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4 de nov. de 2020 · In this lecture the early history of gauge theory is reviewed, emphasizing especially Hermann Weyl’s seminal contributions of 1918 and 1929. Wolfgang Pauli’s early construction in 1953 of a non-Abelian Kaluza-Klein theory is described in some detail.
4 de nov. de 2020 · To the philosopher of science who demurs from scientific realism but finds that the alternatives of antirealism or instrumentalism yield only an anemic understanding of the cognitive role of physical theory, the origin of the gauge principle by Hermann Weyl (1885–1955) presents an instructive case study.
2 de sept. de 2009 · Weyl’s clarification of the role of coordinates, invariance or symmetry principles, his important concept of gauge invariance, his group-theoretic results concerning the uniqueness of the Pythagorean form of the metric, his generalization of Levi-Civita’s concept of parallelism, his development of the geometry of paths, his ...
In physics, a gauge theory is a type of field theory in which the Lagrangian, and hence the dynamics of the system itself, do not change under local transformations according to certain smooth families of operations ( Lie groups ). Formally, the Lagrangian is invariant .
In 1918, he introduced the notion of gauge, and gave the first example of what is now known as a gauge theory. Weyl's gauge theory was an unsuccessful attempt to model the electromagnetic field and the gravitational field as geometrical properties of spacetime.
Introduction. Most readers of this volume will know that the ancestry of gauge field theories extends back to Hermann Weyl's 1918 theory of ‘gravitation and electricity’.
4 de nov. de 2020 · Dennis Dieks. Part of the book series: Fundamental Theories of Physics ( (FTPH,volume 199)) 915 Accesses. 1 Citations. Abstract. Hermann Weyl connected his epoch-making work on general relativity and gauge theory to his Husserlian views about the phenomenological essence of space and time.
