At the beginning of the 20th century, electromagnetism was already a consolidated theory. It was described by Maxwell's equations, which were still considered valid only in a static reference frame, the "luminiferous ether". But at that time, the relativity of motion already required a theory that incorporated the principle of relativity and could then be applied to any type of experiment. It was in this context that Lorentz transformations were introduced (by Voigt, Larmor and Lorentz). These transformations are mathematical relationships that guarantee us that the laws of electromagnetism are the same for all inertial observers, regardless of their relative motion. In this video, I will present the crucial step in the mathematical development of the theory of relativity. It was this step that made electromagnetic theory compatible with the principle of relativity.
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This content had the technical and scientific contribution of Prof. Dr. Thaciana Malaspina
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BASIC REFERENCES
[1] Bertrand Russell; ABC of Relativity, Originally published in 1925, the book was revised by Felix Pirani (professor emeritus at the University of London) in the 1958 and 1969 editions, under Russell's supervision. Pirani also coordinated the 1985 edition, after the author's death. It was this last revised version that was used in this series.
[2] Bernard Schutz; Gravity from the Ground Up: An Introductory Guide to Gravity and General Relativity, Cambridge University Press; 200.
[3] Domenico Giulini; Special Relativity: A First Encounter - 100 Years since Einstein, Oxford University Press, 2005.
[4] Martin Gardner; Relativity Simply Explained, Dover edition, first published in 1997. This edition provides new updates on the status of experimental confirmations of the theory.
[5] Albert Einstein; Relativity: The Special and General Theory, Dover, 2010 re-edition.
[6] Richard Wolfson; Simply Einstein - Relativity Demystified, Editora Norton & Company; Reprint edition, 2003.
[7] Roberto De Andrade Martins; The Historical Origin of Special Relativity, Physics Bookstore; 2015.
[8] University Physics: with modern physics. 13th ed., Freedman, Young, Sears and Zemansky, Addison Wesley.
[9] The Feynman Lectures on Physics, Feynman, Leighton and Sands. Basic Books.
[10] Basic Physics Course: Mechanics (Volume 1), Nussenzveig. Blucher.
[11] Physics for Scientists and Engineers with Modern Physics. 10th ed., Serway and Jewett, Jr., Cengage Learning.
[12] Physics. 5th ed., Walker., Pearson.
[13] Physics. 9th ed., Cutnell and Johnson, Wiley & Sons.
[14] Physics for scientists and engineers: a strategic approach with
modern physics, 4th ed., Knight, Pearson.
[15] Conceptual Physics, 10th ed., Hewitt, Pearson.
[16] Modern Physics, 6th ed., Tipler and Llewellyn, W. H. Freeman and Company.
[17] Concepts of Modern Physics, 6th ed., Arthur Beiser, McGraw-Hill.
[18] Article that improves the quality of the Michelson-Morley Experiment; journals.aps.org/prl/abstract/10.1103/PhysRevLett.90.060402
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20 окт 2024