List of textbooks in electromagnetism
Articles about |
Electromagnetism |
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The study of electromagnetism in higher education, as a fundamental part of both physics and engineering, is typically accompanied by textbooks devoted to the subject. The American Physical Society and the American Association of Physics Teachers recommend a full year of graduate study in electromagnetism for all physics graduate students.[1] A joint task force by those organizations in 2006 found that in 76 of the 80 US physics departments surveyed, a course using John David Jackson's Classical Electrodynamics was required for all first year graduate students.[1] For undergraduates, there are several widely used textbooks, including David Griffiths' Introduction to Electrodynamics and Electricity and Magnetism by Edward Mills Purcell and D. J. Morin[2] Also at an undergraduate level, Richard Feynman's classic The Feynman Lectures on Physics is available online to read for free.
Undergraduate[]
There are several widely used undergraduate textbooks in electromagnetism, including David Griffiths' Introduction to Electrodynamics as well as Electricity and Magnetism by Edward Mills Purcell and D. J. Morin[2] The Classic lecture series Feynman's Lectures on Physics by Richard Feynman also includes a volume on electromagnetism that is available to read online for free, through the California Institute of Technology.
Author | Title | Year | Units | Publication | Reception and use |
---|---|---|---|---|---|
Richard P. Feynman | The Feynman Lectures on Physics (volume 2 and parts of volume 1) |
1963 | SI[3] | Addison-Wesley[4] | [5][6][7][8][9][10][11][3][12][13] |
Edward Mills Purcell | Electricity and Magnetism | 1985 (2nd ed.) | Gaussian[3] | McGraw-Hill[14] | [15][16][3] |
David Griffiths | Introduction to Electrodynamics | 2012 (4th ed.) | SI[3] | Addison-Wesley[17] | [18][19][2][3] |
Edward Mills Purcell and D. J. Morin | Electricity and Magnetism | 2013 (3rd ed.) | SI[3] | Cambridge University Press[20] | [21][22][2][3] |
Melvin Schwartz | Principles of Electrodynamics | 1987 | Dover Publications[23] | [24] | |
Gerald L. Pollack and Daniel R. Stump | Electromagnetism | 2002 | SI[25] | Addison Wesley[26] | [25] |
Wayne M. Saslow | Electricity, Magnetism, and Light | 2002 | SI[3] | Academic Press[27] | [28][29][3] |
Roald K. Wangsness | Electromagnetic Fields | 2007 (2nd ed.) | John Wiley & Sons[30] | [31] | |
I.S. Grant and W.R. Phillips | Electromagnetism | 2008 (2nd ed.) | John Wiley & Sons[32] | [33] | |
John R. Reitz, Frederick J. Milford, and Robert W. Christy | Foundations of Electromagnetic Theory | 2008 (4th ed.) | Addison Wesley[34] | [35][36][37][38] |
Graduate[]
A 2006 report by a joint taskforce between the American Physical Society and the American Association of Physics Teachers found that 76 of the 80 physics departments surveyed require a first-year graduate course in John David Jackson's Classical Electrodynamics.[39][1] This made Jackson's book the most popular textbook in any field of graduate-level physics, with Herbert Goldstein's Classical Mechanics as the second most popular with adoption at 48 universities.[1] In a 2015 review of Andrew Zangwill's Modern Electrodynamics in the American Journal of Physics, James S. Russ claims Jackson's textbook has been "[t]he classic electrodynamics text for the past four decades" and that it is "the book from which most current-generation physicists took their first course."[40]
Author | Title | Year | Units | Publication | Reception and use |
---|---|---|---|---|---|
Lev Landau and Evgeny Lifshitz | The Classical Theory of Fields (Course of Theoretical Physics volume 2) |
1980 (4th ed.) | Gaussian[3] | Butterworth Heinemann[41] | [42][43][44][45][46][47][48][3] |
Lev Landau and Evgeny Lifshitz | Electrodynamics of Continuous Media (Course of Theoretical Physics volume 8) |
1984 (2nd ed.) | Gaussian | Butterworth Heinemann[49] | [50][51][52][53] |
John David Jackson | Classical Electrodynamics | 1975 (2nd ed.) | Gaussian[3] | Wiley[54] | [55][56][57][58][3][40][59] |
John David Jackson | Classical Electrodynamics | 1999 (3rd ed.) | Mixed[60] | Wiley[61] | [62][63][64][65][3][1][40] |
Julian Schwinger | Classical Electrodynamics | 1998 | Gaussian[3] | Perseus Books[66] | [67][68][69][3] |
Charles A. Brau | Modern Problems in Classical Electrodynamics | 2004 | SI[3] | Oxford University Press[70] | [71][72][3] |
Wolfgang K. H. Panofsky and Melba Phillips | Classical Electricity and Magnetism | 2005 (2nd ed.) | Dover Publications[73] | [74][75][76][77] | |
Anupam Garg | Classical Electromagnetism in a Nutshell | 2012 | Gaussian[3] | Princeton University Press[78] | [79][3] |
Andrew Zangwill | Modern Electrodynamics | 2013 | SI[3] | Cambridge University Press[80] | [81][82][3] |
Engineering textbooks[]
According to a 2011 review of textbooks in electromagnetics and computational electromagnetics by David B. Davidson, Julius Adams Stratton's Electromagnetic Theory remains the classic text in electromagnetics and is still regularly cited.[83] Davidson goes on to point out that Constantine A. Balanis' Advanced Engineering Electromagnetics and Roger F. Harrington's Time-Harmonic Electromagnetic Fields are standard references at the post-graduate level.[83]
Author | Title | Level | Year | Publication | Reviews and use |
---|---|---|---|---|---|
Hermann A. Haus | Electromagnetic Fields and Energy | Introductory[83] | 1989 | Prentice-Hall[84] | [83] |
Simon Ramo | Fields and waves in communication electronics | Introductory[83] | 2008 | Wiley[85] | [86][83] |
Julius Adams Stratton | Electromagnetic Theory | General[83] | 2007 | Wiley-IEEE Press[87] | [83] |
Weng Cho Chew | Waves and Fields in Inhomogenous Media | Post-graduate[83] | 1999 | Wiley[88] | [83] |
Roger F. Harrington | Time-Harmonic Electromagnetic Fields | Post-graduate[83] | 2001 | Wiley[89] | [90][83] |
Constantine A. Balanis | Advanced engineering electromagnetics | Post-graduate[83] | 2012 | Wiley[91] | [92][93][83] |
Richard C. Booton | Computational methods for electromagnetics and microwaves | Computational techniques[83] | 1992 | Wiley[94] | [95][96] |
Weng Cho Chew, J. Jin, E. Michielssen, and Jiming Song | Fast and Efficient Algorithms in Computational Electromagnetics | Computational techniques[83] | 2001 | Artech House[97] | [98] |
J. Jin | The Finite Element Method in Electromagnetics | Computational techniques[83] | 2002 (2nd ed.) | IEEE Press[99] | [100][101] |
Allen Taflove and Susan C. Hagness | Computational Electrodynamics: The Finite-Difference Time-Domain Method | Computational techniques[83] | 2005 (3rd ed.) | Artech House[102] | [103] |
Carl Theodore Adolf Johnk | Engineering electromagnetic fields and waves | General | 1988 | Wiley[104] | [105] |
Percy Hammond | Electromagnetism for engineers : an introductory course | Introductory | 1997 | Oxford University Press[106] | [107][108] |
Robert E. Collin | Field Theory of Guided Waves | Guided waves[83] | 1990 | Wiley-IEEE Press[109] | [83] |
Further reading[]
- Born, Max; Wolf, Emil (2019). Principles of Optics (60th anniversary ed.). United Kingdom: Pergamon Press. ISBN 978-1-108-47743-7.
- Hecht, Eugene (2017). Optics (5th ed.). United States of America: Pearson. ISBN 978-0-13-397722-6.
- Fleisch, Daniel (2008). A Student's Guide to Maxwell's Equations. Cambridge University Press. ISBN 978-0-521-87761-9. Lemons, Don S. (November 2009). "A Student's Guide to Maxwell's Equations A Student's Guide to Maxwell's Equations DanielFleisch. 134 pp. Cambridge U. P., New York, 2008. Price: $28.99(paper) ISBN 978-0-521-70147-1". American Journal of Physics. 77 (11): 1086. doi:10.1119/1.3133085. ISSN 0002-9505.
- Jefimenko, O. (1989). Electricity and Magnetism. An Introduction to the Theory of Electric and Magnetic Fields (2nd ed.). Electret Scientific. ISBN 978-0917406089. Jefimenko, Oleg D.; Major, Schwab S. (November 1967). "Electricity and Magnetism". American Journal of Physics. 35 (11): 1100–1101. Bibcode:1967AmJPh..35.1100J. doi:10.1119/1.1973766. hdl:10821/2745. ISSN 0002-9505.
- Müller-Kirsten, Harald J.W. (2011). Electrodynamics, 2nd ed. World Scientific. ISBN 978-981-4340-73-1.
- Stevens, Charles F. (1995). The Six Core Theories of Modern Physics. MIT Press. ISBN 0-262-69188-4.
- Lounesto, Pertti (1997). Clifford Algebras and Spinors. Cambridge University Press. ISBN 0-521-59916-4.
See also[]
- A Treatise on Electricity and Magnetism
- Maxwell's equations
- Classical electromagnetism and special relativity
- Computational electromagnetics
- History of electromagnetism
- List of textbooks in classical and quantum mechanics
- List of textbooks in thermodynamics and statistical mechanics
- List of books on general relativity
References[]
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- ^ Begins with SI and switches to Gaussian units halfway through the book.[3]
- ^ Jackson, John David, 1925-2016. (1999). Classical electrodynamics (3rd ed.). New York: Wiley. ISBN 0-471-30932-X. OCLC 38073290.CS1 maint: multiple names: authors list (link)
- ^ Saslow, Wayne M. (1999). "BOOK REVIEW: Classical Electrodynamics, by John David Jackson". Foundations of Physics. 29 (1): 133–135. doi:10.1023/A:1018821305089. S2CID 116645556.
- ^ Jackson, J. D.; Fox, Ronald F. (September 1999). "Classical Electrodynamics, 3rd ed ". American Journal of Physics. 67 (9): 841–842. Bibcode:1999AmJPh..67..841J. doi:10.1119/1.19136. ISSN 0002-9505.
- ^ Gluskin, Emanuel (2000-07-01). "A comment on J D Jackson's Classical Electrodynamics". European Journal of Physics. 21 (4): L31–L32. doi:10.1088/0143-0807/21/4/105. ISSN 0143-0807.
- ^ Figueroa-Navarro, Carlos (2002-01-01). "A comment on Gluskin's note on J D Jackson's Classical Electrodynamics *". European Journal of Physics. 23 (1): L1–L3. doi:10.1088/0143-0807/23/1/101. ISSN 0143-0807.
- ^ Schwinger, Julian, 1918-1994. (1998). Classical electrodynamics. Perseus Books. ISBN 978-0-8133-4662-5. OCLC 1151868339.CS1 maint: multiple names: authors list (link)
- ^ Mehra, Jagdish (1999). "BOOK REVIEW: Classical Electrodynamics, by Julian Schwinger". Foundations of Physics. 29 (12): 1987–1991. doi:10.1023/A:1018854703775. S2CID 117660259.
- ^ Schwinger, Julian; DeRaad, Jr., Lester L.; Milton, Kimball A.; Tsai, Wu-yang; Mehra, Jagdish (March 2000). "Classical Electrodynamics". American Journal of Physics. 68 (3): 296–298. Bibcode:2000AmJPh..68..296S. doi:10.1119/1.19413. ISSN 0002-9505.
- ^ Schwinger, Julian; DeRaad, Lester L.; Milton, Kimball A.; Tsai, Wu‐yang; Rohrlich, Fritz (June 2000). "Classical Electrodynamics". Physics Today. 53 (6): 60. doi:10.1063/1.1306377. ISSN 0031-9228.
- ^ Brau, Charles A., 1938- (2004). Modern problems in classical electrodynamics. New York: Oxford University Press. ISBN 0-19-514665-4. OCLC 49698856.CS1 maint: multiple names: authors list (link)
- ^ Chang, Gilbert; Schatz, George C. (2005-02-11). "Modern Problems in Classical Electrodynamics. By Charles A. Brau". ChemPhysChem. 6 (2): 374. doi:10.1002/cphc.200400366. ISSN 1439-4235.
- ^ Rauber, Joel D. (April 2006). "Post-Use Review. Modern Problems in Classical Electrodynamics Post-Use Review. Modern Problems in Classical ElectrodynamicsCharles A.Brau. 594 pp. Oxford U. P., New York, 2004. $105.00ISBN 0-19-514665-4". American Journal of Physics. 74 (4): 366–367. doi:10.1119/1.2178851. ISSN 0002-9505.
- ^ Panofsky, Wolfgang K. H.; Phillips, Melba (2005). Classical Electricity and Magnetism (2nd ed.). Dover. ISBN 978-0-486-43924-2.
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