The following table contains the Besselian elements for the Total Solar Eclipse of 1928 May 19 .
The geographic coordinates of the eclipse path are in the Path Table . The global visibility of the eclipse is shown on an Orthographic Map . The features of this map are described in the Key to Solar Eclipse Path Tables. The path of the eclipse is displayed in greater detail on a Google Map .
Besselian Elements for the Total Solar Eclipse of 1928 May 19
Non-Central Eclipse
Equatorial Conjunction: 12:50:01.5 TDT J.D. = 2425386.034739 (Sun & Moon in R.A.) (=12:49:37.3 UT) Ecliptic Conjunction: 13:14:20.3 TDT J.D. = 2425386.051624 (Sun & Moon in Ec. Lo.) (=13:13:56.1 UT) Instant of 13:24:19.6 TDT J.D. = 2425386.058560 Greatest Eclipse: (=13:23:55.4 UT) --------------------------------------------------------------------------- Gamma = -1.0048 Ephemerides = VSOP87/ELP2000-82 Eclipse Magnitude = 1.0140 Lunation No. = -886 ΔT = 24.2 s Saros Series = 117 (64/71) Lunar Radius k1 = 0.272488 (Penumbra) Shift in Δb = 0.00" Constants: k2 = 0.272281 (Umbra) Lunar Position: Δl = 0.00" --------------------------------------------------------------------------- Geocentric Coordinates of Sun & Moon at Greatest Eclipse (VSOP87/ELP2000-82): Sun: R.A. = 03h44m11.5s Moon: R.A. = 03h45m33.3s Dec. =+19°47'20.4" Dec. =+18°48'58.3" Semi-Diameter = 15'48.2" Semi-Diameter = 16'42.7" Eq.Hor.Par. = 08.7" Eq.Hor.Par. = 1°01'19.9" --------------------------------------------------------------------------- Polynomial Besselian Elements for: 1928 May 19 13:00:00.0 TDT (=t0) n x y d l1 l2 μ 0 0.092066 -1.028145 19.78787 0.531381 -0.014683 15.91721 1 0.5537507 0.1839047 0.008476 0.0000273 0.0000272 15.000929 2 0.0000343 -0.0000730 -0.000005 -0.0000128 -0.0000128 3 -0.0000094 -0.0000033 Tan ƒ1 = 0.0046195 Tan ƒ2 = 0.0045965 At time t1 (decimal hours), each Besselian element is evaluated by: a = a0 + a1*t + a2*t^2 + a3*t^3 (or a = Σ [an*t^n]; n = 0 to 3) where: a = x, y, d, l1, l2, or μ t = t1 - t0 (decimal hours) and t0 = 13.000 TDT The Besselian elements were derived from a least-squares fit to elements calculated at five uniformly spaced times over a six hour period centered at t0. The Besselian elements are valid over the period 10.00 ≤ t0 ≤ 16.00 TDT. Note that all times are expressed in Terrestrial Dynamical Time (TDT). Saros Series 117: Member 64 of 71 eclipses in series.
Predictions for the Total Solar Eclipse of 1928 May 19 were generated using the VSOP87/ELP2000-82 solar and lunar ephemerides and a value of ΔT = 24.2 seconds. The accuracy of the northern and southern edges of the eclipse path are limited to approximately 1-2 kilometers due to the lunar limb profile.
All eclipse calculations are by Fred Espenak, and he assumes full responsibility for their accuracy. Permission is freely granted to reproduce this data when accompanied by an acknowledgment:
"Eclipse Predictions by Fred Espenak, NASA's GSFC"
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