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Main Authors: Wang, Tao, Shi, Yu
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2606.01510
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author Wang, Tao
Shi, Yu
author_facet Wang, Tao
Shi, Yu
contents This paper reviews the role of observers in the development of relativity theory, from special relativity to general relativity, emphasizing that observer-dependent descriptions are as fundamental as the covariance of physical laws. This paper reviews the role of observers in the development of relativity theory, from special relativity to general relativity, emphasizing that observer-dependent descriptions are as fundamental as the covariance of physical laws. After the introduction of a geometric framework for observers using timelike worldlines, Frenet-Serret formulas, projection operators, and the Frobenius condition for hypersurface-orthogonal families, the paper revisits key problems in early relativistic mechanics, such as the transformation of velocity and acceleration, the variational principle for particle motion, and the Ehrenfest paradox concerning rigid rotation. It shows that while early physicists often conflated coordinate systems with reference frames, their results remain valid because the underlying geometric objects are observer-independent. The historical analysis, from Einstein's 1905 work to the development of general relativity and later advances such as Hawking radiation, demonstrates that clarifying the concept of observers not only resolved paradoxes but also paved the way toward a field-theoretic formulation of gravity. The paper concludes that observer dependence, far from being a nuisance, is an essential ingredient for understanding spacetime physics.
format Preprint
id arxiv_https___arxiv_org_abs_2606_01510
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Relativity from the Perspectives of Observers
Wang, Tao
Shi, Yu
History and Philosophy of Physics
This paper reviews the role of observers in the development of relativity theory, from special relativity to general relativity, emphasizing that observer-dependent descriptions are as fundamental as the covariance of physical laws. This paper reviews the role of observers in the development of relativity theory, from special relativity to general relativity, emphasizing that observer-dependent descriptions are as fundamental as the covariance of physical laws. After the introduction of a geometric framework for observers using timelike worldlines, Frenet-Serret formulas, projection operators, and the Frobenius condition for hypersurface-orthogonal families, the paper revisits key problems in early relativistic mechanics, such as the transformation of velocity and acceleration, the variational principle for particle motion, and the Ehrenfest paradox concerning rigid rotation. It shows that while early physicists often conflated coordinate systems with reference frames, their results remain valid because the underlying geometric objects are observer-independent. The historical analysis, from Einstein's 1905 work to the development of general relativity and later advances such as Hawking radiation, demonstrates that clarifying the concept of observers not only resolved paradoxes but also paved the way toward a field-theoretic formulation of gravity. The paper concludes that observer dependence, far from being a nuisance, is an essential ingredient for understanding spacetime physics.
title Relativity from the Perspectives of Observers
topic History and Philosophy of Physics
url https://arxiv.org/abs/2606.01510