Hostname: page-component-5c6d5d7d68-lvtdw Total loading time: 0 Render date: 2024-08-14T20:34:19.356Z Has data issue: false hasContentIssue false
  • English
  • Français

Postulates for Physical Time

Published online by Cambridge University Press:  14 March 2022

Erwin Biser
Erwin Biser*
Affiliation:
Rutgers University
Get access Rights & Permissions [Opens in a new window]

Extract

It is evident to every earnest thinker that a theory of time is in a very significant sense implicit in any philosophy of nature. Indeed, the search for a time standard independent of the variation of the earth's speed, the maximum variation being slightly more than one-thousandth of a second, involves the most basic concepts and principles of physical theory (8).

Type
Research Article
Information
Philosophy of Science , Volume 19 , Issue 1 , January 1952 , pp. 50 - 69
Copyright
Copyright © Philosophy of Science Association 1952

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

This inquiry was undertaken with the aid of a grant given by the Research Council of Rutgers University. Parts of the paper were read before the Rutgers Mathematics Colloquium, the Fullerton Club at Bryn Mawr College, and the American Philosophical Association at Charlottesville, Virginia, December, 1948.

References

1. Altschul, E. and Biser, E., “The Validity of Unique Mathematical Models in Science,” Phil. of Science, Vol. 15 No. 1, Jan., 1948.CrossRefGoogle Scholar
2. Augustine, St., Confessions, Book XI, 17.Google Scholar
3. Bergson, H., Creative Evolution, N. Y. H. Holt and Co., 1911.CrossRefGoogle Scholar
4. Biser, E., “Concrete Real Space,” Jour. of Phil., Vol. XXXVII No. 19, Sept., 1941.Google Scholar
5. Biser, E., “Entity and Aspects (As pertaining to Physical Theory),” Phil. of Science, Vol. 14 No. 2, April, 1947.CrossRefGoogle Scholar
6. Bondi, H. and Gold, T., “The Steady State of the Expanding Universe,” Monthly Notices R.A.S., Vol. 108 No. 13, 1948.Google Scholar
7. Eddington, Sir Arthur, Fundamental Theory, Cambridge, 1946. pp. 81, 83.Google Scholar
8. Marrison, W. A., “The Evolution of the Quartz Crystal Clock,” The Bell System Technical Journal No. 3, Vol. XXVII, July, 1948, pp. 510588.CrossRefGoogle Scholar
9. Newton, Isaac, Principia, I. Def. VIII. Schol. I.Google Scholar
10. Silberstein, L., “Determination of Curvature Invariant of Space-Time,” Phil. Mag., Vol. 47, 6th Series, 1924, pp. 907918.CrossRefGoogle Scholar
11. Silberstein, L., “The Doppler Effect In deSitter's Space-Time, ”Phil. Mag., Vol. 3, 7th Series, 1927, pp. 10851087.CrossRefGoogle Scholar
12. Weyl, H., “Zur allgemeinen Relativitätstheorie,” Phys. Zeitschr., Vol. XXIV, 1923, pp. 230232.Google Scholar
13. Weyl, H., “Red Shift and Relativistic Cosmology,” Phil. Mag., Vol. 97, 7th Series, 1930, pp. 936943.CrossRefGoogle Scholar
14. Whitehead, A. N., The Principles of Relativity, Cambridge. 1922, p. 21.Google Scholar