Solar Eclipse Prime Page

Annular Solar Eclipse of 2030 Jun 01

Fred Espenak

Key to Solar Eclipse Figure (below)

Introduction


The Annular Solar Eclipse of 2030 Jun 01 is visible from the following geographic regions:

  • Partial Eclipse: Europe, north Africa, Mid East, Asia, Arctic, Alaska
  • Annular Eclipse: Algeria, Tunisia, Greece, Turkey, Russia, north China, Japan

The map to the right depicts the geographic regions of eclipse visibility. Click on the map to enlarge it. For an explanation of the features appearing in the map, see Key to Solar Eclipse Maps.

The instant of greatest eclipse takes place on 2030 Jun 01 at 06:29:13 TD (06:27:59 UT1). This is 1.0 days after the Moon reaches apogee. During the eclipse, the Sun is in the constellation Taurus. The synodic month in which the eclipse takes place has a Brown Lunation Number of 1329.

The eclipse belongs to Saros 128 and is number 59 of 73 eclipses in the series. All eclipses in this series occur at the Moon’s descending node. The Moon moves northward with respect to the node with each succeeding eclipse in the series and gamma increases.

The annular solar eclipse of 2030 Jun 01 is followed two weeks later by a partial lunar eclipse on 2030 Jun 15.

These eclipses all take place during a single eclipse season.

The eclipse predictions are given in both Terrestrial Dynamical Time (TD) and Universal Time (UT1). The parameter ΔT is used to convert between these two times (i.e., UT1 = TD - ΔT). ΔT has a value of 74.0 seconds for this eclipse.

The following links provide maps and data for the eclipse.

Global Map Animation of Solar Eclipse

Michael Zeiler GreatAmericanEclipse.com and
Fred Espenak EclipseWise.com have created a series of eclipse animations - one for every solar eclipse during the 21st Century.

The animation of the Annular Solar Eclipse of 2030 Jun 01 shows the path of the Moon's shadows as they sweep across a global map of Earth (an orthographic projection). The vantage point of the animation is as seen from the Moon. The daylight hemisphere of Earth then faces the Moon and the lunar shadows appear perfectly circular with no distorted projection effects as they race across Earth.

The Moon's antumbral shadow appears as a small black disk and tracks along the path of annularity (yellow strip). The much larger penumbral shadow is lightly shaded and is outlined with a solid black edge. A partial eclipse is visible from within the penumbra, while an annular eclipse is visible inside the antumbra. Another consequence of this viewing geometry is that the Moon's shadows move across the disk of Earth in a straight line.

The map to the right shows a single frame from the medium size animation for the Annular Solar Eclipse of 2030 Jun 01 . In the upper left corner is the type of eclipse and the eclipse date. To the upper right is the Universal Time. The lower left corner displays the instantaneous duration of annularity. To the lower right is the credit for the animation.

Animations for the Annular Solar Eclipse of 2030 Jun 01 are available in three sizes/resolutions: small, medium, and large. They can be viewed through the following links:


Creative Commons License
These animations may be freely used and shared through Creative Commons.
You may use and distribute these eclipse animations as long as they are not modified and you include an attribution.
Solar Eclipse Global Animation by Fred Espenak and Michael Zeiler is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License. Based on work at EclipseWise.com and GreatAmericanEclipse.com

Attribution: "Global Map Animation of Eclipse courtesy of Michael Zeiler (GreatAmericanEclipse.com) and Fred Espenak (EclipseWise.com)".

Eclipse Data: Annular Solar Eclipse of 2030 Jun 01

Eclipse Characteristics
Parameter Value
Eclipse Magnitude 0.94426
Eclipse Obscuration 0.89163
Gamma 0.56265
Conjunction Times
Event Calendar Date and Time Julian Date
Greatest Eclipse 2030 Jun 01 at 06:29:12.9 TD (06:27:58.8 UT1) 2462653.769431
Ecliptic Conjunction 2030 Jun 01 at 06:22:30.7 TD (06:21:16.7 UT1) 2462653.764776
Equatorial Conjunction 2030 Jun 01 at 06:31:58.0 TD (06:30:44.0 UT1) 2462653.771342
Geocentric Coordinates of Sun and Moon
2030 Jun 01 at 06:29:12.9 TD (06:27:58.8 UT1)
Coordinate Sun Moon
Right Ascension04h37m01.2s04h36m55.8s
Declination+22°03'55.3"+22°34'11.5"
Semi-Diameter 15'46.4" 14'42.7"
Eq. Hor. Parallax 08.7" 0°53'59.6"
Geocentric Libration of Moon
Angle Value
l -1.0°
b -0.6°
c -9.7°
Prediction Parameters
Paramater Value
Ephemerides JPL DE405
ΔT 74.0 s
k (penumbra) 0.2725076
k (umbra) 0.2722810
Saros Series 128 (59/73)

Explanation of Solar Eclipse Data Tables

Penumbral Shadow Contacts and Extremes: Annular Solar Eclipse of 2030 Jun 01

Contacts of Penumbral Shadow with Earth
Contact Event Contact Time
TD
Time
UT1
Latitude Longitude
First External ContactP103:35:53.303:34:39.317°19.7'N028°32.2'E
Last External ContactP409:22:29.809:21:15.821°40.8'N138°25.6'E
Extreme Northern and Southern Path Limits of Penumbra
Contact Event Contact Time
TD
Time
UT1
Latitude Longitude
North Extreme Path Limit 1N104:17:38.304:16:24.301°51.4'S026°06.7'E
South Extreme Path Limit 1S108:40:47.408:39:33.402°33.1'N140°36.5'E

Explanation of Penumbral Shadow Contacts and Extremes Tables

Umbral Shadow Contacts and Extremes: Annular Solar Eclipse of 2030 Jun 01

Contacts of Umbral Shadow with Earth
Contact Event Contact Time
TD
Time
UT1
Latitude Longitude
First External ContactU104:48:25.804:47:11.828°45.0'N004°49.1'E
First Internal ContactU204:54:09.404:52:55.430°09.8'N002°36.7'E
Last Internal ContactU308:04:14.908:03:00.834°24.3'N164°49.9'E
Last External ContactU408:09:57.308:08:43.333°00.8'N162°33.5'E
Extreme Northern and Southern Path Limits of Umbra
Contact Event Contact Time
TD
Time
UT1
Latitude Longitude
North Extreme Path Limit 1N104:53:15.204:52:01.230°41.3'N002°32.6'E
South Extreme Path Limit 1S104:49:22.204:48:08.228°12.6'N004°52.5'E
North Extreme Path Limit 2N208:05:08.808:03:54.834°55.3'N164°55.8'E
South Extreme Path Limit 2S208:09:01.108:07:47.132°28.8'N162°28.5'E

Explanation of Umbral Shadow Contacts and Extremes Tables

Central Line Extremes and Duration: Annular Solar Eclipse of 2030 Jun 01

Extreme Limits of the Central Line
Contact Event Contact Time
TD
Time
UT1
Latitude Longitude
Extreme Central Line Limit 1C104:51:16.804:50:02.829°26.4'N003°43.8'E
Extreme Central Line Limit 2C208:07:06.908:05:52.933°41.6'N163°40.7'E

Explanation of Central Line Extremes Table

Greatest Eclipse and Greatest Duration
Event Time
TD
Time
UT1
Latitude Longitude Sun
Altitude
Sun
Azimuth
Path Width Central
Duration
Greatest Eclipse06:29:12.906:27:58.856°31.5'N080°03.7'E 55.5° 176.1° 249.6 km05m20.83s
Greatest Duration06:29:55.106:28:41.056°32.9'N080°30.0'E 55.5° 177.1° 249.6 km05m20.83s

Explanation of Greatest Eclipse and Greatest Duration

Polynomial Besselian Elements: Annular Solar Eclipse of 2030 Jun 01

Polynomial Besselian Elements
2030 Jun 01 at 06:00:00.0 TD (=t0)
n x y d l1 l2 μ
0 -0.26939 0.55197 22.0613 0.56617 0.01991 270.5399
1 0.50564 0.02101 0.0056 -0.00001 -0.00001 14.9997
2 0.00002 -0.00016 -0.0000 -0.00001 -0.00001 -0.0000
3 -0.00001 -0.00000 - - - -
Tan ƒ1 0.0046120
Tan ƒ2 0.0045890

At time t1 (decimal hours), each besselian element is evaluated by:

x = x0 + x1*t + x2*t2 + x3*t3 (or x = Σ [xn*tn]; n = 0 to 3)

where: t = t1 - t0 (decimal hours) and t0 = 6.000

Explanation of Polynomial Besselian Elements

Eclipse Publications

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For more visit: AstroPixels Publishing

Links for the Annular Solar Eclipse of 2030 Jun 01

Links to Additional Solar Eclipse Information

  • Home - home page of EclipseWise with predictions for both solar and lunar eclipses

Decade Tables of Solar Eclipses:
| 1901 - 1910 | 1911 - 1919 | 1921 - 1930 | 1931 - 1940 | 1941 - 1950 |
| 1951 - 1960 | 1961 - 1970 | 1971 - 1980 | 1981 - 1990 | 1991 - 2000 |
| 2001 - 2010 | 2011 - 2020 | 2021 - 2030 | 2031 - 2040 | 2041 - 2050 |
| 2051 - 2060 | 2061 - 2070 | 2071 - 2080 | 2081 - 2090 | 2091 - 2100 |

Solar Eclipse Publications

Eclipse Publications

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jpeg jpeg
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For more visit: AstroPixels Publishing

Eclipse Predictions

Predictions for the Annular Solar Eclipse of 2030 Jun 01 were generated using the JPL DE405 solar and lunar ephemerides. The lunar coordinates were calculated with respect to the Moon's Center of Mass. The predictions are given in both Terrestrial Dynamical Time (TD) and Universal Time (UT1). The parameter ΔT is used to convert between these two times (i.e., UT1 = TD - ΔT). ΔT has a value of 74.0 seconds for this eclipse.

Acknowledgments

Some of the content on this website is based on the books 21st Century Canon of Solar Eclipses and Thousand Year Canon of Solar Eclipses 1501 to 2500. All eclipse calculations are by Fred Espenak, and he assumes full responsibility for their accuracy.

Permission is granted to reproduce eclipse data when accompanied by a link to this page and an acknowledgment:

"Eclipse Predictions by Fred Espenak, www.EclipseWise.com"

The use of diagrams and maps is permitted provided that they are NOT altered (except for re-sizing) and the embedded credit line is NOT removed or concealed.