Distinguishability of Weyl-from Lorentz-space-times by classical physical means
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Publication:674851
DOI10.1007/BF02109524zbMath0869.53059MaRDI QIDQ674851
Publication date: 6 March 1997
Published in: General Relativity and Gravitation (Search for Journal in Brave)
Applications of differential geometry to physics (53Z05) Einstein's equations (general structure, canonical formalism, Cauchy problems) (83C05)
Related Items (2)
Editorial note to: J. Ehlers, F. A. E. Pirani and A. Schild, ``The geometry of free fall and light propagation ⋮ THE PHYSICAL FOUNDATIONS FOR THE GEOMETRIC STRUCTURE OF RELATIVISTIC THEORIES OF GRAVITATION: FROM GENERAL RELATIVITY TO EXTENDED THEORIES OF GRAVITY THROUGH EHLERS–PIRANI–SCHILD APPROACH
Cites Work
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- Wave fields in Weyl spaces and conditions for the existence of a preferred pseudo-Riemannian structure
- Characterization of standard clocks by means of light rays and freely falling particles
- An axiomatic basis of space-time theory. III: Construction of a differentiable manifold
- On a new condition distinguishing Weyl and Lorentz space-times
- Remarks concerning the notion of free fall in axiomatic space-time theory
- An axiomatic basis of space-time theory. II: Construction of a \(C^ 0\)- manifold
- Observer fields in Weylian spacetime models
- Geometrical approach to the Heisenberg uncertainty relation and its generalization
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