Field, Force, Energy & Momentum in Classical Electrodynamics.:
Annotation For the past 100 years physicists have debated the nature of the momentum of light inside material media. Hermann Minkowski, for example, asserts that within a transparent dielectric the momentum of a photon is the photon's vacuum momentum multiplied by the refractive index of the di...
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Oak Park, IL :
Bentham Science Publishers,
2011.
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| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | Annotation For the past 100 years physicists have debated the nature of the momentum of light inside material media. Hermann Minkowski, for example, asserts that within a transparent dielectric the momentum of a photon is the photon's vacuum momentum multiplied by the refractive index of the dielectric. An opposing theory postulated by Max Abraham, contends that the vacuum momentum must instead be divided by the refractive index. There have also been questions about the electromagnetic momentum inside magnetic media, and whether or not a part of the momentum is hidden. This book explains the laws of classical electrodynamics concisely and clearly, before elaborating on how to calculate force, torque, momentum and angular momentum using the exact forms of the laws, without any approximations. The author subsequently demonstrates what happens to the momentum of light when it enters various media (e.g., dielectric, magnetic, wholly or partially transparent, etc.). Thus the book provides a clear picture of the momentum of the electromagnetic field, resolves the Abraham-Minkowski controversy, and shows that there is no need for resorting to hidden momentum or any other exotic, unphysical concept. Numerical simulations are used along the way and throughout the chapters to elucidate the propagation of energy, momentum, and angular momentum under circumstances which are too complicated to solve analytically. This book is a useful resource for students and academics interested in quantum optics. |
| Beschreibung: | 1 online resource (336 pages) : illustrations |
| Bibliographie: | Includes appendices and index. |
| ISBN: | 9781608052530 1608052532 |
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| 245 | 1 | 0 | |a Field, Force, Energy & Momentum in Classical Electrodynamics. |
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| 300 | |a 1 online resource (336 pages) : |b illustrations | ||
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| 505 | 0 | |a Chapter 1. Scalar and Vector Fields -- Chapter 2. Foundations of the Classical Maxwell-Lorentz Theory of Electrodynamics -- Chapter 3. Mathematical Preliminaries -- Chapter 4. Solving Maxwell's Equations -- Chapter 5. Solving Maxwell's Equations in Space-time: The Wave Equation -- Chapter 6. The Lorentz Oscillator Model -- Chapter 7. Plane Electromagnetic Waves in Isotropic, Homogeneous, Linear Media -- Chapter 8. Simple Applications Involving Plane Electromagnetic Waves -- Chapter 9. Maxwell's Equations in Cylindrical Coordinates -- Chapter 10. Electromagnetic Momentum, Angular Momentum, Force and Torque -- Chapter 11. Plane-wave Propagation in Linear, Homogeneous, Isotropic Media Exhibiting Temporal as well as Spatial Dispersion -- Chapter 12. The Reciprocity Theorem -- Solutions to Selected Problems. | |
| 588 | 0 | |a Print version record. | |
| 520 | 8 | |a Annotation For the past 100 years physicists have debated the nature of the momentum of light inside material media. Hermann Minkowski, for example, asserts that within a transparent dielectric the momentum of a photon is the photon's vacuum momentum multiplied by the refractive index of the dielectric. An opposing theory postulated by Max Abraham, contends that the vacuum momentum must instead be divided by the refractive index. There have also been questions about the electromagnetic momentum inside magnetic media, and whether or not a part of the momentum is hidden. This book explains the laws of classical electrodynamics concisely and clearly, before elaborating on how to calculate force, torque, momentum and angular momentum using the exact forms of the laws, without any approximations. The author subsequently demonstrates what happens to the momentum of light when it enters various media (e.g., dielectric, magnetic, wholly or partially transparent, etc.). Thus the book provides a clear picture of the momentum of the electromagnetic field, resolves the Abraham-Minkowski controversy, and shows that there is no need for resorting to hidden momentum or any other exotic, unphysical concept. Numerical simulations are used along the way and throughout the chapters to elucidate the propagation of energy, momentum, and angular momentum under circumstances which are too complicated to solve analytically. This book is a useful resource for students and academics interested in quantum optics. | |
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| author | Masud Mansuripur, 1955- |
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| contents | Chapter 1. Scalar and Vector Fields -- Chapter 2. Foundations of the Classical Maxwell-Lorentz Theory of Electrodynamics -- Chapter 3. Mathematical Preliminaries -- Chapter 4. Solving Maxwell's Equations -- Chapter 5. Solving Maxwell's Equations in Space-time: The Wave Equation -- Chapter 6. The Lorentz Oscillator Model -- Chapter 7. Plane Electromagnetic Waves in Isotropic, Homogeneous, Linear Media -- Chapter 8. Simple Applications Involving Plane Electromagnetic Waves -- Chapter 9. Maxwell's Equations in Cylindrical Coordinates -- Chapter 10. Electromagnetic Momentum, Angular Momentum, Force and Torque -- Chapter 11. Plane-wave Propagation in Linear, Homogeneous, Isotropic Media Exhibiting Temporal as well as Spatial Dispersion -- Chapter 12. The Reciprocity Theorem -- Solutions to Selected Problems. |
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| dewey-ones | 537 - Electricity and electronics |
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| discipline | Physik |
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| indexdate | 2024-11-27T13:18:03Z |
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| spelling | Masud Mansuripur, 1955- https://id.oclc.org/worldcat/entity/E39PCjB4W4FvdP7TQJMRfjvH3P http://id.loc.gov/authorities/names/n86001826 Field, Force, Energy & Momentum in Classical Electrodynamics. Oak Park, IL : Bentham Science Publishers, 2011. 1 online resource (336 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes appendices and index. Chapter 1. Scalar and Vector Fields -- Chapter 2. Foundations of the Classical Maxwell-Lorentz Theory of Electrodynamics -- Chapter 3. Mathematical Preliminaries -- Chapter 4. Solving Maxwell's Equations -- Chapter 5. Solving Maxwell's Equations in Space-time: The Wave Equation -- Chapter 6. The Lorentz Oscillator Model -- Chapter 7. Plane Electromagnetic Waves in Isotropic, Homogeneous, Linear Media -- Chapter 8. Simple Applications Involving Plane Electromagnetic Waves -- Chapter 9. Maxwell's Equations in Cylindrical Coordinates -- Chapter 10. Electromagnetic Momentum, Angular Momentum, Force and Torque -- Chapter 11. Plane-wave Propagation in Linear, Homogeneous, Isotropic Media Exhibiting Temporal as well as Spatial Dispersion -- Chapter 12. The Reciprocity Theorem -- Solutions to Selected Problems. Print version record. Annotation For the past 100 years physicists have debated the nature of the momentum of light inside material media. Hermann Minkowski, for example, asserts that within a transparent dielectric the momentum of a photon is the photon's vacuum momentum multiplied by the refractive index of the dielectric. An opposing theory postulated by Max Abraham, contends that the vacuum momentum must instead be divided by the refractive index. There have also been questions about the electromagnetic momentum inside magnetic media, and whether or not a part of the momentum is hidden. This book explains the laws of classical electrodynamics concisely and clearly, before elaborating on how to calculate force, torque, momentum and angular momentum using the exact forms of the laws, without any approximations. The author subsequently demonstrates what happens to the momentum of light when it enters various media (e.g., dielectric, magnetic, wholly or partially transparent, etc.). Thus the book provides a clear picture of the momentum of the electromagnetic field, resolves the Abraham-Minkowski controversy, and shows that there is no need for resorting to hidden momentum or any other exotic, unphysical concept. Numerical simulations are used along the way and throughout the chapters to elucidate the propagation of energy, momentum, and angular momentum under circumstances which are too complicated to solve analytically. This book is a useful resource for students and academics interested in quantum optics. Electrodynamics. http://id.loc.gov/authorities/subjects/sh85042135 Electrodynamics Mathematics. Electrodynamics Problems, exercises, etc. Électrodynamique. Électrodynamique Mathématiques. Électrodynamique Problèmes et exercices. SCIENCE Physics Electricity. bisacsh Electrodynamics fast Electrodynamics Mathematics fast Problems and exercises fast FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=500560 Volltext |
| spellingShingle | Masud Mansuripur, 1955- Field, Force, Energy & Momentum in Classical Electrodynamics. Chapter 1. Scalar and Vector Fields -- Chapter 2. Foundations of the Classical Maxwell-Lorentz Theory of Electrodynamics -- Chapter 3. Mathematical Preliminaries -- Chapter 4. Solving Maxwell's Equations -- Chapter 5. Solving Maxwell's Equations in Space-time: The Wave Equation -- Chapter 6. The Lorentz Oscillator Model -- Chapter 7. Plane Electromagnetic Waves in Isotropic, Homogeneous, Linear Media -- Chapter 8. Simple Applications Involving Plane Electromagnetic Waves -- Chapter 9. Maxwell's Equations in Cylindrical Coordinates -- Chapter 10. Electromagnetic Momentum, Angular Momentum, Force and Torque -- Chapter 11. Plane-wave Propagation in Linear, Homogeneous, Isotropic Media Exhibiting Temporal as well as Spatial Dispersion -- Chapter 12. The Reciprocity Theorem -- Solutions to Selected Problems. Electrodynamics. http://id.loc.gov/authorities/subjects/sh85042135 Electrodynamics Mathematics. Electrodynamics Problems, exercises, etc. Électrodynamique. Électrodynamique Mathématiques. Électrodynamique Problèmes et exercices. SCIENCE Physics Electricity. bisacsh Electrodynamics fast Electrodynamics Mathematics fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85042135 |
| title | Field, Force, Energy & Momentum in Classical Electrodynamics. |
| title_auth | Field, Force, Energy & Momentum in Classical Electrodynamics. |
| title_exact_search | Field, Force, Energy & Momentum in Classical Electrodynamics. |
| title_full | Field, Force, Energy & Momentum in Classical Electrodynamics. |
| title_fullStr | Field, Force, Energy & Momentum in Classical Electrodynamics. |
| title_full_unstemmed | Field, Force, Energy & Momentum in Classical Electrodynamics. |
| title_short | Field, Force, Energy & Momentum in Classical Electrodynamics. |
| title_sort | field force energy momentum in classical electrodynamics |
| topic | Electrodynamics. http://id.loc.gov/authorities/subjects/sh85042135 Electrodynamics Mathematics. Electrodynamics Problems, exercises, etc. Électrodynamique. Électrodynamique Mathématiques. Électrodynamique Problèmes et exercices. SCIENCE Physics Electricity. bisacsh Electrodynamics fast Electrodynamics Mathematics fast |
| topic_facet | Electrodynamics. Electrodynamics Mathematics. Electrodynamics Problems, exercises, etc. Électrodynamique. Électrodynamique Mathématiques. Électrodynamique Problèmes et exercices. SCIENCE Physics Electricity. Electrodynamics Electrodynamics Mathematics Problems and exercises |
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| work_keys_str_mv | AT masudmansuripur fieldforceenergymomentuminclassicalelectrodynamics |