An interaction interpretation of special relativity theory. Part II

Foundations of Physics 3 (3):277-295 (1973)
  Copy   BIBTEX

Abstract

The interaction interpretation of special relativity theory (elaborated in Part I) is discussed in relation to quantum theory. The relativistic transformations (Lorentz processes) of physical variables, on the interaction interpretation, are observation-interaction dependent, just as are the physical values (eigenvalues) of systems described by quantum-theoretic state functions; a common, basic structure of the special relativity and quantum theories can therefore be presented. The constancy of the light speed is shown to follow from interaction-transformations of frequency and wavelength variables. A parallelism is suggested between, on the one hand, the Lorentz-Clausius distinction for relativistic transformations, and, on the other, the distinction between observation-dependent and observation-independent natural processes. The empirical study of rates of macroscopic clocks can provide a critical test of the interaction interpretation and of a possible extension to gravitational time changes; the role of time as prior determinant of natural process is at issue. The Hafele-Keating observations are of general relativity effects on clocks in accelerated motion

Categories

Keywords

Reprint years

DOI

10.1007/bf00708672

Other Versions

No versions found

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 100,888

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

An interaction interpretation of special relativity theory. Part I.Richard Schlegel - 1973 - Foundations of Physics 3 (2):169-184.
Interaction, not gravitation.Richard Schlegel - 1976 - Foundations of Physics 6 (4):435-438.
Is Minkowski Space-Time Compatible with Quantum Mechanics?Eugene V. Stefanovich - 2002 - Foundations of Physics 32 (5):673-703.
Superposition in quantum and relativity physics—An interaction interpretation of special relativity theory: Part III. [REVIEW]Richard Schlegel - 1975 - Foundations of Physics 5 (2):197-215.
An empirical test of the interaction interpretation of the theory of relativity.W. H. Cannon & O. G. Jensen - 1975 - Foundations of Physics 5 (2):217-227.
Physical Relativity: Space-Time Structure From a Dynamical Perspective.Harvey R. Brown - 2005 - Oxford, GB: Oxford University Press UK.
Relativity without Light: A Further Suggestion.Shan Gao - unknown
Special Relativity in Superposition.Ted Dace - 2022 - Axiomathes 32 (2):199-213.
Between Quantum and Classical Gravity: Is There a Mesoscopic Spacetime?Eolo Di Casola, Stefano Liberati & Sebastiano Sonego - 2015 - Foundations of Physics 45 (2):171-176.
Gödel axiom mappings in special relativity and quantum-electromagnetic theory.William M. Honig - 1976 - Foundations of Physics 6 (1):37-57.

Analytics

Added to PP
2013-11-22

Downloads
19 (#1,074,273)

6 months
4 (#1,247,093)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

Interaction, not gravitation.Richard Schlegel - 1976 - Foundations of Physics 6 (4):435-438.

Add more citations

References found in this work

Atomic theory and the description of nature.Niels Bohr - 1934 - Woodbridge, Conn.: Ox Bow Press.
Time and the physical world.Richard Schlegel - 1961 - New York,: Dover Publications.

Add more references