Path of the Annular Solar Eclipse of 0709 Nov 06

Fred Espenak

Introduction

The following table delineates the path of the Moon's antumbral shadow during the Annular Solar Eclipse of 0709 Nov 06 . 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 .

Annular Solar Eclipse of 0709 Nov 06
UT1 Northern Limit Southern Limit Central Line M:S Sun Sun Path Central
Latitude Longitude Latitude Longitude Latitude Longitude Ratio Alt. Azm. Width Duration
Limits53°30.0'S102°51.5'W55°22.7'S105°45.6'W54°25.1'S104°14.9'W 0.976 - 274 km 01m18.3s
11:0258°44.9'S091°02.5'W - - 57°54.0'S095°44.7'W 0.978 113° 259 km 01m15.7s
11:0460°18.6'S088°18.3'W58°54.8'S097°00.9'W59°48.4'S092°02.6'W 0.978 109° 249 km 01m14.5s
11:0661°41.5'S086°04.2'W60°49.2'S093°19.9'W61°21.4'S089°21.8'W 0.979 11° 106° 241 km 01m13.7s
11:0862°57.7'S084°08.5'W62°22.2'S090°41.3'W62°43.9'S087°10.8'W 0.979 12° 104° 234 km 01m13.0s
11:1064°09.5'S082°25.1'W63°44.9'S088°32.9'W64°00.1'S085°17.9'W 0.980 14° 101° 228 km 01m12.4s
11:1265°18.0'S080°50.7'W65°01.3'S086°43.0'W65°11.9'S083°37.5'W 0.980 15° 99° 222 km 01m11.9s
11:1466°24.0'S079°22.8'W66°13.4'S085°05.9'W66°20.6'S082°06.6'W 0.980 16° 97° 217 km 01m11.5s
11:1667°28.0'S078°00.1'W67°22.4'S083°38.2'W67°26.9'S080°41.5'W 0.980 17° 95° 213 km 01m11.1s
11:1868°30.5'S076°41.1'W68°29.2'S082°18.0'W68°31.3'S079°22.2'W 0.981 17° 93° 208 km 01m10.8s
11:2069°31.9'S075°25.1'W69°34.2'S081°03.3'W69°34.4'S078°07.2'W 0.981 18° 91° 205 km 01m10.5s
11:2270°32.2'S074°11.2'W70°37.8'S079°53.4'W70°36.2'S076°55.3'W 0.981 19° 89° 201 km 01m10.3s
11:2471°31.8'S072°58.7'W71°40.4'S078°47.5'W71°37.3'S075°46.1'W 0.981 19° 87° 198 km 01m10.1s
11:2672°30.8'S071°47.0'W72°42.2'S077°44.9'W72°37.6'S074°38.7'W 0.981 20° 85° 196 km 01m09.9s
11:2873°29.4'S070°35.5'W73°43.4'S076°45.2'W73°37.5'S073°32.8'W 0.981 20° 83° 193 km 01m09.8s
11:3074°27.7'S069°23.4'W74°44.3'S075°48.1'W74°37.1'S072°27.7'W 0.981 20° 82° 191 km 01m09.7s
11:3275°25.7'S068°10.2'W75°44.9'S074°53.2'W75°36.4'S071°23.0'W 0.981 20° 80° 189 km 01m09.6s
11:3476°23.7'S066°55.1'W76°45.4'S074°00.4'W76°35.7'S070°18.1'W 0.981 21° 78° 188 km 01m09.6s
11:3677°21.8'S065°37.0'W77°46.0'S073°09.6'W77°35.0'S069°12.5'W 0.981 21° 76° 187 km 01m09.6s
11:3878°19.9'S064°14.8'W78°46.8'S072°21.0'W78°34.6'S068°05.5'W 0.981 21° 74° 186 km 01m09.6s
11:4079°18.3'S062°47.1'W79°47.9'S071°34.5'W79°34.4'S066°56.3'W 0.981 21° 72° 186 km 01m09.7s
11:4280°16.9'S061°11.6'W80°49.5'S070°50.9'W80°34.6'S065°43.8'W 0.981 21° 70° 185 km 01m09.8s
11:4481°15.9'S059°25.4'W81°51.7'S070°10.7'W81°35.4'S064°26.4'W 0.981 21° 68° 185 km 01m09.9s
11:4682°15.4'S057°23.9'W82°54.7'S069°35.7'W82°36.8'S063°01.9'W 0.981 20° 65° 186 km 01m10.0s
11:4883°15.3'S054°59.9'W83°58.5'S069°08.5'W83°39.0'S061°26.3'W 0.981 20° 63° 186 km 01m10.2s
11:5084°15.7'S052°00.9'W85°03.5'S068°55.2'W84°42.2'S059°33.1'W 0.981 20° 60° 187 km 01m10.4s
11:5285°16.5'S048°03.5'W86°09.7'S069°09.0'W85°46.4'S057°08.2'W 0.981 20° 57° 189 km 01m10.7s
11:5486°17.1'S042°18.7'W87°17.4'S070°26.5'W86°51.7'S053°38.5'W 0.981 19° 52° 190 km 01m10.9s
11:5687°16.3'S032°47.4'W88°26.2'S075°18.2'W87°57.8'S047°16.3'W 0.981 19° 45° 192 km 01m11.2s
11:5888°09.1'S013°54.4'W89°30.6'S110°41.5'W89°02.2'S028°00.8'W 0.981 18° 25° 195 km 01m11.6s
12:0088°37.1'S025°46.9'E88°59.2'S142°55.8'E89°20.5'S066°28.7'E 0.980 17° 290° 198 km 01m11.9s
12:0288°13.2'S069°01.0'E87°43.1'S131°53.8'E88°16.7'S103°10.2'E 0.980 17° 252° 201 km 01m12.4s
12:0487°15.6'S090°45.2'E86°21.0'S129°42.9'E87°00.6'S112°06.4'E 0.980 16° 243° 205 km 01m12.8s
12:0686°04.8'S101°36.2'E84°53.0'S129°33.2'E85°39.0'S116°39.9'E 0.980 15° 237° 210 km 01m13.3s
12:0884°46.3'S108°13.7'E83°17.5'S130°16.5'E84°11.6'S119°54.7'E 0.979 14° 233° 215 km 01m13.9s
12:1083°20.7'S113°00.8'E81°31.4'S131°35.6'E82°36.6'S122°42.0'E 0.979 13° 230° 222 km 01m14.6s
12:1281°47.0'S116°56.4'E79°28.6'S133°31.0'E80°51.1'S125°24.9'E 0.978 11° 226° 229 km 01m15.3s
12:1480°02.3'S120°31.7'E76°53.7'S136°22.1'E78°49.2'S128°21.3'E 0.978 223° 239 km 01m16.2s
12:1678°00.9'S124°10.2'E71°32.6'S143°32.7'E76°16.0'S131°59.6'E 0.977 219° 252 km 01m17.3s
12:1875°27.6'S128°25.3'E - - 71°29.6'S139°08.9'E 0.976 211° 276 km 01m19.5s
Limits69°37.9'S138°02.6'E70°42.9'S144°48.3'E70°11.0'S141°15.8'E 0.975 - 282 km 01m20.1s

ΔT = 3700.6 seconds

Greatest Eclipse and Greatest Duration
Event Time
TD
Time
UT1
Latitude Longitude Sun
Altitude
Sun
Azimuth
Path Width Central
Duration
Greatest Eclipse12:40:58.711:39:18.279°13.5'S082°48.4'W 20.8° 72.5° 185.7 km01m09.67s
Greatest Duration13:19:46.812:18:06.270°11.0'S141°15.8'E 0.0° 209.2° 282.2 km01m20.14s

Explanation of Greatest Eclipse and Greatest Duration

Links for the Annular Solar Eclipse of 0709 Nov 06

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 Annular Solar Eclipse of 0709 Nov 06 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 3700.6 seconds for this eclipse. The uncertainty in ΔT is 98.6 seconds corresponding to a standard error in longitude of the eclipse path of ± 0.41°.

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.