson, Author and LeRoy F. Cook; 63 (7), 670-1(B).
Quantum Mechanics. - Sara M. McMurry, Author and Donald H. Kobe; 63 (7), 671-2 (B).
Editorial: Strong inequalities. - Robert H. Romer; 63 (8), 681-2 (C).
Rydberg Atoms. - Thomas F. Gallagher, Author and James E. Bayfield; 63 (8), 765 (B).
The Fundamental Particles and Their Interactions. - William B. Rolnick, Author and D. B. Lichtenberg; 63 (8), 765-6 (B).
Thinking in Complexity: The Complex Dynamics of Matter, Mind, and Mankind. - Klaus Mainzer, Author and Rolf Landauer; 63 (8), 766-7 (B).
Introduction to Quantum Mechanics. - David J. Griffiths, Author and Edward G. Harris; 63 (8), 767-8 (B).
Demonstrating Science with Soap Films. - David Lovett, Author and Clinton Van Siclen; 63 (9), 860-1(B).
A Guide To Physics Problems. Part 1: Mechanics, Relativity, and Electrodynamics. - Sidney B. Cahn, Author, Boris E. Nadgorny, Author, and Paul D. Scholten; 63 (9), 861(B).
Statistical Methods for Physical Science. (Methods of Experimental Physics, Vol.28.). - John L. Stanford, Author, Stephen B. Vardeman, Author, and William J. Thompson; 63 (9), 861-2 (B).
The Essence of Chaos. - Edward N. Lorenz, Author and Robert C. Hilborn; 63 (9), 862-3 (B).
v, nu, OR v? - Ralph Baierlein; 63 (10), 874 (L).
Physics by Example: 200 Problems and Solutions. - W. G. Rees, Author and T. William Houk; 63 (10), 959 (B).
From Electrostatics to Optics: A Concise Electrodynamics Course. - Gtinter Scharf, Author and Richard A. Matzner; 63(10), 959-60 (B).
Post-Use Review: Scouting Black Holes. Exploring General Relativity with Calculus. - Edwin F. Taylor, Author, John Archibald Wheeler, Author, and Thomas A. Roman; 63(11), 1053-4(B).
New Astronomy. - Johannes Kepler, Author, C. Doris Heilman, and James Evans; 63(11), 1054(B).
Kepler. - Max Caspar, Author and James Evans; 63 (11), 1054-5 (B).
Einstein, History, and Other Passions. - Gerald Holton, Author and Clayton A. Gearhart; 63(11), 1055-6(B).
Post-Use Review. Principles of Physics. - Raymond A. Serway, Author, Alfonso M. Albano, James Arrison, and Tina M. Mello; 63(12), 1154 (B).
Quantum Mechanics: Historical Contingency and the Copenhagen Hegemony. - James T. Cushing, Author and Tim Maudlin; 63 (12), 1155-6(B).
The Collected Works of Eugene Paul Wigner. Part A: Scientific Papers. Volume V: Nuclear Energy. - Alvin M. Weinberg, Author, Alfred M. Perty, Author, and Lawrence Ruby; 63 (12), 1156-7(B).

1.30.R Surveys and tutorial papers; resource letters

Editorial: A century of Resource Letters. - Robert H. Romer; 63 (4), 302 (C).
One Hundred Resource Letters, 1962-1995. - A. P. French and Roger H. Stuewer; 63 (4), 303-6.
Resource Letter: TFM- 1: Time and frequency measurement. - Christine Hackman and Donald B. Sullivan; 63 (4), 306-17.
Resource Letter QIMS1: Quantum interference in macroscopic samples. - S. Das Sarma, T. Kawamura, and S. Washburn; 63 (8), 683-94.
Resource letter: LC- 1: Liquid crystals: Physics and applications. - Renate J. Ondris-Crawlord, Gregory P. Crawford, and J. William Doane; 63 (9), 781-8.

1.40 Education: Course design and evaluation, teaching methods, curricula; research in physics education

Downsizing physics. - John D. Spangler; 63 (1), 11-2 (L).
Particle physics in the modern physics course. - Joshua B. Diamond; 63(1), 12(L).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62(10), 871(1994)]. - Howard C. Bryant; 63(1), 14(Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - Lawrence Ruby; 63(1), 14-5(Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871 (1994)]. - Budh Ram; 63(1), 15 (Q).
Millikan Lecture 1994: Understanding and teaching important scientific thought processes. - Frederick Reif; 63 (1), 17-32.
Elementary derivation of the relativistic velocity addition law. - L. Sartori; 63(1), 81-2.
On weightlessness. - A. P. French; 63 (2)105-6 (L).
International weight. - Mario Iona; 63 (2), 106 (L).
Question #12. Where did the 10 come from in the ratio of the coulomb to the statcoulomb? - Jay Orear; 63 (2), 108 (Q).
Question #13. A central organizing principle for statistical and thermal physics? - Ralph Baierlein; 63 (2), 108 (Q).
Question # 14. Simple arguments for the Boltzmann factor? - Dwight E. Neuenschwander; 63 (2), 108 (Q).
Answer to Question # 1 ["How a Brownian particle at rest gets kicked up to kT." Frank Munley, Am. J. Phys. 62 (10), 871 (1994)]. - Daniel T. Gillespie; 63 (2), 108-9 (Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?" Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871 (1994)]. - Christopher Tong; 63 (2), 109 (Q).
Answer to Question #7 ["The spin-statistics theorem," Dwight E. Neuenschwander, Am. J. Phys. 62 (11), 972 (1994)]. - Roy R. Gould; 63 (2), 109 (Q).
Guest Comment: Ethical issues in physics - We need a focused course. - Marshall Thomsen; 63 (2), 110-1(G).
Self-directed learning: A heretical experiment in teaching physics. - M. P. Silverman; 63 (6), 495-508.
Question #22. Is there a gravitational force or not? - Barbara S. Andereck; 63 (7), 583 (Q).
Guest Comment: Teaching writing to teach physics. - Stephen F. Becker; 63 (7), 587 (G).
A modeling method for high school physics instrnction. - Malcolm Wells, David Hestenes, and Gregg Swackhamer; 63 (7), 606-19.
Editorial: Strong inequalities. - Robert H. Romer; 63 (8), 681-2 (C). Fermi's golden rule and Bardeen's tunneling theory. - H. J. Reittu; 63 (10), 940-4.
Effect of in-class student-student interaction on the learning of physics in a college physics course. - Mohammad Samiullah; 63 (10), 944-50.
Magnetic forces and fields: A note on terminology, definitions, and pedagogy. - Thomas D. Rossing; 63(10), 957-8 (L).
Guest Comment: Training for the real world in science and technology: Science is a business. - Douglas N. Arion; 63(11), 969 (G).
Making the invisible visible: A teaching/learning environment that builds on a new view of the physics learner. - Fred Goldberg and Sharon Bendall; 63(11), 978-91.
Students' confidence and teachers' styles: A binational comparison. - Jeffry V. Mallow; 63(11), 1007-11.
Guest Comment: What do graduate oral exams tell us? - David Hestenes; 63(12), 1069 (G).
Modernizing introductory physics. - C. H. Holbrow, J. C. Amato, E. J. Galvez, and J. N. Lloyd; 63(12), 1078-90.
Smooth transitions between the three damping cases for the harmonic oscillator. - Francis J. McCormack; 63(12), 1151.

1.50.H Instructional computer use

Centripetal acceleration derivation. - Kenneth R. Browostein; 63 (2), 107 (L).
One-, two-, or three-dimensional fields? - T. E. Freeman; 63 (3), 273-4 (L).
v, nu OR v? - Ralph Baierlein; 63 (10), 874 (L).
Conceptual questions in computer-assisted assignments. - E. Kashy, S. J. Gaff, N. H. Pawley, W. L. Stretch, S. L. Wolfe, D. J. Morrissey, and Y. Tsai; 63 (11), 1000-5.
Teaching physics on line. - Richard C. Smith and Edwin F. Taylor; 63 (12), 1090-6.

1.50.M Demonstration experiments and apparatus

Cyclotron analog applied to the measurement of rolling friction. - Ian Edmonds, Nicholas Giannakis, and Chris Henderson; 63(1), 76-80.
Demonstration of charge conservation. - Wolfgang Rueckner, Douglass Goodale, Daniel Rosenberg, and David Tavilla; 63 (1), 90-1(L).
Fusion simulator. - Lawrence Ruby; 63 (2), 107 (L).
Undergraduate laboratory demonstration of aspects of phase transitions using Curie temperature determination in amorphous ferromagnetic materials. - David G. Fisher and William T. Franz; 63(3), 248-51.
Question #16. Eastward deflection of a falling body. - A. P. French; 63 (4), 297 (Q).
Mechanical resonance displaying changes in phase to large audiences. - R. Dorner, L. Kowalski, and M. Stein; 63 (4), 364-9.
Gravitational lenses and plastic simulators. - Ronald J. Adler, William C. Barber, and Mark E. Redar; 63 (6), 536-41.
A magnetic circuit demonstration. - John Vanderkooy and June Lowe; 63 (6), 570-1(L).
Demonstrating the light-emitting diode. - David A. Johnson; 63 (8), 761-2 (L).
Demonstrating crystal optics using microwaves on wood targets. - Benjamin S. Perkalskis and J. Reuben Freeman; 63 (8), 762-4.
Demonstration of Amperian currents. - E. W. Dearden; 63 (9), 821-2.
Comment on "A surprising mechanics demonstration," by A. R. Marlow [Am. J. Phys. 59, 951-952 (1991)]. - R. E. J. Sears; 63(9), 854-5 (L).
The intransigent rod. - S. A. A. Zaidi; 63 (9), 856-7.
Demonstrating Science with Soap Films. - David Lovett, Author and Clinton Van Siclen; 63 (9), 860- 1(B).
Pascal's demonstration experiment: Weighing the atmosphere. - J. B. Brown, J. C. Dore, C. Isenberg, and S. J. Rogers; 63 (10), 886-8.
A variable mass physical pendulum. - James E. Kettler; 63 (11), 1049-51.

1.50.P Laboratory experiments and apparatus, laboratory course design

Mach-Zehnder interferometer as an instructional tool. - Paul Nachman; 63 (1), 39-43.
Near-field-far-field transition of a finite line source using incoherent light: A student laboratory experiment. - Xincheng Yan, Yixin Yu, Louis Shen, and Keith H. Wanser; 63(1), 47-53.
Experiment to demonstrate diffusion doping. - E. D. Jones; 63 (1), 66-71.
Data analysis in the undergraduate nuclear laboratory. - Byron Curry, Dave Riggins, and P. B. Siegel; 63 (1), 71-6.
Many oscillations of a rigid rod. - Alan Cromer; 63(2), 112-21.
Rotating saddle Paul trap. - Wolfgang Rueckner, Justin Georgi, Douglass Goodale, Daniel Rosenberg, and David Tavilla; 63 (2), 186-7 (L).
A mechanical resonance apparatus for undergraduate laboratories. - Christopher C. Jones; 63 (3), 232-6.
Laboratory experiment for the ratio of specific heats of air. - J. Mottmann; 63 (3), 259-60.
Inexpensive laser cooling and trapping experiment for undergraduate laboratories. - Carl Wieman, Gwenn Flowers, and Sarah Gilbert; 63(4), 317-30.
Heat, light, and videotapes: Experiments in heat conduction using liquid crystal film. - Michael E. Bacon, R. M. Wick, and P. Hecking; 63 (4), 359-63.
Why isn't every physicist a Bayesian? - Robert D. Cousins; 63 (5), 398-410.
Transmission line exercises for the introductory physics laboratory. - George H. Watson; 63 (5), 423-5.
Thermoacoustic heat pumps with maximum power transfer. - Boye Ahlborn and Jean Camire; 63 (5), 449-51.
Self-directed learning: A heretical experiment in teaching physics. - M. P. Silverman; 63 (6), 495-508.
Shot-noise measurements of the electron charge: An undergraduate experiment. - D. R. Spiegel and R. J. Helmer; 63 (6), 554-60.
Coherent backscattering of light. - R. Corey, M. Kissner, and P. Saulnier; 63 (6), 560-4.
Post-Use Review. Principles of Electronic Instrnmentation, Third Edition. - A. James Diefenderfer, Author, Brian E. Holton, Author, and C. W. S. Conover; 63 (6), 574-6 (B).
Autocorrelation of electrical noise: An undergraduate experiment. - J. Loren Passmore, Brandon C. Collings, and Peter J. Collings; 63 (7), 592-5. Teaching physics with 670 nm diode lasers - construction of stabilized lasers and lithium cells. - K. G. Libbrecht, R. A. Boyd, P. A. Willems, T. L. Gustavson, and D. K. Kim; 63(8), 729-37.
Simple, inexpensive probe for resistivity measurements above 77 K on metals and superconductors. - K. G. Vandervoort, J. M. Willingham, and C. H. Morris; 63 (8), 759-60(L).
Observing thermomigraticon of air bubbles in a fluid under gravity at an undergraduate research laboratory. - J.-F. Simard, A. Houdayer, R. Boudreault, S. Be langer, and A. Lascouan; 63 (9), 796-9.
The brightest beam in science: New directions in electron microscopy and interferometry - M. P. Silverman, Wayne Strange, and J. C. H. Spence; 63 (9), 800-13.
Intrinsic optical bistability in a semiconductor doped glass filter. - F. Pereira, J.R. Salcedo, and M. Belsley; 63 (9), 844-9.
An apparatus for growth of small crystals from solutions. - Mico M. Mitrovic; 63 (9), 858-9.
A "black box" moment of inertia apparatus. - Joseph C. Amato, Roger E. Williams, and Hugh Helm; 63(10), 891-4.
Two student experiments con electrical fluctuations. - Yaakcov Kraftmakher; 63 (10), 932-5.
The Millikan coil-drop experiment: Making it worthwhile. - Ray C. Jones; 63(11), 970-7.
The partial ring pendulum. - David L. Wagner, Thomas A. Walkiewicz, and David A. Giltinan; 63 (11), 1014-7.
Flow profile study using miniature laser-Doppler velocimetry. - W. E. Booij, A. de Jongh, and F. F.M. de Mul; 63(11), 1028-33.
Potential distribution in the van der Pauw technique. - D. K. de Vries and A. D. Wieck; 63 (12), 1074-8.
Using a PC as a frequency meter or a counter. - J. Sartori, T. Catunda, and L. A. O. Nunes; 63(12), 1152-3.

1.55 General physics

Particle physics in the modern physics course. - Joshua B. Diamond; 63(1), 12(L).
Millikan Lecture 1994: Understanding and teaching important scientific thought processes. - Frederick Reif; 63 (1), 17-32.
The End of Physics: The Myth of a Unified Theory. - David Lindley, Author and David G. Bcoulware; 63 (1), 92 (B).
On weightlessness. - A. P. French; 63 (2), 105-6 (L).
International weight. - Mario Icona; 63 (2), 106 (L).
Guest Comment: Why undergraduates leave the sciences. - Elaine Seymour; 63 (3), 199-202 (G).
Updates for the periodic chart of the elements. - Lawrence Ruby; 63 (5), 391(L).
Feynman's "great law of nature". - Arnn Pratap; 63(5), 391(L).
A Guide To Physics Problems. Part 1: Mechanics, Relativity, and Electrodynamics. - Sidney B. Cahn, Author, Boris E. Nadgorny, Author, and Paul D. Scholten; 63 (9), 861(B).
Pressure melting and ice skating. - S. C. Colbeck; 63(10), 888-90.
Physics by Example: 200 Problems and Solutions. - W. G. Rees, Author and T. William Houk; 63(10), 959 (B).
Question #31. Does any piece of mathematics exist for which there is no application whatsoever in physics? - Dwight E. Neuenschwander; 63(12), 1065 (Q).
Post-Use Review. Principles of Physics. - Raymond A. Serway, Author, Alfonsco M. Albanco, James Airiscon, and Tina M. Mello; 63(12), 1154 (B).

1.60 Biographical and personal notes

A Matter of Choices: Memoirs of a Female Physicist. - Fay
Ajzenberg-Selove, Author and Judy R. Franz; 63 (1), 95-6(B).
Lise Meitner, Manne Siegbahn, and Adolf Hitler. - Claude Kacser; 63 (2), 106-7 (L).
Einstein Lived Here. - Abraham Pais, Author and A. P. French; 63 (2), 189-90(B).
QED and the Men Who Made It: Dyson, Feynman, Schwinger, and Tomonaga. - Silvan S. Schweber, Author and Felix M. H. Villars; 63 (4), 383-4 (B).
Stalin and the Bomb. The Soviet Union and Atomic Energy, 1939-1956. - David Holloway, Author and Jonathan Coopersmith; 63 (7), 669-70 (B).
New Astronomy. - Johannes Kepler, Author, C. Doris Hellman, and James Evans; 63 (11), 1054 (B).
Kepler. - Max Caspar, Author and James Evans; 63 (11), 1054-5 (B).
Einstein, History, and Other Passions. - Gerald Holton, Author and Clayton A. Gearhart; 63 (11), 1055-6(B).
The Collected Works of Eugene Paul Wigner. Part A: Scientific Papers. Volume V: Nuclear Energy. - Alvin M. Weinberg, Author, Alfred M. Perry, Author, and Lawrence Ruby; 63 (12), 1156-7(B).

1.65 History of science

Lise Meitner, Manne Siegbahn, and Adolf Hitler. - Claude Kacser; 63 (2), 106-7 (L).
The Physics of Chance: From Blaise Pascal to Niels Bohr. - Charles Ruhla, Author and Charles A. Whitney; 63 (2), 190-1(B).
Uncommon Sense: The Heretical Nature of Science. - Alan Cromer, Author and Alfred Romer; 63 (2), 191-2 (B).
Guest Comment: Why undergraduates leave the sciences. - Elaine Seymour; 63 (3), 199-202 (G).
Poincare,'s proof of the quantum discontinuity of nature. - Jeffrey J. Prentis; 63 (4), 339-50.
Heisenberg's lattice world: The 1930 theory sketch. - Bruno Carazza and Helge Kragh; 63 (7), 595-605.
Stalin and the Bomb. The Soviet Union and Atomic Energy, 1939-1956. - David Holloway, Author and Jonathan Coopersmith; 63 (7), 669-70 (B).
Bethe, Bell and De Broglie. - M. A. B. Whitaker; 63 (10), 873 (L).
Emil Cohn's electrodynamics of moving bodies. - Olivier Darrigol; 63(10), 908-15.
New Astronomy. - Johannes Kepler, Author, C. Doris Hellman, and James Evans; 63(11), 1054(B).
Kepler. - Max Caspar, Author and James Evans; 63 (11), 1054-5 (B).
Einstein, History, and Other Passions. - Gerald Holton, Author and Clayton A. Gearhart; 63(11), 1055-6(B).
The new morning of the world. - Richard Rhodes; 63 (12), 1070-3.

1.75 Science and society

Lise Meitner, Manne Siegbahn, and Adolf Hitler. - Claude Kacser; 63 (2), 106-7 (L).
Women in astronomy: Inclusion in introductory textbooks. - Kristine M. Larsen; 63 (2), 126-31.
On the problem of making science attractive for women and minorities: An annotated bibliography. - Jan M. Yarrison-Rice; 63 (3), 203-11.
Guest Comment: To support basic research and to develop scientific talent. - Neal F. Lane; 63 (4), 300-1(G).
Catholic church vs science? - John L. Hubisz; 63(5), 391-2(L).
What is your evidence? - Mark M. Payne; 63 (5), 392-3 (L).
Guest Comment: Physics and the new order. - David Markcowitz; 63 (5), 396-7 (G).
Prometheus Bound: Science in a dynamic steady state. - John Ziman, Author and Roland W. Schmitt; 63 (5), 476-7 (B).
Stalin and the Bomb. The Soviet Union and Atomic Energy, 1939-1956. - David Holloway, Author and Jonathan Coopersmith; 63 (7), 669-70 (B).
Showing women in astronomy. - Jay M. Pasachoff; 63(10), 873-4 (L).
Exponential growth and the Catholic church. - Albert A. Bartlett; 63 (10), 874(B).
Guest Comment: The imagination of well-prepared minds. - Neil L. Rudenstine; 63 (10), 879-81(G).
Guest Comment: Training for the real world in science and technology: Science is a business. - Douglas N. Arion; 63 (11), 969 (G).
The new morning of the world. - Richard Rhodes; 63(12), 1070-3.

2. Mathematics and mathematical physics

Energy, Physics and the Environment. - Ernest L. McFarland, Author, James L. Hunt, Author, J. L. Campbell, Author, and Ruth H. Howes; 63 (4), 382-3 (B).
Health and Low-Frequency Electromagnetic Fields. - William Ralph Bennett, Jr., Author and Kenneth W. Ford; 63 (5), 478-9 (B).
Vacuum catastrophe: An elementary exposition of the cosmological constant problem. - Ronald J. Adler, Brendan Casey, and Ovid C. Jacob; 63 (7), 620-6.
Electronic paramagnetism in bicomolecular structure and function. - A. S. Brill, F. G. Fiamingo, and B. S. Gerstman; 63(12), 1096-114.
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62(10), 871(1994)]. - Howard C. Bryant; 63(1), 14(Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - Lawrence Ruby; 63 (1), 14-5 (Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871 (1994)]. - Budh Ram; 63(1), 15(Q).
The Ricci tensor of a diagonal metric. - J. B. Boyling; 63 (2), 168-71.
Representing a vector field: Helmhcoltz's theorem derived from a Fourier identity. - Ralph Baierlein; 63 (2), 180-2 (L).
The Physics of Chance: From Blaise Pascal to Niels Bohr. - Charles Ruhla, Author and Charles A. Whitney; 63(2), 190-1(B).
Statistico-hermcodynamic properties of a binary alloy. - Marcel Porta and Teresa Castan; 63 (3), 261-7.
Comment on "Chaos is not an artifact of finite-digit arithmetic," by R. H. Dalling and M. E. Goggin [Am. J. Phys. 62(6), 563-564 (1994)]. - David Auerbach; 63 (3), 276(L).
A response to D. Auerbach's "Comment con 'Chaos is not an artifact of finite-digit arithmetic'" [Am. J. Phys. 63, 276 (1995)]. - M. E. Goggin and R. H. Dalling; 63 (3), 277 (L).
The appearance of nonclassical terms in the analysis of point-source fields. - Ricardo Estrada and Ram P. Kanwal; 63 (3), 278 (L).
Why isn't every physicist a Bayesian? - Robert D. Cousins; 63 (5), 398-410.
Group Theory and Physics. - Shlcomco Sternberg, Author and Eugene Golcowich; 63 (6), 573-4 (B).
Answer to Question #4. ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - Fernando J. Lopez-Lopez; 63 (7), 583-4 (Q).
Answer to Question #4. [Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - F. M. Phelps; 63 (7), 584-6 (Q).
Responses to Question #4. "Is there a physics application that is best analyzed in terms of continued fractions?". - Dwight E. Neuenschwander; 63 (7), 586 (Q).
The Cartesian rank two representation of spherical tensors with an application to Raman scattering. - Eddy H. van Kleef; 63 (7), 626-33.
Statistical Methods for Physical Science. (Methods of Experimental Physics, Vol.28.). - John L. Stanford, Author, Stephen B. Vardeman, Author, and William J. Thompson; 63 (9), 861-2 (B). D-dimensional moments of inertia. - Carl M. Bender and Lawrence R. Mead; 63(11), 1011-4.

3.20 Classical mechanics of discrete systems

Closed orbits and Bertrand's theorem. - Philip A. Macklin; 63 (1), 11(L).
Foucault pendulum "wall clock". - H. Richard Crane; 63(1), 33-9.
Cyclotron analog applied to the measurement of rolling friction. - Ian Edmonds, Nicholas Giannakis, and Chris Henderson; 63 (1), 76-80.
Mud thrown from a wheel again. - Frank O. Goodman; 63 (1), 82-3 (L).
On weightlessness. - A. P. French; 63 (2), 105-6 (L)).
International weight. - Mario Icona; 63 (2), 106 (L).
Centripetal acceleration derivation. - Kenneth R. Brcownstein; 63 (2), 107 (L).
Many oscillations of a rigid rod. - Alan Cromer; 63(2), 112-21.
Periodic orbits of the integrable swinging Atwood's machine. - Ana Nunes, Josefina Casasayas, and Nicholas Tufillarco; 63 (2), 121-6.
Parametric instability of a pendulum. - F. L. Curzon, A. L. H. Loke, M. E. Lefrancois, and K. E. Novik; 63 (2), 132-6.
Statics of a ladder leaning against a rough wall. - Kenneth S. Mendelson; 63 (2), 148-50.
Rotating saddle Paul trap. - Wolfgang Rueckner, Justin Gecorgi, Douglass Gocodale, Daniel Rosenberg, and David Tavilla; 63 (2), 186-7(L).
Guest Comment: Why undergraduates leave the sciences. - Elaine Seymour; 63 (3), 199-202 (G).
The physics of perfect rockets. - Robert H. Gowdy; 63 (3), 229-32.
Problem: Which rigid bodies have constant inertia tensors? - J. Casey and S. Krishnaswamy; 63 (3), 276.
Ball on a rotating turntable: Comparison of theory and experiment. - Robert Ehrlich and Jarcoslaw Tuszynski; 63 (4), 351-9.
A comparison of three types of scale invariance. - Kevin R. Cornelius; 63 (5), 474-5 (L).
Comment on "Classical orbits in power-law potentials". - Hua Wu and D. W. L. Sprung; 63(6), 564-7.
Question #23. What keeps it centered? - Lewis Carroll Epstein; 63 (7), 583 (Q).
On the derivation of Coricolis and other noninertial accelerations. - Guy Vandegrift; 63 (7), 663.
Rolling motion and crnmpled surfaces. - Lawrence R. Mead, R. F. Folse, and Anna Cole; 63 (8), 746-9.
Macroscopic motion in systems at thermal equilibrium. - Amit Ghosh and Partha Mukhopadhyay; 63 (8), 753-5.
Problem: The energy required to fly. - Peter Palify-Muhoray; 63 (9), 780.
Control of the chaotic driven pendulum. - Gregory L. Baker; 63 (9), 832-8.
Comment on "A surprising mechanics demonstration," by A. R. Marlow [Am. J. Phys. 59, 951-952 (1991)]. - R. E. J. Sears; 63 (9), 854-5 (L).
The intransigent rod. - S. A. A. Zaidi; 63 (9), 856-7.
A "black box" moment of inertia apparatus. - Joseph C. Amato, Roger E. Williams, and Hugh Helm; 63 (10), 891-4.
Thermodynamic insights from a cone-particle gas. - Harvey S. Leff; 63(10), 895-905.
Bouncing due to the "infinite jerk" at the end of a circular track. - W. F. D. Thercon; 63 (10), 950-5.
The partial ring pendulum. - David L. Wagner, Thomas A. Walkiewicz, and David A. Giltinan; 63 (11), 1014-7.
A variable mass physical pendulum. - James E. Kettler; 63 (11), 1049-51.
Chaotic pendulum based con torsion and gravity in opposition. - Randall D. Peters; 63(12), 1128-36.
Smooth transitions between the three damping cases for the harmonic oscillator. - Francis J. MeCormack; 63 (12), 1151.

3.30 Special relativity

The mass of a gas of massless photons. - H. Kolbenstvedt; 63(1), 44-6.
Elementary derivation of the relativistic velocity addition law. - L. Sartori; 63(1), 81-2.
Some remarks about intrinsic parity in Ryder's derivation of the Dirac equation. - Fabian H. Gaicoli and Edgardo T. Garcia Alvarez; 63 (2), 177-8 )L).
Faster than light motion of wave packet maxima in a nondispersive medium. - H. Friedrich; 63 (2), 183-4(L).
The interstellar traveler. - C. Lagoute and E. Davoust; 63 (3), 221-7.
The principle of relativity as applied to moticonal electromagnetic induction. - J. Guala Valverde and P. Mazzoni; 63 (3), 228-9.
Retardation and relativity: Derivation of Lorentz-Einstein transformations from retarded integrals for electric and magnetic fields. - Oleg D. Jefimenko; 63 (3), 267-72.
Lorentz contraction: A real change of shape. - Raymond A. Sorensen; 63 (5), 413-5.
Retardation and relativity: The ease of a moving line charge. - Oleg D. Jefimenko; 63 (5), 454-9.
Relativistic mass increase at slow speeds. - Gerald Gabrielse; 63 (6), 568-9.
Space, Time and Quanta: An Introduction to Contemporary Physics. - Robert Mills, Author and Robert E. Reynolds; 63 (6), 572-3 (B).
An Equation that Changed the World: Newton, Einstein, and the Theory of Relativity. - Harald Fritzsch, Author and Hans Christian von Baeyer; 63 (6), 573 (B).
Invariant Hamiltonians for relativistic particles. - Michael J. W. Hall and Malcolm R. Anderson; 63 (7), 633-7.
Special relativity and length contraction. - John R. Graham; 63 (7), 637-9.
Using atomic physics to verify relativity. - R. Grieser, T. Kjihl, and G. Huber; 63 (7), 665-8.
Maxwell's equations in a rotating medium: Is there a problem? - Gerald N. Pellegrini and Arthur R. Swift; 63 (8), 694-705.
Macroscopic motion in systems at thermal equilibrium. - Amit Ghosh and Partha Mukhopadhyay; 63 (8), 753-5.
An elementary account of the factor of 4/3 in the electromagnetic mass. - Patrick Moylan; 63 (9), 818-20.
Emil Cohn's electrodynamics of moving bodies. - Olivier Darrigol; 63(10), 908-15.
Answer to Question #17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63(5), 394(1995)]. - W. N. Mathews, Jr.; 63(12), 1067 (Q).
Teaching physics con line. - Richard C. Smith and Edwin F. Taylor; 63 (12), 1090-6.
Lorentz transformations directly from the speed of light. - Bernhard Rothenstein and George Eekstein; 63(12), 1150(L).

3.40 Classical mechanics of continuous systems; fluids; waves

Statics of a ladder leaning against a rough wall. - Kenneth S. Mendelson; 63 (2), 148-50.
Waves Called Solitons: Concepts and Experiments. - M. Remoissenet, Author and J. A. Whitehead; 63(4), 381-2(B).
Vibrational properties of a loaded string. - Samantha Parmley, Tom Zobrist, Terry Clough, Anthony Perez-Miller, Mark Makela, and Roger Yu; 63 (6), 547-53.
Maxwell's equations in a rotating medium: Is there a problem? - Gerald N. Pellegrini and Arthur R. Swift; 63 (8), 694-705.

3.50 Classical field theory

Faster than light motion of wave packet maxima in a nondispersive medium. - H. Friedrich; 63 (2), 183-4(L).
Radiation from a suddenly moving sheet of charge. - Barry R. Holstein; 63(3), 217-21.
Duality transformations and the Lienard-Wiechert fields of a dual-charged particle. - Jose A. Heras; 63 (3), 242-4.
Retardation and relativity: Derivation of Lorentz-Einstein transformations from retarded integrals for electric and magnetic fields. - Oleg D. Jefimenko; 63 (3), 267-72.
The appearance of nonclassical terms in the analysis of point-source fields. - Ricardo Estrada and Ram P. Kanwal; 63 (3), 278 (L).
Retardation and relativity: The case of a moving line charge. - Oleg D. Jefimenko; 63 (5), 454-9.
A few remarks con the matching conditions at interfaces in electromagnetic theory. - Dennis G. Hall; 63 (6), 508-12.
The flow of electromagnetic energy in the decay of an electric dipole. - Hans Gregory Sehantz; 63 (6), 513-20.
Magnetism and mirror symmetry. - Carl Yaco; 63 (6), 520-3.
Editorial: Strong inequalities. - Robert H. Romer; 63 (8), 681-2(C).
Maxwell's equations in a rotating medium: Is there a problem? - Gerald N. Pellegrini and Arthur R. Swift; 63 (8), 694-705.
On the fields of a torus and the role of the vector potential. - N. J. Carron; 63 (8), 717-29.
Question #26. Electromagnetic field momentum. - Robert H. Romer; 63 (9), 777-9 (Q).
An elementary account of the factor of 4/3 in the electromagnetic mass. - Patrick Moylan; 63 (9), 818-20.
Emil Cohn's electrodynamics of moving bodies. - Olivier Darrigol; 63(10), 908-15.
Time-dependent generalizations of the Bicot-Savart and Coulomb laws: A formal derivation. - Jose A. Heras; 63 (10), 928-32.
From Electrostatics to Optics: A Concise Electrodynamics Course. - Günter Scharf, Author and Richard A. Matzner; 63(10), 959-60 (B).

3.65 Quantum mechanics

Dirac's famous dictum on interference: One photon or two? - Roy J. Glauber; 63(1), 12(L).
Question #11. Quantum interaction time differences? - Gary A. LaMotte; 63 (1), 13 (Q).
Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871 (1994)]. - Budh Ram; 63(1), 15 (Q).
A supersymmetric Hamiltonian from minimal coupling. - S. Bruce; 63(1), 84-5.
Modern Quantum Mechanics, Revised Edition. - J. J. Sakurai, Author, S. F. Tuan, Editor, and Eugene D. Commins; 63(1), 93-5 (B).
Reflection of wave packets from a quantum well with a tunneling transmission resonance. - A. Edgar; 63 (2), 136-41.
Time-dependent perturbation and exact results for the periodically driven quantum harmonic oscillator. - Russell Akridge; 63 (2), 141-7.
A three-particle problem in one dimension. - J. C. Martinez; 63 (2), 164-8.
The magnetic Kronig-Penney model. - I. S. Ibrahim and F. M. Peeters; 63(2), 171-4.
Some remarks about intrinsic parity in Ryder's derivation of the Dirac equation. - Fabian H. Gaicoli and Edgardo T. Garcia Alvarez; 63 (2), 177-8 (L).
Electric polarizability and the solution of an inhomogeneous differential equation. - M. A. Maize and Chad A. Burkholder; 63 (3), 244-7.
Potentials and bound states. - Walter F. Buell and B. A. Shadwick; 63 (3), 256-8.
Comment con "Analytical ground state wave functions for an infinite family of cone-dimensional potentials," by M. Casas and A. Plastinco [Am. J. Phys. 62, 636-638 (1994)]. - B. Cameron Reed; 63 (3), 275-6 (L).
Quantum Theory: Concepts and Methods. - Asher Peres, Author and Leslie E. Ballentine; 63 (3), 285-6 (B).
Answer to Question #7 ["The spin-statistics theorem," Dwight E. Neuenschwander, Am. J. Phys. 62 (11), 972 (1994)]. - Henri Bacry; 63 (4), 297-8 (Q).
Answer to Question #7 ["The spin-statistics theorem," Dwight E. Neuenschwander, Am. J. Phys. 62 (11), 972 (1994)]. - Robert C. Hilborn; 63 (4), 298-9 (Q).
Atoms in orthogonal electric and magnetic fields: A comparison of quantum and classical models. - Robert C. Hilborn; 63 (4), 330-8.
Poineare's proof of the quantum discontinuity of nature. - Jeffrey J. Prentis; 63 (4), 339-50.
Entangled quantum systems and the Schmidt decomposition. - Artur Ekert and Peter L. Knight; 63 (5), 415-23.
The approximation to the exponential decay law. - H. Jakobovits, Yehuda Rothschild, and J. Levitan; 63 (5), 439-43).
Asymptotic form of the penetration probability of the quantum harmonic oscillator into the classically forbidden region. - D. E. Atems and J. M. Wadehra; 63 (5), 443-6.
Analysis of asymmetric confined quantum systems by the direct variational method. - J. L. Marin, R. Rosas, and A. Uribe; 63 (5), 460-3.
Dynamical evolution of a fermionic anharmonie oscillator. - M. C. D. Barrozo, M. T. Thcomaz, and A. F. R. de Toledo Piza; 63 (5), 463-7.
Space, Time and Quanta: An Introduction to Contemporary Physics. - Robert Mills, Author and Robert E. Reynolds; 63 (6), 572-3 (B).
Question #21. Snell's law in quantum mechanics. - Steve Blau and Brad Halfpap; 63 (7), 583 (Q).
Which variational wave function is the best? - Marten J. ten Hoor; 63 (7), 647-53.
Comment on "Suppose Newton had invented wave mechanics," by Willis E. Lamb, Jr. [Am. J. Phys. 62, 201-206 (1994)]. - Michael Nauenberg; 63 (7), 661-2 (L).
Comment con "The mapping of the Coulomb problem into the oscillator," by David S. Bateman, Clinton Boyd and Binayak Dutta-Roy [Am. J. Phys. 60 (9), 833-836 (1992)]. - Prabhakar Pradhan; 63 (7), 664(L).
Angular Momentum: An Illustrated Guide to Rotational Symmetries for Physical Systems. - William J. Thompson, Author and LeRoy F. Cook; 63 (7), 670-1(B).
Quantum Mechanics. - Sara M. McMurry, Author and Donald H. Kobe; 63 (7), 671-2 (B).
Resource Letter QIMS-1: Quantum interference in macroscopic samples. - S. Das Sarma, T. Kawarnura, and S. Washburn; 63 (8), 683-94.
Fizeau's experiment and the Aharconcov-Bohm effect. - Richard J. Cook, Heidi Fearn, and Peter W. Milconni; 63(8), 705-10.
Quantum mechanics in momentum space: The Coulomb system. - Barry R. Holstein; 63 (8) 710-6.
On the fields of a torus and the role of the vector potential. - N. J. Carron; 63 (8), 717-29.
Do quantum jumps occur at well-defined moments of time? - George Greenstein and Arthur G. Zajone; 63 (8), 743-5.
Answers to Shimony's queries. - Henry P. Stapp; 63 (8), 757-8.
Introduction to Quantum Mechanics. - David J. Griffiths, Author and Edward G. Harris; 63 (8), 767-8 (B).
Question #24. Can an electron be at rest? - Terrenee P. Toepker; 63 (9), 777(Q).
Quantum and classical probability distributions for position and momentum. - R. W. Robinett; 63 (9), 823-32.
Dispersive Airy packets. - Antonio B. Nassar, J. M. F. Bassalo, and Paulo de Tarso S. Alencar; 63 (9), 849-52.
Bethe, Bell and De Broglie. - M. A. B. Whitaker; 63(10), 873 (L).
Evaluation of the eigenvalues of multiple quantum-well potentials. - R. T. Deck and Xiangshan Li; 63 (10), 920-8.
delta well with a reflecting barrier. - Claude Aslangul; 63 (10), 935-40.
Fermi's golden rule and Bardeen's tunneling theory. - H. J. Reittu; 63 (10), 940-4.
When will discrete eigenstates be nondegenerate? - H. F. Chau; 63 (11), 1005-7.
Connection between conserved quantities and degeneracies in quantum systems. - S. Falliercos and E. Hadjimiehael; 63 (11), 1017-20.
Sudden expansion or squeezing of a harmonic oscillator. - Claude Aslangul; 63(11), 1021-5.
Dimensiconality as a perturbation parameter in the generalized hydrogen atom. - C. R. Hagen; 63(11), 1039-40.
The Foldy-Wcouthuysen transformation. - John P. Costella and Bruce H. J. McKellar; 63(12), 1119-21.
Excited-state solutions for an infinite family of cone-dimensional potentials. - B. Cameron Reed; 63(12), 1141-5.
Quantum Mechanics: Historical Contingency and the Copenhagen Hegemony. - James T. Cushing, Author and Tim Maudlin; 63 (12), 1155-6(B).

3.80 Scattering

Reflection of wave packets from a quantum well with a tunneling transmission resonance. - A. Edgar; 63(2), 136-41.
Comment on "Classical orbits in power-law potentials". - Hua Wu and D. W. L. Sprung; 63 (6), 564-7
Quantum mechanics in momentum space: The Coulomb system. - Barry R. Holstein; 63 (8), 710-6.

4. General relativity and gravitation

Black hole as the ultimate energy source. - Ibrahim Semiz; 63 (2), 151-6.
The Ricci tensor of a diagonal metric. - J. B. Boyling; 63 (2), 168-71.
On the optical-mechanical analogy in general relativity. - Kamal K. Nandi and Anwarul Islam; 63(3), 251-6.
Question #15. What space scales participate in cosmic expansion? - Frank Munley; 63 (4), 297 (Q).
Light cones inside the Schwarzsehild radius. - Ronald Gautreau; 63 (5), 431-9.
Gravitational lenses and plastic simulators. - Ronald J. Adler, William C. Barber, and Mark E. Redar; 63 (6), 536-41.
Question #22. Is there a gravitational force or not? - Barbara S. Andereck; 63 (7), 583 (Q).
Vacuum catastrophe: An elementary exposition of the cosmological constant problem. - Ronald J. Adler, Brendan Casey, and Ovid C. Jacob; 63 (7), 620-6.
Invariant Hamiltonians for relativistic particles. - Michael J. W. Hall and Malcolm R. Anderson; 63 (7), 633-7.
Question #25. Escape velocity from the universe. - Charles Hayes; 63 (9), 777 (Q).
Answer to Question # 15. ["What space scales participate in cosmic expansion?," Frank Munley, Am. J. Phys. 63(4), 297 (1995)]. - Steven K. Blau; 63 (9), 779-80 (Q).
Answer to Question # 15. ["What space scales participate in cosmic expansion?," F. Munley, Am. J. Phys. 63(4), 297 (1995)]. - Craig Callender and Robert Weingard; 63 (9), 780 (Q).
Gravitational collapse in a single coordinate system. - Ronald Gautreau and Jeffrey M. Cohen; 63 (11), 991-9.
Post-Use Review: Scouting Black Holes. Exploring General Relativity with Calculus. - Edwin F. Taylor, Author, John Archibald Wheeler, Author, and Thomas A. Roman; 63 (11), 1053-4(B).
Question #32. How do gravitons interact with black holes? - David L. Wallach; 63(12), 1065 (Q).
Answers to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63 (1), 13 (1995)] and Question #17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63 (5), 394 (1995)]. - Steve Blau; 63 (12), 1066-7(Q).

5.20 Classical statistical mechanics

Information-theoretieal analysis of a classical relativistic gas under a steady heat flow. - Maria Ferrer and David Jou; 63 (3), 237-42.
Statistico-thermodynamic properties of a binary alloy. - Marcel Porta and Teresa Castan; 63 (3), 261-7 Answer to Question #2. ["Quark masses and binding energy in a proton." James R. Huddle, Am. J. Phys. 62(10), 871(1994)]. - Kenneth J. Epstein; 63 (5), 394 (Q).
Answer to Question #14 ["Simple Arguments for the Boltzmann Factor?," Dwight E. Neuenschwander, Am. J. Phys. 63 (2), 108 (1995)]. - Harold S. Zapolsky; 63(10), 875-6 (Q).
Answer to Question #14 ["Simple arguments for the Boltzmann factor?," Dwight E. Neuenschwander, Am. J. Phys. 63 (2), 108 (1995)]. - Charles A. Whitney; 63 (10), 876-7 (Q).
Answer to question 14: ["Simple arguments for the Boltzmann factor?," Dwight E. Neuenschwander, Am. J. Phys. 63 (2), 108 (1995)). - J. H. Hannay; 63(10), 877 (Q).
Answer to Question #14 ["Simple Arguments for the Boltzmann Factor?," Dwight E. Neuenschwander, Am. J. Phys. 63 (2), 108 (1995)]. - Harvey S. Leff; 63(10), 877-8 (Q).
Thermodynamic insights from a cone-particle gas. - Harvey S. Leff; 63(10), 895-905.

5.30 Quantum statistical mechanics

Virial theorem in quantum statistical mechanics for a charged particle in an electromagnetic field. - Donald H. Kobe; 63 (2), 174-6.
Answer to Question #7 ["The spin-statistics theorem," Dwight E. Neuenschwander, Am. J. Phys. 62 (11), 972 (1994)]. - Henri Baery; 63 (4), 297-8 (Q).
Answer to Question #7 ["The spin-statistics theorem," Dwight E. Neuenschwander, Am. J. Phys. 62 (11), 972 (1994)]. - Robert C. Hilborn; 63 (4), 298-9 (Q).
Poincare's proof of the quantum discontinuity of nature. - Jeffrey J. Prentis; 63 (4), 339-50.
Ideal quantum gases in two dimensions. - S. Viefers, F. Ravndal, and T. Haugset; 63 (4), 369-76.
Quantum hydrodynamics and virial theorems. - Peter J. Price; 63 (5), 446-8.
Dynamical evolution of a fermiconie anharmonic oscillator. - M. C. D. Baircozo, M.T. Thomaz, and A. F. R. de Toledo Piza; 63 (5), 463-7.
The two-dimensional harmonic oscillator at finite temperature and nonzero chemical potential. - H. Haugerud and F. Ravndal; 63 (9), 839-44.
Statistical interpretation of 10^-24 moles and less. - Bedamati Das and Pinaki Gupta-Bhaya; 63 (11), 1025-8.

5.40 Fluctuation phenomena and random processes

Answer to Question #3 ["Why is momentum called p?," N. David Mermin, Am. J. Phys. 62 (10), 871(1994)]. - Daniel T. Gillespie; 63 (4), 297 (Q).
Answer to Question #2. ["Quark masses and binding energy in a proton." James R. Huddle, Am. J. Phys. 62(10), 871(1994)]. - Kenneth J. Epstein; 63 (5), 394 (Q).
Answer to Question #1. ["How does a Brownian particle at rest get kicked up to kT?," ;Frank Munley, Am. J. Phys. 62(6), 871 (1994)] - Eduardo Sanchez-Velasco; 63(9), 779 (Q).
Thermal radiation shields. -- Y. H. Chia and D. Kiang; 63 (11), 1041-2(L).

5.45 Chaos

Many oscillations of a rigid rod. - Alan Cromer; 63 (2), 112-21.
Periodic orbits of the integrable swinging Atwood's machine. - Ana Nunes, Josefina Casasayas, and Nicholas Tufillarco; 63 (2), 121-6.
Fraetal dimension of the strange attractor of the bouncing ball circuit. - B. K. Clark, R. F. Martin, Jr., R. J. Moore, and K. E. Jesse; 63 (2), 157-63.
Comment on "Chaos is not an artifact of finite-digit arithmetic," by R. H. Dalling and M. E. Goggin [Am. J. Phys. 62(6), 563-564 (1994)]. - David Auerbaeh; 63(3), 276(L).
A response to D. Auerbaeh's "Comment con 'Chaos is not an artifact of finite-digit arithmetic'" [Am. J. Phys. 63, 276 (1995)].- M.E. Goggin and R. H. Dalling; 63 (3), 277 (L).
A simple circuit for demonstrating regular and synchronized chaos. - Thomas L. Carroll; 63 (4), 377-9 (L).
Chaotic behavior of the Zeeman Catastrophe Machine. - Trevis J. Litherland and Azad Siahmakcoun; 63 (5), 426-31.
Strange Attractors: Creating Patterns in Chaos. (Floppy disk and 3D glasses included.). - Julian C. Sprcott, Author and Ralph H. Abraham; 63 (5), 477 (B).
Rolling motion and crumpled surfaces. - Lawrence R. Mead, R. F. Folse, and Anna Cole; 63 (8), 746-9.
Thinking in Complexity: The Complex Dynamics of Matter, Mind, and Mankind. - Klaus Mainzer, Author and RoIf Landauer; 63 (8), 766-7 (B).
Control of the chaotic driven pendulum - Gregory L. Baker; 63 (9), 832-8.
The Essence of Chaos. - Edward N. Lorenz, Author and Robert C. Hilborn; 63 (9), 862-3 (B).
Chaotic pendulum based on torsion and gravity in opposition. - Randall D. Peters; 63(12), 1128-36.

5.60 Transport processes

Answer to Question # 1. ["How does a Brownian particle at rest get kicked up to kT?," Frank Munley, Am. J. Phys. 62(6), 871 (1994)]. - Eduardo Sanchez-Velasco; 63(9), 779 (Q).
Thermal radiation shields. - Y. H. Chia and D. Kiang; 63 (11), 1041-2 (L).

5.70 Thermodynamics

Question #10. Cooling and expansion of the universe. - J. Richard Christman; 63(1), 13 (Q).
Information-theoretical analysis of a classical relativistic gas under a steady heat flow. - Maria Ferrer and David Jou; 63 (3), 237-42.
Statistieco-thermcodynamie properties of a binary alloy. - Marcel Porta and Teresa Castan; 63 (3), 261-7.
Temperature-entropy diagram of reversible cycles with sloping, straight-line pressure-volume processes. - Daniel T. Valentine; 63(3), 279-81(L).
The Refrigerator and the Universe: Understanding the Laws of Energy. - Martin Goldstein, Author, Inge F. Goldstein, Author, and Harvey S. Left, 63 (3), 282-3 (B).
Quantum hydrodynamics and virial theorems. - Peter J. Price; 63 (5) 446-8.
Thermoaccoustic heat pumps with maximum power transfer. - Boye Ahlborn and Jean Camire; 63 (5), 449-51.
Comment on "Entropy and the second law: A pedagogical alternative," by Ralph Baierlein [Am. J. Phys. 62 (1), 15-26 (1994)]. - George F. R. Ellis; 63 (5), 472 (L).
A Response to George F. R. Ellis's "Comment on 'Entropy and the second law: A pedagogical alternative'" [Am. J. Phys. 63, 472 (1995)]. - Ralph Baierlein; 63(5), 473 (L).
Understanding the chemical potential. - G. Cook and R. H. Dickerson; 63 (8), 737-42.
Macroscopic motion in systems at thermal equilibrium. - Amit Ghosh and Partha Mukhopadhyay; 63 (8), 753-5.
Heat capacity in a negatively sloping, straight-line process. - A. Calvo Hernandez; 63 (8), 756 (L).
Entropy and heat along reversible paths for fluids and magnets. - Harvey S. Left, 63(9), 814-7.
The two-dimensional harmonic oscillator at finite temperature and nonzero chemical potential. - H. Haugerud and F. Ravndal; 63 (9), 839-44.
Thermodynamic insights from a one-particle gas. - Harvey S. Leff; 63 (10), 895-905.
Statistical interpretation of 10^-24 moles and less. - Bedamati Das and Pinaki Gupta-Bhaya; 63(11), 1025-8.
Answer to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63 (1), 13 (1995)). - Lior M. Burko; 63(12), 1065-6(Q).
Answers to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63 (1), 13 (1995)] and Question #17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63 (5), 394 (1995)]. - Steve Blau; 63 (12), 1066-7 (Q).
Answer to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63(1), 13 (1995)]. - David Keeports; 63 (12) 1067 (Q).
A new statement of the second law of thermodynamics. - Alan Macdonald; 63 (12), 1122-7.
Erratum: Entropy and heat along reversible paths for fluids and magnets [Am. J. Phys. 63, 814-817 (1995)]. - Harvey S. Left, 63 (12), 1146(E).

6. Measurement science, units, error theory, general laboratory techniques, and instrumentation

On weightlessness. - A. P. French; 63 (2), 105-6 (L).
International weight. - Mario Iona; 63 (2), 106(L).
An ancient time machine: The Dial of Ahaz. - Philip M. Sadler; 63 (3), 211-6.
Resource Letter: TFM- 1: Time and frequency measurement. - Christine Hackman and Donald B. Sullivan; 63 (4), 306-17.
Answer to Question #12 ["Where did the 10 come from in the ratio of the coulomb to the statccoulcomb?" Jay Orear, Am. J. Phys. 63 (2), 108 (1995)]. - Mario Iona; 63 (6), 489-90(Q).
Answer to Question #12 ["Where did the ip come from in the ratio of the coulomb to the statccoulcomb?" Jay Orear, Am. J. Phys. 63 (2), 108 (1995)]. - James B. Calvert; 63(6), 490(Q).
Question #23. What keeps it centered? - Lewis Carroll Epstein; 63 (7), 583 (Q).
Using a PC as a frequency meter or a counter. - J. Sartori, T. Catunda, and L.A. O. Nunes; 63(12), 1152-3.

10. Elementary particle physics

Answer to Question #2 ["Quark masses and binding energy in a proton," James R. Huddle, Am. J. Phys. 62 (10), 871 (1994)]. - Kenneth J. Epstein; 63(1), 13-4(Q).
Answer to Question #2 ["Quark masses and binding energy in a proton," James R. Huddle, Am. J. Phys. 62 (10), 871 (1994)]. - Barry R. Holstein; 63(1), 14(Q).
The mass of a gas of massless photons. - H. Kolbenstvedt; 63 (1), 44-6.
A supersymmetric Hamiltonian from minimal coupling. - S. Bruce; 63(1), 84-5.
Some remarks about intrinsic parity in Ryder's derivation of the Dirac equation. - Fabian H. Gaicoli and Edgardo T. Garcia Alvarez; 63 (2), 177-8 (L).
QED and the Men Who Made It: Dyson, Feynman, Schwinger, and Tomonaga. - Silvan S. Schweber, Author and Felix M. H. Villars; 63 (4), 383-4 (B).
Upper limit con the photon electric charge from the cosmic microwave background. - C. Sivaram; 63 (5), 473(L).
Question # 19. Noether's theorem and discrete symmetries. - Dwight E. Neuenschwander; 63 (6), 489 (Q).
Answer to Question #5 ["Massive neutrinos," Mary L. Boas, Am. J. Phys. 62 (11), 972(1994)]. - Richard Hammond; 63(6), 489 (Q).
Group Theory and Physics. - Shiomo Sternberg, Author and Eugene Golowich; 63 (6), 573-4 (B).
Heisenberg's lattice world: The 1930 theory sketch. - Brunco Carazza and Helge Kragh; 63 (7), 595-605.
Vacuum catastrophe: An elementary exposition of the cosmological constant problem. - Ronald J. Adler, Brendan Casey, and Ovid C. Jacob; 63 (7), 620-6.
The Cartesian rank two representation of spherical tensors with an application to Raman scattering. - Eddy H. van Kleef; 63 (7), 626-33.
The Fundamental Particles and Their Interactions. - William B. Rolnick, Author and D. B. Lichtenberg; 63 (8), 765-6 (B).
Simple soluble models of quantum damping applied to cavity quantum electrodynamics. - Martin Ligare and Stephen Becker; 63 (9), 788-96.
When will discrete eigenstates be nondegenerate? - H. F. Chau; 63 (11), 1005-7.
D-dimensiconal moments of inertia. - Carl M. Bender and Lawrence R. Mead; 63(11), 1011-4.
Connection between conserved quantities and degeneracies in quantum systems. - S. Falliercos and E. Hadjimichael; 63 (11), 1017-20.
Question #30. How are positrons moderated? - Thomas D. Rossing; 63 (12), 1065 (Q).

20. Nuclear physics

Data analysis in the undergraduate nuclear laboratory. - Byron Curry, Dave Riggins, and P. B. Siegel; 63(1), 71-6.
Fusion simulator. - Lawrence Ruby; 63 (2), 107 (L).
Hostages of Each Other: The Transformation of Nuclear Safety since Three Mile Island. - Joseph V. Rees, Author and Marc Eisner; 63 (4), 380-I (B).
Determining the yield of the Trinity nuclear device via gamma-ray spectroscopy. - David Atkatz and Christopher Bragg; 63 (5), 411-3.
The atomic nuclide with the highest mean binding energy. - M. P. Fewell; 63 (7), 653-8.
Determination of the half-life of 212Po. - Keith Ruddiek; 63 (7), 658-60.
Question #30. How are positrons moderated? - Thomas D. Rossing; 63 (12), 1065 (Q).

30. Atoms and molecules; nuclear and electron resonance

Inexpensive laser cooling and trapping experiment for undergraduate laboratories. - Carl Wieman, Gwenn Flowers, and Sarah Gilbert; 63(4), 317-30.
Atoms in orthogonal electric and magnetic fields: A comparison of quantum and classical models. - Robert C. Hilborn; 63 (4), 330-8.
The Cartesian rank two representation of spherical tensors with an application to Raman scattering. - Eddy H. van Kleel; 63 (7), 626-33. Which variational wave function is the best? - Marten J. ten Hoor; 63 (7), 647-53.
Using atomic physics to verify relativity. - R. Grieser, T. Kijhl, and G. Huber; 63 (7), 665-8.
Rydberg Atoms. - Thomas F. Gallagher, Author and James E. Bayfield; 63 (8), 765 (B).
Simple soluble models of quantum damping applied to cavity quantum electrodynamics. - Martin Ligare and Stephen Becker; 63 (9), 788-96.
Inexpensive diode laser mierCowave modulation for atom trapping. - Paul Feng and Thad Walker; 63(10), 905-8.
Electronic paramagnetism in biomolecular structure and function. - A. S. Brill, F. G. Fiamingo, and B. S. Gerstman; 63(12), 1096-114.
A simple mechanical model for the diatomic molecule exhibiting a magnetic monopole in nuclear dynamics. - Jason Foat and Kai S. Lam; 63(12), 1114-9.

41. Electromagnetism

Infinite and polygonal capacitor networks: Comparison with analogous, Fibonacci sequence related, resistor networks. - Harry A. Mavromatis; 63 (1), 85-6.
Demonstration of charge conservation. - Wolfgang Rueckner, Douglass Goodale, Daniel Rosenberg, and David Tavilla; 63 (1), 90-1(L).
Comment con "Why the speed of light is reduced in a transparent medium," by Mary B. James and David J. Griffiths [Am. J. Phys. 60, 309-313 (1992)]. - Joshua B. Diamond; 63(2), 179-80(L).
Radiation from a suddenly moving sheet of charge. - Barry R. Holstein; 63(3), 217-21.
The principle of relativity as applied to moticonal electromagnetic induction. - J. Guala Valyerde and P. Mazzoni; 63 (3), 228-9.
Duality transformations and the Lienard-Wiechert fields of a dual-charged particle. - Jose A. Heras; 63 (3), 242-4.
One-, two-, or three-dimensional fields? - T. E. Freeman; 63 (3), 273-4 (L).
Electrostatic energy of a system of charges and dielectrics. - Bedamati Das, Avik Ghcosh, and Pinaki Gupta-Bhaya; 63(5), 452-4.
A few remarks con the matching conditions at interfaces in electromagnetic theory. - Dennis G. Hall; 63(6), 508-12.
The flow of electromagnetic energy in the decay of an electric dipole. - Hans Gregory Schantz; 63 (6), 513-20.
Magnetism and mirror symmetry. - Carl Yaco; 63 (6), 520-3.
A magnetic circuit demonstration. - John Vanderkocoy and June Lowe; 63 (6), 570-1(L).
Post-Use Review. Electric and Magnetic Interactions. - Ruth Chabav, Author, Bruce Sherwood, Author, and John E. Gastinean; 63 (7), 669 (B).
Electromagnetic forces on dissipative dielectric media. - V. Giner, M. Sancho, and G. Martinez; 63 (8) 749-53.
Demonstration of Amperian currents. - E. W. Dearden; 63 (9), 821-2.
Comment on "Elegant calculations of the Coulomb force between two hemispherical surfaces with uniform charge densities," by Xishun Xie and Xiaoqin Huang [Am. J. Phys. 62, 952-53 (1994)]. - H. H. Hassan; 63 (9), 856 (L).
Exact solution to the field equations in the case of an ideal, infinite solenoid. - Jacques D. Templin; 63(10), 916-20.
Time-dependent generalizations of the Bicot-Savart and Coulomb laws: A formal derivation. - Jose A. Heras; 63 (10), 928-32.
Subtleties in electromagnetic angular momentum. - Adam Chandler; 63(10), 956(L).
Magnetic forces and fields: A note con terminology, definitions, and pedagogy. - Thomas D. Rossing; 63 (10), 957-8 (L).
Erratum: "Nonrelativistic calculation of the radiation emitted by a pair of identical particles" [Am. J. Phys. 62 (3), 251-254 (1994)]. - J. G. Cordes; 63(10), 958(E).
From Electrostatics to Optics: A Concise Electrodynamics Course. - Günter Scharf, Author and Richard A. Matzner; 63 (10), 959-60(B).
Circular motion of a charged particle in an electric dipole field. - Randall S. Jones; 63(11), 1042-3.
Question #30. How are positrons moderated? - Thomas D. Rossing; 63 (12), 1065 (Q).

42. Optics

Dirac's famous dictum on interference: One photon or two? - Roy J. Glauher; 63 (1), 12 (L).
Near-field-far-field transitiOn of a finite line source using incoherent light: A student laboratory experiment. - Xincheng Yan, Yixin Yu, Louis Shen, and Keith H. Wanser; 63(1), 47-53.
Multislit diffraction patterns using a slit-grating combination. - Kenneth S. Mendelson and Frank G. Karioris; 63 (1), 53-6.
Laser Spectroscopy: Selected Reprints. - R. Gupta, Editor and Lutz Hüwel; 63(1), 92-3 (B).
Comment on "Why the speed of light is reduced in a transparent medium," by Mary B. James and David J. Griffiths [Am. J. Phys. 60, 309-313 (1992)]. - Joshua B. Diamond; 63(2), 179-80(L).
Polarized light, Polaroid and your digital watch. - W. K. Koo, C. S. Chong, and Ben K. Merican; 63(2), 184-5 (L).
On the optical-mechanical analogy in general relativity. - Kamal K. Nandi and Anwarul Islam; 63(3), 251-6.
Inexpensive laser cooling and trapping experiment for undergraduate laboratories. - Carl Wieman, Gwenn Flowers, and Sarah Gilbert; 63 (4), 317-30.
Entangled quantum systems and the Schmidt decomposition. - Artur Ekert and Peter L. Knight; 63 (5), 415-23.
Magnetic Brewster angle. - J. Futterman; 63 (5), 471(L).
Quantum Optics. - D. F. Walls, Author, G. J. Milburn, Author, and John C. Garrison; 63 (5), 477-8 (B).
Coherent backscattering of light. - R. Corey, M. Kissner, and P. Saulnier; 63 (6), 560-4.
Question #21. Snell's law in quantum mechanics. - Steve Blau and Brad Halfpap; 63 (7), 583 (Q).
Answer to Question #4. ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62 (10), 871(1994)]. - Fernando J. Lopez-Lopez; 63 (7), 583-4 (Q).
Teaching physics with 670 nm diode lasers-construction of stabilized lasers and lithium cells. - K. G. Libbrecht, R. A. Boyd, P. A. Willems, T. L. Gustavson, and D. K. Kim; 63 (8), 729-37.
Resource letter: LC-I: Liquid crystals: Physics and applications. - Renate J. Ondris-Crawfcord, Gregory P. Crawford, and J. William Doane; 63 (9)781-8.
Simple soluble models of quantum damping applied to cavity quantum electrodynamics. - Martin Ligare and Stephen Becker; 63 (9), 788-96.
Intrinsic optical bistability in a semiconductor doped glass filter. - F. Pereira, J.R. Salcedo, and M. Beisley; 63 (9), 844-9.
Inexpensive diode laser microwave modulation for atom trapping. - Paul Feng and Thad Walker; 63 (10), 905-8.
Nonlinear crosstalk in a multichannel fiber-optic communication system. - Hong Shi, Yan Lin, Sean Carney, I. Aaron Zygmunt, and John R. Thompson; 63 (11), 1033-8.
Liquid crystal displays. - Peter J. Collings; 63 (11), 1044-8.
Off-axis illumination and its relation to partial coherence. - Matt Young and Paul D. Hale; 63(12), 1136-41.

43. Acoustics

Thermoaccoustic heat pumps with maximum power transfer. - Boye Ahlborn and Jean Camire; 63 (5), 449-51.
Question #20. Coupling a speaker to a closed-tube resonator. - Richard W. Peterson; 63 (6), 489 (Q).

50. Fluids and plasmas

Laboratory experiment for the ratio of specific heats of air. - J. Mottmann; 63 (3), 259-60.
Waves Called Solitons: Concepts and Experiments. - M. Remoissenet, Author and J. A. Whitehead; 63(4), 381-2(B).
Problem: The energy required to fly. - Peter Paiffy-Muhoray; 63 (9), 780.
Observing thermomigration of air bubbles in a fluid under gravity at an undergraduate research laboratory. - J.-F. Simard, A. Houdayer, R. Boudreault, S. Be'langer, and A. Laacouan; 63 (9), 796-9.
Question #29. Why is the Coulomb force neglected in e^+e^- pair production? - Kaoru Sasabe; 63 (10), 875 (Q).
Flow profile study using miniature laser-Doppler velocimetry. - W. E. Booij, A. de Jongh, and F. F.M. de Mul; 63(11), 1028-33.

60. Condensed matter. structural, thermal, and mechanical properties

Question #9. Why are diamonds such good thermal conductors? - Robert W. Cole; 63 (1), 13 (Q).
Experiment to demonstrate diffusion doping. - E. D. Jones; 63(1), 66-71.
A mechanical resonance apparatus for undergraduate laboratories. - Christopher C. Jones; 63 (3), 232-6.
Statisticco-thermodynamic properties of a binary alloy. - Marcel Porta and Teresa Castan 63 (3), 261-7.
Mechanical resonance displaying changes in phase to large audiences. - R. Dorner, L. Kowaiski, and M. Stein; 63 (4), 364-9.
Answer to Question #9. ["Why are diamonds such good thermal conductors?" Robert W. Cole, Am. J. Phys. 63, 13 (1995)]. - M. D. Sturge; 63 (5), 394-5 (Q).
The physical description of elementary surface phenomena: Thermodynamics versus mechanics. - Julio Pellicer, Jose A. Manzanares, and Salvador Mafe'; 63 (6), 542-7.
Resource letter: LC- 1: Liquid crystals: Physics and applications. - Renate J. Ondris-Crawford, Gregory P. Crawford, and J. William Doane; 63(9), 781-8.
Observing thermomigration of air bubbles in a fluid under gravity at an undergraduate research laboratory. - J.-F. Simard, A. Houdayer, R. Boudreault, S. Belanger, and A. Laaouan; 63 (9), 796-9.
An apparatus for growth of small crystals from solutions. - Mico M. Mitrovic; 63 (9), 858-9.
Supercooling and the Mpemba effect: When hot water freezes quicker than cold. - David Auerbach; 63 (10), 882-5.
Pressure melting and ice skating. - S. C. Colbeck; 63 (10), 888-90.
Liquid crystal displays. - Peter J. Collings; 63(11), 1044-8.

70. Condensed matter: electrical, magnetic, and optical properties

Superconductivity: A guide to alternating current susceptibility measurements and alternating current susceptometer design. - Martin Nikolco; 63 (1), 57-65.
The magnetic Kronig^-Penney model. - I. S. Ibrahim and F. M. Peeters; 63(2), 171-4.
Undergraduate laboratory demonstration of aspects of phase transitions using Curie temperature determination in amorphous ferromagnetic materials. - David G. Fisher and William T. Franz; 63 (3), 248-51.
Ideal quantum gases in two dimensions. - S. Viefers, F. Ravndal, and T. Haugset; 63 (4), 369-76.
Autoccorrelaticon of electrical noise: An undergraduate experiment. - J. Loren Passmore, Brandon C. Collings, and Peter J. Collings; 63 (7), 592-5.
Hysteresis in magnetic systems. - B. K. Chatterjee; 63 (7), 643-6.
Electromagnetic forces on dissipative dielectric media. - V. Giner, M. Sancho, and G. Martinez; 63 (8), 749-53.
Simple, inexpensive probe for resistivity measurements above 77 K on metals and superconductors. - K. G. Vandervocort, J. M. Willingham, and C. H. Morris; 63 (8), 759-60 (L).
Demonstrating crystal optics using microwaves con wood targets. - Benjamin S. Perkalskis and J. Reuben Freeman; 63 (8), 762-4.
Entropy and heat along reversible paths for fluids and magnets. - Harvey S. Leff; 63(9), 814-7.
Holes. - B. S. Chandrasekhar; 63 (9), 853-4.
Fermi's golden rule and Bardeen's tunneling theory. - H. J. Reittu; 63(10), 940-4.
Electronic paramagnetism in biomolecular structure and function. - A. S. Brill, F. G. Fiamingo, and B. S. Gerstman; 63(12), 1096-114.
Erratum: Entropy and heat along reversible paths for fluids and magnets [Am. J. Phys. 63, 814-817 (1995)]. - Harvey S. Left, 63 (12), 1146(E).
Parametric analysis of mean-field ferromagnetic and antiferromagnetic susceptibilities. - Y. T. Millev and M. A. B. Whitaker; 63(12), 1146-9(L).

84. Circuits, antennas, and transmission lines

Infinite and polygonal capacitor networks: Comparison with analogous, Fibonacci sequence related, resistor networks. - Harry A. Mavromatis; 63(1), 85-6.
Fractal dimension of the strange attractor of the bouncing ball circuit. - B. K. Clark, R. F. Martin, Jr., R. J. Moore, and K. E. Jesse; 63 (2), 157-63.
Question #18. Simple proofs of Ampere's law. - A. P. French; 63 (5), 394 (Q).
Transmission line exercises for the introductory physics laboratory. - George H. Watson; 63 (5), 423-5.
Post-Use Review. Principles of Electronic Instrumentation, Third Edition. - A. James Diefenderfer, Author, Brian E. Holton, Author, and C. W. S. Conover; 63 (6), 574-6 (B).
Two student experiments con electrical fluctuations. - Yaakov Kraftmakher; 63(10), 932-5.
Thermoelectric motor. - Stanislaw Bednarek; 63 (11), 1051-2 (L).

90. Astronomy, astrophysics, cosmology, and geophysics

Question # 10. Cooling and expansion of the universe. - J. Richard Christman; 63(1), 13 (Q).
Comments on "Lost Horizons" by G. F. R. Ellis and T. Rothman [Am. J. Phys. 61 (10), 883^-893 (1993)]. - Michael Rauch; 63(1), 87(L).
Past light cone shape and refocusing in cosmology, A Response to Michael Rauch's "Comments on 'Lost Horizons'" [Am. J. Phys. 63, 87 (1995)]. - G. F. R. Ellis and Tony Rothman; 63(1), 88-9 (L).
Question # 15. What space scales participate in cosmic expansion? - Frank Munley; 63 (4), 297 (Q).
Question #17. What happens to energy in the cosmic expansion? - Frank Munley; 63 (5), 394 (Q).
Upper limit on the photon electric charge from the cosmic microwave background. - C. Sivaram; 63 (5), 473 (L).
Understanding the physics of meteoritic descent. - L. M. Celnikier; 63 (6), 524-35.
Gravitational lenses and plastic simulators. - Ronald J. Adler, William C. Barber, and Mark E. Redar; 63 (6), 536-41.
Question #25. Escape velocity from the universe. - Charles Hayes; 63 (9), 777 (Q).
Answer to Question #15. ["What space scales participate in cosmic expansion?," Frank Munley, Am. J. Phys. 63(4), 297 (1995)]. - Steven K. Blau; 63 (9), 779-80 (Q).
Answer to Question #15. ["What space scales participate in cosmic expansion?," F. Munley, Am. J. Phys. 63(4), 297 (1995)]. - Craig Callender and Robert Weingard; 63 (9), 780 (Q).
Question #27. Supernovae Models. - Dwight E. Neuenschwander; 63(10), 875 (Q).
Question #28. Bernoulli equation. - A. P. French; 63 (10), 875 (Q).
Pascal's demonstration experiment: Weighing the atmosphere. - J. B. Brown, J. C. Dore, C. Isenberg, and S. J. Rogers; 63 (10), 886-8.
Gravitational collapse in a single coordinate system. - Ronald Gautreau and Jeffrey M. Cohen; 63 (11), 991-9.
Answer to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63 (1), 13 (1995)]. - Lior M. Burko; 63 (12), 1065-6(Q).
Answers to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63 (1), 13 (1995)] and Question # 17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63 (5), 394 (1995)]. - Steve Blau; 63 (12), 1066-7(Q).
Answer to Question #10 ["Cooling and expansion of the universe," J. Richard Christman, Am. J. Phys. 63(1), 13 (1995)]. - David Keeports; 63(12), 1067 (Q).
Answer to Question #17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63(5), 394(1995)]. - W. N. Mathews, Jr.; 63 (12), 1067 (Q).
Answer to Question #17 ["What happens to energy in the cosmic expansion?" Frank Munley, Am. J. Phys. 63 (5), 394 (1995)]. - R. H. Garstang; 63(12), 1067-8 (Q).

99. Errata

Answer to Question #4 ["Is there a physics application that is best analyzed in terms of continued fractions?," Dwight E. Neuenschwander, Am. J. Phys. 62(10), 871(1994)]. - Howard C. Bryant; 63 (1), 14 (Q).
Demonstrating the light-emitting diode. - David A. Johnson; 63 (8), 761-2 (L).
Demonstration of Amperian currents. - E. W. Dearden; 63 (9), 821-2.
Thermoelectric motor. - Stanislaw Bednarek; 63 (11), 1051-2 (L).
Erratum: "The World Around Us, E. Leonard Jossem's acceptance speech for the 1994 Oersted Medal presented by the American Association of Physics Teachers, 6 January 1994" [Am. J. Phys. 62 (7), 589-595 (1994)]. - E. Leonard Jossem; 63 (1), 89 (E).
Erratum: "Nonrelativistic calculation of the radiation emitted by a pair of identical particles" [Am. J. Phys. 62 (3), 251-254 (1994)]. - J. G. Cordes; 63 (10), 958 (E).