1/13/2024 0 Comments Status clock of unerversal time![]() G., "An analysis of the transits of Mercury: 1677-1973", Mon. & Stephenson, F.R., "Historical Values of the Earth's Clock Error Delta T and the Calculation of Eclipses", Journal for the History of Astronomy, Vol. Meeus, J., "The Effect of Delta T on Astronomical Calculations", Journal of the British Astronomical Association, 108 (1998), 154-156. 10 (Kluwer Academic Publishers, Dordrecht/Boston/London, 1995), pp. Appenzeller (ed.), Highlights of Astronomy: Vol. References for Delta Tĭickey, J.O., "Earth Rotation Variations from Hours to Centuries", in: I. However, the further into the past or future that one extrapolates, the greater the uncertainty in ΔT.įor more information, see: Historical Values of Delta T. Values for ΔT in the past and future are uncertain but may be approximated by extrapolating from known values. Recent observed values for ΔT are as follows: In particular, Morrison and Stephenson (2004) have fit hundreds of records with simple polynomials to achieve a best fit for describing the value of ΔT from 700 BCE to 1600 CE.Īn abbreviated table of their results follows: Values of delta T before AD 1600 pre-date the telescope and are based on historic records of naked eye observations of eclipses and occultations.Ī number of researchers have made significant contributions in this area. In spite of their relatively low precision, these data represent our only record to the value of ΔT during the past several millennia. In particular, they have identified hundreds of eclipse and occultation observations in early European, Middle Eastern and Chinese annals, manuscripts, canons and records. Stephenson and collaborators have produced a number of seminal works in the field of Earth's rotation over the past several millennia. This parameter is known as delta-T or ΔT (ΔT = TDT - UT). To convert TDT predictions to UT, one must know the difference between Terrestrial Dynamical Time and Universal Time. Most astronomical calculations (including eclipses) use Terrestrial Dynamical Time since the orbits of all the planets can be accurately described with it.Īlthough solar eclipse predictions are based on Terrestrial Dynamical Time, the position of the central eclipse path still depends on Universal Time. It can be thought of as the time that would be kept by an ideal clock. Terrestrial Dynamical Time (TDT) is an atomic time scale. When combined, the long term secular changes and rapid multi-decade fluctuations can put Earth an hour or more "behind schedule" in the course of one millennium. Whatever the mechanism is, it is clear that its effects cannot be predicted with the current state of knowledge. However, climatological changes and variations in sea-level may also play significant roles since they should alter Earth's moment of inertia. It is believed that these fluctuations may be due to fluid motions in Earth's core which interact with and disturb the rotation of the mantle. If we compare the rotation of the actual Earth with a fictional Earth turning at a constant rate, we would find that solar time on the real Earth would fall about one minute behind the fictional Earth after just one century.Įarth's rotation on its axis is also subject to short term fluctuations for periods of up to several decades. Such a trivially small amount may seem insignificant, but it has very measurable cummulative effects. In any case, the current value implies an increase in the length of the day by about 0.002 seconds per day per century. The secular acceleration of the Moon is very poorly known and may not be constant.Ĭareful records for its derivation only go back as far as 100 years or so.īefore then, spurious and often incomplete eclipse and occultation observations from medieval and ancient manuscripts comprise the data base. This secular acceleration gradually transfers angular momentum from Earth to the Moon.Īs Earth loses energy and slows down, the Moon gains this energy and its orbital period and distance from Earth increase. Unfortunately, Universal Time is not a uniform time scale because Earth's rotational period is gradually increasing.Īs Earth rotates on its axis, tidal friction is imposed on it through the gravitational attraction with the Moon and, to a lesser extent, the Sun. Universal Time or UT (colloquially called Greenwich Mean Time or GMT) is based on mean solar time from Greenwich, England. Delta T (ΔT) and Universal Time Fred Espenakįor many centuries, the fundamental unit of time was the rotational period of the Earth with respect to the Sun.
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