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From dawn to dusk

Published online by Cambridge University Press:  18 June 2018

John D. Mahony
John D. Mahony*
Affiliation:
5 Bluewater View, Mt. Pleasant, Christchurch 8081, New Zealand e-mail: johndmahony@gmail.com
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Extract

It used to be the case in some jurisdictions that a rhythmic knell of the Angelus bell would mark the onset of dawn, noon and the passing of a day at dusk. Between these times there is daylight whose duration varies from place to place and from day to day and which can be predicted either exactly or approximately. An illuminating problem concerning the number of daylight hours at a winter solstice in London was posed recently and answered in the Problem Corner of The Mathematical Gazette [1]. It was shown, for example, that a calculation of daylight hours rested strictly upon the numerical solution to a transcendental trigonometric equation. Related references to earlier works in the Gazette involving a point source Sun were also given.

The purpose of this note is multifold. First, it is to point out that the above-cited equation might be viewed also as a “Sun-ray-to-Earth tangency condition”. Such a condition was developed earlier by the author in a publication that is now defunct [2], and so for completeness the steps necessary to establish the condition will be produced again here. Second, it will be evident from the manner of its derivation that the governing equation is valid at all orbit points, not just at a given solstice.

Type
Articles
Information
The Mathematical Gazette , Volume 102 , Issue 554 , July 2018 , pp. 246 - 256
Copyright
Copyright © Mathematical Association 2018 

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Footnotes

*

Reprinted by permission of the Applied Probability Trust. First published in John D. Mahony, Henges, Heel Stones, and Analemmas, Mathematical Spectrum, 41 (Number 1, 2008/2009) pp. 11-20. Copyright (c) Applied Probability Trust 2008.

References

1. Elliott, M. G., Problem Corner, Problem No. 98L, Math. Gaz. 99 (July 2015) pp. 373375.Google Scholar
2. Mahony, John D., Henges, , Stones, Heel, and Analemmas, , Mathematical Spectrum, 41 (2008/2009) pp. 1120.Google Scholar
3. U.S. Naval Observatory, Duration daylight/darkness table for one year, accessed January 2018 at: http://aa.usno.navy.mil/data/docs/Dur_OneYear.phpGoogle Scholar