Path of the Total Solar Eclipse of 0550 Jun 01

Fred Espenak

Introduction

The following table delineates the path of the Moon's umbral shadow during the Total Solar Eclipse of 0550 Jun 01 . The geographic coordinates (WGS 84) of the northern and southern limits and the central line are listed at 120-second intervals. This provides adequate detail for making plots of the path on larger scale maps. Local circumstances on the central line include the ratio of the apparent diameters of the Moon to the Sun, the Sun's altitude and azimuth (degrees), the path width (kilometers) and the duration on the central line (minutes and seconds). See the Explanation of the Central Eclipse Path Table for a description of each column in the table.

The geographic visibility of the eclipse is shown on a global map on the Prime Page for the Eclipse which also includes complete details on the eclipse. The path of the eclipse is displayed in greater detail on an interactive Google Map .

Total Solar Eclipse of 0550 Jun 01
UT1 Northern Limit Southern Limit Central Line M:S Sun Sun Path Central
Latitude Longitude Latitude Longitude Latitude Longitude Ratio Alt. Azm. Width Duration
Limits66°11.8'S153°38.5'E66°44.3'S157°05.4'E66°28.5'S155°18.6'E 1.021 - 165 km 01m26.2s
00:1660°11.7'S159°16.0'E - - 64°01.8'S157°23.7'E 1.022 16° 169 km 01m31.5s
00:1857°40.3'S161°51.5'E63°08.4'S160°03.9'E59°56.8'S161°15.2'E 1.023 12° 177 km 01m41.1s
00:2055°50.3'S163°49.5'E59°53.9'S163°06.8'E57°41.9'S163°33.3'E 1.024 10° 10° 183 km 01m46.8s
00:2254°21.0'S165°28.9'E57°50.6'S165°12.5'E55°59.8'S165°23.0'E 1.024 11° 188 km 01m51.2s
00:2453°04.9'S166°56.7'E56°14.8'S166°55.8'E54°35.7'S166°57.4'E 1.025 13° 193 km 01m55.0s
00:2651°58.2'S168°16.4'E54°54.9'S168°26.1'E53°23.4'S168°21.9'E 1.025 14° 198 km 01m58.3s
00:2850°58.6'S169°30.3'E53°45.8'S169°47.8'E52°19.6'S169°39.3'E 1.026 15° 203 km 02m01.1s
00:3050°04.7'S170°39.6'E52°44.8'S171°03.3'E51°22.6'S170°51.5'E 1.026 16° 207 km 02m03.7s
00:3249°15.6'S171°45.4'E51°50.0'S172°14.2'E50°30.9'S171°59.6'E 1.026 17° 359° 212 km 02m06.0s
00:3448°30.5'S172°48.3'E51°00.4'S173°21.4'E49°43.8'S173°04.6'E 1.026 18° 357° 216 km 02m08.1s
00:3647°48.9'S173°49.0'E50°15.2'S174°25.9'E49°00.6'S174°07.1'E 1.027 19° 356° 221 km 02m09.9s
00:3847°10.4'S174°47.9'E49°33.7'S175°28.2'E48°20.7'S175°07.6'E 1.027 19° 354° 225 km 02m11.6s
00:4046°34.8'S175°45.2'E48°55.5'S176°28.7'E47°43.9'S176°06.5'E 1.027 20° 353° 229 km 02m13.0s
00:4246°01.7'S176°41.5'E48°20.3'S177°27.8'E47°09.8'S177°04.1'E 1.027 20° 351° 233 km 02m14.3s
00:4445°30.9'S177°36.8'E47°47.8'S178°25.9'E46°38.3'S178°00.7'E 1.027 20° 350° 237 km 02m15.3s
00:4645°02.4'S178°31.4'E47°17.8'S179°23.1'E46°09.0'S178°56.6'E 1.027 21° 348° 241 km 02m16.3s
00:4844°35.9'S179°25.6'E46°50.1'S179°40.1'W45°42.0'S179°52.0'E 1.027 21° 347° 244 km 02m17.0s
00:5044°11.4'S179°40.5'W46°24.6'S178°43.6'W45°17.0'S179°12.8'W 1.027 21° 346° 247 km 02m17.6s
00:5243°48.8'S178°46.6'W46°01.2'S177°47.3'W44°54.1'S178°17.8'W 1.028 21° 344° 250 km 02m18.0s
00:5443°28.0'S177°52.7'W45°39.8'S176°50.7'W44°33.0'S177°22.6'W 1.028 21° 343° 253 km 02m18.2s
00:5643°09.1'S176°58.5'W45°20.4'S175°53.9'W44°13.8'S176°27.1'W 1.028 21° 341° 255 km 02m18.3s
00:5842°51.9'S176°03.8'W45°02.9'S174°56.5'W43°56.5'S175°31.2'W 1.028 21° 340° 257 km 02m18.2s
01:0042°36.4'S175°08.5'W44°47.3'S173°58.4'W43°41.0'S174°34.5'W 1.028 21° 338° 258 km 02m17.9s
01:0242°22.8'S174°12.4'W44°33.7'S172°59.2'W43°27.3'S173°37.0'W 1.028 21° 337° 259 km 02m17.5s
01:0442°10.9'S173°15.3'W44°22.1'S171°58.8'W43°15.6'S172°38.3'W 1.027 21° 336° 259 km 02m16.9s
01:0642°00.8'S172°16.9'W44°12.4'S170°56.9'W43°05.7'S171°38.2'W 1.027 20° 334° 258 km 02m16.1s
01:0841°52.6'S171°17.0'W44°04.9'S169°53.1'W42°57.8'S170°36.5'W 1.027 20° 333° 257 km 02m15.1s
01:1041°46.4'S170°15.3'W43°59.6'S168°47.1'W42°52.0'S169°32.8'W 1.027 19° 331° 255 km 02m14.0s
01:1241°42.3'S169°11.4'W43°56.6'S167°38.4'W42°48.4'S168°26.7'W 1.027 19° 330° 253 km 02m12.6s
01:1441°40.4'S168°05.0'W43°56.3'S166°26.5'W42°47.3'S167°17.8'W 1.027 18° 328° 249 km 02m11.1s
01:1641°41.0'S166°55.6'W43°58.8'S165°10.6'W42°48.7'S166°05.4'W 1.027 18° 327° 245 km 02m09.3s
01:1841°44.2'S165°42.5'W44°04.6'S163°49.9'W42°53.1'S164°48.8'W 1.026 17° 325° 241 km 02m07.3s
01:2041°50.5'S164°25.0'W44°14.2'S162°23.1'W43°00.8'S163°27.2'W 1.026 16° 324° 236 km 02m05.0s
01:2242°00.3'S163°02.0'W44°28.4'S160°48.4'W43°12.5'S161°59.0'W 1.026 15° 322° 230 km 02m02.4s
01:2442°14.3'S161°32.0'W44°48.5'S159°03.1'W43°29.1'S160°22.3'W 1.026 14° 320° 223 km 01m59.4s
01:2642°33.5'S159°52.9'W45°16.5'S157°02.7'W43°52.0'S158°34.2'W 1.025 12° 319° 216 km 01m56.1s
01:2842°59.5'S158°01.2'W45°56.8'S154°38.1'W44°23.6'S156°29.4'W 1.025 11° 317° 208 km 01m52.1s
01:3043°35.3'S155°50.7'W47°00.0'S151°26.3'W45°09.0'S153°57.2'W 1.024 314° 199 km 01m47.3s
01:3244°27.3'S153°08.0'W - - 46°22.7'S150°27.0'W 1.023 311° 187 km 01m40.7s
Limits48°41.4'S142°54.4'W50°09.5'S143°45.9'W49°24.8'S143°19.0'W 1.021 - 168 km 01m28.4s

ΔT = 5184.3 seconds

Greatest Eclipse and Greatest Duration
Event Time
TD
Time
UT1
Latitude Longitude Sun
Altitude
Sun
Azimuth
Path Width Central
Duration
Greatest Eclipse02:20:54.100:54:29.844°28.1'S161°11.5'E 21.3° 342.4° 253.6 km02m18.24s
Greatest Duration02:22:17.000:55:52.744°14.9'S176°30.5'W 21.3° 341.4° 255.0 km02m18.28s

Explanation of Greatest Eclipse and Greatest Duration

Links for the Total Solar Eclipse of 0550 Jun 01

Links to Additional Solar Eclipse Predictions

  • Home - home page of EclipseWise with predictions for both solar and lunar eclipses
  • Solar Eclipses - primary page for solar eclipse predictions
  • Solar Eclipse Links - detailed directory of links

Eclipse Predictions

Predictions for the Total Solar Eclipse of 0550 Jun 01 were generated using the JPL DE406 solar and lunar ephemerides. The lunar coordinates were calculated with respect to the Moon's Center of Mass. Although the predictions are first calculated in Terrestrial Dynamical Time (TD), they are then converted to Universal Time (UT1) as presented here. The parameter ΔT is used to convert between the two times (i.e., UT1 = TD - ΔT). ΔT has a value of 5184.3 seconds for this eclipse. The uncertainty in ΔT is 128.9 seconds corresponding to a standard error in longitude of the eclipse path of ± 0.54°.

Acknowledgments

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, EclipseWise.com"

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