Campus magneticus
Appearance
![](http://upload.wikimedia.org/wikipedia/commons/thumb/5/57/Magnet0873.png/220px-Magnet0873.png)
![](http://upload.wikimedia.org/wikipedia/commons/thumb/7/7d/Magnet_4.jpg/220px-Magnet_4.jpg)
![](http://upload.wikimedia.org/wikipedia/commons/thumb/0/06/Hans_Christian_%C3%98rsted%2C_Der_Geist_in_der_Natur%2C_1854.tiff/lossy-page1-220px-Hans_Christian_%C3%98rsted%2C_Der_Geist_in_der_Natur%2C_1854.tiff.jpg)
Campus magneticus[1] est campus physicus quem vis magnetica insidet. Qui campus partes conspicuas egit in inveniendis campis physicis Michaelis Faraday operá anno 1850.[2]
Iacobus Maxwell autem primus fuit qui huic notioni modernam vectoris formam dedit. Maxwell quidem monstravit lucem aliasque undas electromagneticas e campo magnetico campoque electrico ortas esse, et quantitatem velocitatis lucis ab hoc deduxit.[3]
Postea Albertus Einstein monstravit campum magneticum esse effectum relativitatis specialis.[4]
Denique, inde ab annis 1960, secundum Theoriam Canonicam hodiernam, omnes vires electromagneticae et campi magnetici (et electrici) intelleguntur photonibus inter particulas commutatis secundum leges quanticas effici.
Nexus interni
Notae[recensere | fontem recensere]
- ↑ Ebbe Vilborg. Norstedts svensk-latinska ordbok. Editio secunda anni 2009.
- ↑ Faraday ipse dicebat viris lineas quando, exempli gratia, de campo magnetico cogitabat. In suo opere "De lineae virium natura" (Anglice: "On the physical character of the lines of force") nos informavit anno 1852: "I cannot conceive curved lines of force without the conditions of a physical existence in that intermediate space" [emphasis addita]. Scilicet: "Non possum imaginari lineas virium curvas sine existentia physicali adiuncta in illo spatio intermediario."
- ↑ J. C. Maxwell, "A Dynamical Theory Of The Electromagnetic Field", 1865, Pars 1, Pars 2, Pars 3, Pars 4, Pars 5, Pars 6; Vide etiam analysim modernam ab Andre Waser, "On the Notation of Maxwell's Field Equations, 2000, et Aequationes Maxwellianae in vacuo.
- ↑ A. Einstein, "Zur Elektrodynamik bewegter Körper", Annalen der Physik 17, 891-921, 1905