Bültmann & Gerriets
Mathematical Principles of Mechanics and Electromagnetism
Part B: Electromagnetism and Gravitation
von Chao-Cheng Wang
Verlag: Springer US
Reihe: Mathematical Concepts and Methods in Science and Engineering Nr. 17
Hardcover
ISBN: 978-1-4684-3541-2
Auflage: Softcover reprint of the original 1st ed. 1979
Erschienen am 27.12.2012
Sprache: Englisch
Format: 229 mm [H] x 152 mm [B] x 12 mm [T]
Gewicht: 315 Gramm
Umfang: 212 Seiten

Preis: 53,49 €
keine Versandkosten (Inland)


Dieser Titel wird erst bei Bestellung gedruckt. Eintreffen bei uns daher ca. am 16. November.

Der Versand innerhalb der Stadt erfolgt in Regel am gleichen Tag.
Der Versand nach außerhalb dauert mit Post/DHL meistens 1-2 Tage.

53,49 €
merken
zum E-Book (PDF) 53,49 €
klimaneutral
Der Verlag produziert nach eigener Angabe noch nicht klimaneutral bzw. kompensiert die CO2-Emissionen aus der Produktion nicht. Daher übernehmen wir diese Kompensation durch finanzielle Förderung entsprechender Projekte. Mehr Details finden Sie in unserer Klimabilanz.
Klappentext
Inhaltsverzeichnis

of Part B.- 5. Classical Theory of Electromagnetism.- Section 30. Classical Laws of Electrostatic Fields.- Section 31. Steady Currents and Magnetic Induction.- Section 32. Time-Dependent Electromagnetic Fields, Maxwell¿s Equations.- Section 33. Balance Principles.- Section 34. Electromagnetic Waves.- Section 35. Electromechanical Interactions.- 6. Special Relativistic Theory of Electromagnetism.- Section 36. Newtonian, Galilean, and Ether Space-Times.- Section 37. Minkowskian Space-Time.- Section 38. Lorentz Transformations.- Section 39. Vectors and Tensors in the Minkowskian Space-Time.- Section 40. Maxwell¿s Equations in Special Relativistic Form.- Section 41. Lorentz¿s Formula and the Balance Principles in Special Relativistic Form.- Section 42. Doppler Effect of Electromagnetic Waves.- 7. General Relativistic Theory of Gravitation.- Section 43. Newton¿s Law of Gravitation and the Principle of Equivalence.- Section 44. Minkowskian Manifold.- Section 45. The Stress-Energy-Momentum Tensor in a Material Medium.- Section 46. Einstein¿s Field Equations.- Section 47. The Schwarzschild Solution and the Problems of Planetary Orbits and the Deflection of Light.- Section 48. The Action Principle.- Section 49. Action and Coaction.- Section 50. The Nordstr¿m-Toupin Ether Relation and the Minkowskian Metric.- 8. General Relativistic Theory of Electromagnetism.- Section 51. Maxwell¿s Equations in General Relativistic Form.- Section 52. The Maxwell-Lorentz Ether Relation and the Minkowskian Metric I: Toupin¿s Uniqueness Theorem.- Section 53. The Maxwell-Lorentz Ether Relation and the Minkowskian Metric II: Basic Properties and Preliminary Lemmas.- Section 54. The Maxwell-Lorentz Ether Relation and the Minkowskian Metric III: Toupin¿s Existence Theorem.- Section 55. The Electromagnetic Action and the Electromagnetic Stress-Energy-Momentum Tensor.- Section 56. Electrogravitational Fields of an Electrically Charged Mass Point.- Selected Reading for Part B.



of Part B.- 5. Classical Theory of Electromagnetism.- Section 30. Classical Laws of Electrostatic Fields.- Section 31. Steady Currents and Magnetic Induction.- Section 32. Time-Dependent Electromagnetic Fields, Maxwell's Equations.- Section 33. Balance Principles.- Section 34. Electromagnetic Waves.- Section 35. Electromechanical Interactions.- 6. Special Relativistic Theory of Electromagnetism.- Section 36. Newtonian, Galilean, and Ether Space-Times.- Section 37. Minkowskian Space-Time.- Section 38. Lorentz Transformations.- Section 39. Vectors and Tensors in the Minkowskian Space-Time.- Section 40. Maxwell's Equations in Special Relativistic Form.- Section 41. Lorentz's Formula and the Balance Principles in Special Relativistic Form.- Section 42. Doppler Effect of Electromagnetic Waves.- 7. General Relativistic Theory of Gravitation.- Section 43. Newton's Law of Gravitation and the Principle of Equivalence.- Section 44. Minkowskian Manifold.- Section 45. The Stress-Energy-Momentum Tensor in a Material Medium.- Section 46. Einstein's Field Equations.- Section 47. The Schwarzschild Solution and the Problems of Planetary Orbits and the Deflection of Light.- Section 48. The Action Principle.- Section 49. Action and Coaction.- Section 50. The Nordström-Toupin Ether Relation and the Minkowskian Metric.- 8. General Relativistic Theory of Electromagnetism.- Section 51. Maxwell's Equations in General Relativistic Form.- Section 52. The Maxwell-Lorentz Ether Relation and the Minkowskian Metric I: Toupin's Uniqueness Theorem.- Section 53. The Maxwell-Lorentz Ether Relation and the Minkowskian Metric II: Basic Properties and Preliminary Lemmas.- Section 54. The Maxwell-Lorentz Ether Relation and the Minkowskian Metric III: Toupin's Existence Theorem.- Section 55.The Electromagnetic Action and the Electromagnetic Stress-Energy-Momentum Tensor.- Section 56. Electrogravitational Fields of an Electrically Charged Mass Point.- Selected Reading for Part B.


andere Formate
weitere Titel der Reihe