A characterisation of the Weylian structure of space-time by means of low velocity tests
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Publication:5947430
DOI10.1023/A:1010203823865zbMath1071.83509arXivgr-qc/0103047WikidataQ125568269 ScholiaQ125568269MaRDI QIDQ5947430
Publication date: 2001
Published in: General Relativity and Gravitation (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/gr-qc/0103047
Special relativity (83A05) Equations of motion in general relativity and gravitational theory (83C10)
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- An axiomatic basis of space-time theory. I: Construction of a causal space with coordinates
- Characterization of standard clocks by means of light rays and freely falling particles
- Characterization of free fall paths by a global or local Desargues property
- 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
- Geometry in a manifold with projective structure
- Constraints on the nature of inertial motion arising from the universality of free fall and the conformal causal structure of space-time
- Any physical, monopole equation of motion structure uniquely determines a projective inertial structure and an (n−1)-force
- Jet bundles and path structures
- Observer fields in Weylian spacetime models
- Path structures on manifolds
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