Una teoria consistente dell'induzione...
Transcript of Una teoria consistente dell'induzione...
![Page 1: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/1.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Una teoria consistente dell’induzioneelettromagnetica
Giovanni Romano
Accademia di Scienze Fisiche e Matematiche in Napoli
1 febbraio 2013
![Page 2: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/2.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
![Page 3: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/3.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
![Page 4: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/4.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Johann Carl Friederich Gauss (1777 - 1855)
![Page 5: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/5.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Hermann Gunther Grassmann (1809 - 1877)
![Page 6: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/6.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Bernhard Riemann (1826 - 1866)
![Page 7: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/7.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Marius Sophus Lie (1842 - 1899)
![Page 8: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/8.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Felix Klein (1849 - 1925)
![Page 9: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/9.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Gregorio Ricci-Curbastro (1853 - 1925)
![Page 10: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/10.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Tullio Levi-Civita (1873 - 1941)
![Page 11: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/11.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Elie Cartan (1869 - 1951)
![Page 12: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/12.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Henri Cartan (1904 - 2008)
![Page 13: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/13.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Charles Ehresmann (1905 - 1979)
![Page 14: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/14.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Hassler Whitney (1907 - 1989)
![Page 15: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/15.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ED=Electrodynamicsand
DG=Differential Geometry
ED is an important source of inspiration for DG and DG is thenatural tool to develop a mathematical modeling of ED
Founders of DG
Jean-Louis Koszul (1921 - )
![Page 16: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/16.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
![Page 17: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/17.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Luigi Galvani (1737-1798)
![Page 18: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/18.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Alessandro Volta (1745-1827)
![Page 19: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/19.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Gian Domenico Romagnosi (1761-1835)
![Page 20: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/20.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Hans Christian Ørsted (1777-1851)
![Page 21: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/21.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Andre-Marie Ampere (1775 - 1836)
![Page 22: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/22.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Johann Carl Friedrich Gauss (1777 - 1855)
![Page 23: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/23.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Francesco Zantedeschi (1797-1873)
![Page 24: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/24.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Joseph Henry (1797 - 1878)
![Page 25: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/25.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Michael Faraday (1791 - 1867)
![Page 26: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/26.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
James Clerk-Maxwell (1831 - 1879)
![Page 27: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/27.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
Joseph John Thomson (1856 - 1940)
![Page 28: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/28.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Electromagnetic StoryStarring
![Page 29: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/29.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Vector fields in Electromagnetics
![Page 30: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/30.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Vector fields in Electromagnetics
Josiah Willard Gibbs (1839 - 1903)
![Page 31: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/31.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Vector fields in Electromagnetics
Oliver Heaviside (1850 - 1925)
![Page 32: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/32.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Vector fields in Electromagnetics
Heinrich Rudolf Hertz (1857 - 1894)
![Page 33: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/33.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Zero spatial velocity∮∂Σin
g · E = −∫
Σin
µ · (∂θ=0 B) Henry− Faraday(1831)∮∂Σout
µ · B = 0 Gauss(1831)
∮∂Σout
g ·H =
∫Σout
µ · (∂θ=0 D + J) Ampere(1826)
Maxwell(1861)∮∂Σout
µ ·D =
∫Σout
ρµ Gauss(1835)
with Σout a bounded connected surface and Σout boundedconnected domain in S . Applying Ampere law to closedsurfaces Σout = ∂Ω , we get
∂θ=0 ρ+ div J = 0
the equation of continuity.
![Page 34: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/34.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Relativity Story
Length contraction and time dilation effects
Woldemar Voigt (1850 - 1919)
![Page 35: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/35.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Relativity Story
Length contraction and time dilation effects
George Francis FitzGerald (1851 - 1901)
![Page 36: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/36.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Relativity Story
Length contraction and time dilation effects
Hendrik Antoon Lorentz (1853 - 1928)
![Page 37: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/37.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Relativity Story
Length contraction and time dilation effects
Albert Einstein (1879 - 1955)
![Page 38: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/38.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Relativity Story
Space-time metric
Henri Poincare (1854 - 1912)
![Page 39: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/39.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Relativity Story
Space-time metric
Hermann Minkowski (1864 - 1909)
![Page 40: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/40.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Relativity Story
General relativity
Christian Felix Klein (1849 - 1925)
![Page 41: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/41.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Relativity Story
General relativity
David Hilbert (1862 - 1943)
![Page 42: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/42.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Albert Einstein (1905)
![Page 43: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/43.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
ON THE ELECTRODYNAMICS
OF MOVING BODIES
By A. EINSTEIN
June 30, 1905
It is known that Maxwell’s electrodynamics—as usually understood at thepresent time—when applied to moving bodies, leads to asymmetries which donot appear to be inherent in the phenomena. Take, for example, the recipro-cal electrodynamic action of a magnet and a conductor. The observable phe-nomenon here depends only on the relative motion of the conductor and themagnet, whereas the customary view draws a sharp distinction between the twocases in which either the one or the other of these bodies is in motion. For if themagnet is in motion and the conductor at rest, there arises in the neighbour-hood of the magnet an electric field with a certain definite energy, producinga current at the places where parts of the conductor are situated. But if themagnet is stationary and the conductor in motion, no electric field arises in theneighbourhood of the magnet. In the conductor, however, we find an electro-motive force, to which in itself there is no corresponding energy, but which givesrise—assuming equality of relative motion in the two cases discussed—to elec-tric currents of the same path and intensity as those produced by the electricforces in the former case.
Examples of this sort, together with the unsuccessful attempts to discoverany motion of the earth relatively to the “light medium,” suggest that thephenomena of electrodynamics as well as of mechanics possess no propertiescorresponding to the idea of absolute rest. They suggest rather that, as hasalready been shown to the first order of small quantities, the same laws ofelectrodynamics and optics will be valid for all frames of reference for which theequations of mechanics hold good.1 We will raise this conjecture (the purportof which will hereafter be called the “Principle of Relativity”) to the statusof a postulate, and also introduce another postulate, which is only apparentlyirreconcilable with the former, namely, that light is always propagated in emptyspace with a definite velocity c which is independent of the state of motion of theemitting body. These two postulates suffice for the attainment of a simple andconsistent theory of the electrodynamics of moving bodies based on Maxwell’stheory for stationary bodies. The introduction of a “luminiferous ether” will
1The preceding memoir by Lorentz was not at this time known to the author.
1
AlbertEinstein (1905)
![Page 44: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/44.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Maxwell-Hertz equations - (Einstein 1905)
1c∂X∂t = ∂N
∂y −∂M∂z
1c∂L∂t = ∂Y
∂z −∂Z∂y
1c∂Y∂t = ∂L
∂z −∂N∂x
1c∂M∂t = ∂Z
∂x −∂X∂z
1c∂Z∂t = ∂M
∂x −∂L∂y
1c∂N∂t = ∂X
∂y −∂Y∂x
![Page 45: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/45.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Differential forms vs. vector fields
ω1E = g · E electric field
ω2B = ω3
µ · B magnetic vortex
ω1H = g ·H magnetic field
ω2D = ω3
µ ·D electric flux
ω1B = g · A magnetic potential
ω2J = ω3
µ · J electric current
ω3ρ = ρω3
µ electric charge
ω0E = VE electric potential
![Page 46: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/46.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Space-time split
Z field of time-arrowsR = dt ⊗ Z projector on time-arrowsP = I− R projector on space slices
![Page 47: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/47.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Space-time theory of electromagnetics
ω2B = i↓Ω2
B ∈ Λ2(VS ;R) magnetic vortex
ω1E = i↓Ω1
E ∈ Λ1(VS ;R) electric field
with i spatial immersion.
Ω2B := P↓Ω2
F
−Ω1E := P↓(Ω2
F · V)
P projector on the spatial slicesV = Z + PV space-time velocityv = i↓(PV) spatial velocity.Representation formula
Ω2F = Ω2
B − dt ∧ (Ω1E + Ω2
B · V) .
![Page 48: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/48.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Faraday law in space-time
Closedness of Faraday two-form in the trajectory manifold isequivalent to the spatial Gauss law for the magnetic vortex andto the spatial Henry-Faraday induction law, i.e.
d Ω2F = 0 ⇐⇒
dS ω2B = 0
LSV ω2B + dS ω
1E = 0
with the integral formulation
∂θ=0
∫ϕSθ (Σin)
ω2B = −
∮∂Σin
ω1E
for any inner-oriented surface Σin in a spatial slice.
![Page 49: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/49.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Faraday law
−ω1E = LSV ω1
B + dS ω0E
= LSZ ω1B + Lv ω
1B + dS ω
0E
= LSZ ω1B + (dS ω
1B) · v + dS (ω1
B · v) + dS ω0E
= LSZ ω1B + ω2
B · v + dS (ω1B · v) + dS ω
0E
Usual formulation with dS (ω1B · v) dropped
−ω1E = LSZ ω1
B + ω2B · v + dS ω
0E
![Page 50: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/50.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Synoptic table ( v = 0 )
new old
(E‖ ,E⊥) → (γ E‖ ,E⊥) (E‖ , γ (E⊥ + w × B))
(B‖ ,B⊥) → (B‖ , γ (B⊥ − (w/c2)× E)) idem
(H‖ ,H⊥) → (γH‖ ,H⊥) (H‖ , γ (H⊥ −w ×D))
(D‖ ,D⊥) → (D‖ , γ (D⊥ + (w/c2)×H)) idem
(J‖ , J⊥) → (J‖ , γ J⊥) (γ (J‖ − ρw) , J⊥)
ρ → γ (ρ− g(w/c2 , J)) idem
VE → VE γ (VE − g(w,A))
(A‖ ,A⊥) → (γ (A‖ − (w/c2)VE) ,A⊥) idem
![Page 51: Una teoria consistente dell'induzione elettromagneticawpage.unina.it/romano/lecture-slides/ac_beamer2013.pdf · connected domain in S. Applying Amp ere law to closed surfaces out](https://reader035.fdocuments.in/reader035/viewer/2022071010/5fc818c76818b0687c77a88b/html5/thumbnails/51.jpg)
Una teoria consistentedell’induzione
elettromagnetica
Giovanni Romano
Electromagnetics
Early discoveries andtheory
Simplifications
Early relativity theory
New theory
Denoting by ∇ the Euclid connection in spatial slices andassuming that the observer measures1) a magnetic potential independent of time,
LSZ ω1B = 0
2) a spatially constant scalar electric potential,
dS ω0E = 0
3) a spatially constant magnetic vortex field,
∇ω2B = 0
the formula for the electric field may be evaluated to get
−ω1E = (dS ω
1B) · v + dS (ω1
B · v) = ω2B · v−
1
2ω2
B · v =1
2ω2
B · v ,
or in terms of vector fields E = 12 v × B which is just one-half of
what is improperly called the Lorentz force.