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Temporal variation of the Earth-Moon system parameters with cosmic evolution

Arbab, A. I.

Abstract We have obtained empirical laws for the variation of the Earth parameters with geologic time that are in agreement with coral fossil data obtained by Wells and Runcorn. Our model predicts that the day is lengthening at a rate of 2 ms/century at the present time. The length of the day when the Earth was formed is found to be 6 hours and the synodic month 56 days. The angular momentum of the Earth-Moon system is found to be increasing with time. The origin of the presently observed acceleration of the Moon is explained. The model predicts that the Moon is accelerating at 20.6 arc sec/$ cy^{2} $ at the present time.

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Temporal variation of the Earth-Moon system parameters with cosmic evolution

Arbab, A. I.

Abstract We have obtained empirical laws for the variation of the Earth parameters with geologic time that are in agreement with coral fossil data obtained by Wells and Runcorn. Our model predicts that the day is lengthening at a rate of 2 ms/century at the present time. The length of the day when the Earth was formed is found to be 6 hours and the synodic month 56 days. The angular momentum of the Earth-Moon system is found to be increasing with time. The origin of the presently observed acceleration of the Moon is explained. The model predicts that the Moon is accelerating at 20.6 arc sec/$ cy^{2} $ at the present time.

Temporal variation of the Earth-Moon system parameters with cosmic evolution

Arbab, A. I.

Abstract We have obtained empirical laws for the variation of the Earth parameters with geologic time that are in agreement with coral fossil data obtained by Wells and Runcorn. Our model predicts that the day is lengthening at a rate of 2 ms/century at the present time. The length of the day when the Earth was formed is found to be 6 hours and the synodic month 56 days. The angular momentum of the Earth-Moon system is found to be increasing with time. The origin of the presently observed acceleration of the Moon is explained. The model predicts that the Moon is accelerating at 20.6 arc sec/$ cy^{2} $ at the present time.

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Title:

Temporal variation of the Earth-Moon system parameters with cosmic evolution

Contributors:

Arbab, A. I. (author)

Published in:

Acta Geodaetica et Geophysica Hungarica ; 39

Publication date:

2004

ISSN:

DOI:

https://doi.org/10.1556/AGeod.39.2004.1.3

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Geodäsie , Geophysik

Classification:

BKL: 38.70 Geophysik: Allgemeines / 38.73 Geodäsie

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