This catalog has a page for every eclipse from 2000 BC to 3000 AD, 23,962 in all, shown in groups of 20 years at a time. You can go to any eclipse by selecting the milennium, century and 20-year period from the navigation tabs above; then click on an eclipse's date in the list below to to go its page.

You can see the solar or lunar eclipses separately by clicking "Solar Eclipses" or "Lunar Eclipses" in the top-right tabs.

All Eclipses, 2081–2100 AD

Note that eclipse dates are specified relative to UT. You have not selected a timezone for eclipse timings, so all times are shown in UT (essentially GMT).
10 Mar, 2081 AD
max: 15:20 UT
Annular Solar Eclipse
(umbral mag. 0.93; Saros 131)
A small annular eclipse will cover only 93% of the Sun in a very broad path, 277 km wide at maximum, and will last 7 minutes and 36 seconds.
25 Mar, 2081 AD
max: 00:19 UT
Partial Lunar Eclipse
(umbral mag. 0.10; Saros 143)
A tiny bite out of the Moon may be visible at maximum, though just 10% of the Moon will be shadowed in a partial eclipse lasting for 1 hour and 7 minutes. A shading across the moon from the Earth's penumbral shadow should be visible at maximum eclipse.
3 Sep, 2081 AD
06:31–11:38 UT
Total Solar Eclipse
(umbral mag. 1.07; Saros 136)
A dramatic total eclipse will plunge the Sun into darkness for 5 minutes and 33 seconds at maximum, creating an amazing spectacle for observers in a very broad path, 247 km wide at maximum. It will be seen the Atlantic just south of Cornwall, central Europe, the Middle East, and just touching Indonesia. The partial eclipse will be visible in north-east Canada, over northern Russia, northern and western Europe, and north-west Africa.
18 Sep, 2081 AD
max: 03:32 UT
Penumbral Lunar Eclipse
(penum. mag. 0.93; Saros 148)
This subtle penumbral eclipse eclipse may be visible to a skilled observer at maximum eclipse. 93% of the Moon's disc will be partially shaded by the Earth (none of it will be in total shadow), which will cause a gentle shadow gradient across its disc at maximum; the eclipse as a whole will last 4 hours and 36 minutes.
13 Feb, 2082 AD
max: 06:26 UT
Partial Lunar Eclipse
(umbral mag. 0.01; Saros 115)
A tiny bite out of the Moon may be visible at maximum, though just 1% of the Moon will be shadowed in a partial eclipse lasting for 25 minutes and 30 seconds. A shading across the moon from the Earth's penumbral shadow should be visible at maximum eclipse.
27 Feb, 2082 AD
max: 14:44 UT
Annular Solar Eclipse
(umbral mag. 0.93; Saros 141)
A small annular eclipse will cover only 93% of the Sun in a very broad path, 277 km wide at maximum, and will last 8 minutes and 12 seconds.
8 Aug, 2082 AD
max: 14:43 UT
Penumbral Lunar Eclipse
(penum. mag. 1.00; Saros 120)
In a rare total penumbral eclipse, the entire Moon will be partially shaded by the Earth (though none of it will be in complete shadow), and the shading across the Moon should be quite visible at maximum eclipse. The penumbral phase will last for 4 hours and 30 minutes in all, though for most of it, the eclipse will be extremely difficult or impossible to see.
24 Aug, 2082 AD
max: 01:13 UT
Total Solar Eclipse
(umbral mag. 1.05; Saros 146)
A dramatic total eclipse will plunge the Sun into darkness for 4 minutes and 1 second at maximum, creating an amazing spectacle for observers in a broad path up to 163 km wide.
2 Feb, 2083 AD
max: 18:24 UT
Total Lunar Eclipse
(umbral mag. 1.21; Saros 125)
The Moon will be plunged into darkness for 1 hour and 7 minutes, in a deep total eclipse which will see the Moon 21% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 29 minutes in total.
16 Feb, 2083 AD
max: 18:03 UT
Partial Solar Eclipse
(umbral mag. 0.94; Saros 151)
This will be a deep partial eclipse, with 94% of the Sun covered for viewers closest to the center. This will provide a significant spectacle for those who will see it.
15 Jul, 2083 AD
max: 00:11 UT
Partial Solar Eclipse
(umbral mag. 0.02; Saros 118)
With only 2% of the Sun covered at maximum eclipse, this will be a very marginal eclipse at best, and rather uninteresting.
29 Jul, 2083 AD
max: 01:02 UT
Total Lunar Eclipse
(umbral mag. 1.48; Saros 130)
The Moon will be plunged into darkness for 1 hour and 30 minutes, in a deep total eclipse which will see the Moon 48% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 33 minutes in total.
13 Aug, 2083 AD
max: 12:31 UT
Partial Solar Eclipse
(umbral mag. 0.61; Saros 156)
A moderate partial eclipse, with 61% of the Sun covered for viewers closest to the center, will create an interesting spectacle.
7 Jan, 2084 AD
max: 17:27 UT
Partial Solar Eclipse
(umbral mag. 0.87; Saros 123)
This will be a deep partial eclipse, with 87% of the Sun covered for viewers closest to the center. This will provide a significant spectacle for those who will see it.
22 Jan, 2084 AD
max: 23:10 UT
Total Lunar Eclipse
(umbral mag. 1.15; Saros 135)
A shallow total eclipse will see the Moon in relative darkness for 1 hour and 1 minute. The Moon will be 15% of its diameter into the Earth's umbral shadow, and should be significantly darkened. The partial eclipse will last for 3 hours and 36 minutes in total.
3 Jul, 2084 AD
max: 01:47 UT
Annular Solar Eclipse
(umbral mag. 0.94; Saros 128)
The Sun will be 94% covered in a moderate annular eclipse, lasting 4 minutes and 25 seconds and covering a very broad path, 377 km wide at maximum.
17 Jul, 2084 AD
max: 16:56 UT
Partial Lunar Eclipse
(umbral mag. 0.91; Saros 140)
The Moon will be almost covered by the Earth's shadow in a very deep partial eclipse, lasting 3 hours and 1 minute. With 91% of the Moon in shadow at maximum eclipse, this will be quite a memorable event.
27 Dec, 2084 AD
max: 09:11 UT
Total Solar Eclipse
(umbral mag. 1.04; Saros 133)
A dramatic total eclipse will plunge the Sun into darkness for 3 minutes and 4 seconds at maximum, creating an amazing spectacle for observers in a path up to 146 km wide.
10 Jan, 2085 AD
max: 22:29 UT
Penumbral Lunar Eclipse
(penum. mag. 0.99; Saros 145)
At maximum eclipse, 99% of the Moon's disc will be partially shaded by the Earth, which will cause a slight shadow gradient across its disc; this subtle effect may be visible to careful observers. No part of the Moon will be in complete shadow. The eclipse will last 4 hours and 45 minutes overall.
8 Jun, 2085 AD
max: 02:14 UT
Penumbral Lunar Eclipse
(penum. mag. 0.51; Saros 112)
This very subtle penumbral eclipse eclipse will be essentially invisible to the naked eye; though it will last 3 hours and 9 minutes, just 51% of the Moon's disc will be in partial shadow (with no part of it in complete shadow).
22 Jun, 2085 AD
max: 03:18 UT
Annular Solar Eclipse
(umbral mag. 0.97; Saros 138)
A large annular eclipse will cover 97% of the Sun, creating a dramatic spectacle for observers in a path up to 106 km wide; it will last 3 minutes and 29 seconds at the point of maximum eclipse.
7 Jul, 2085 AD
max: 10:01 UT
Penumbral Lunar Eclipse
(penum. mag. 0.50; Saros 150)
This very subtle penumbral eclipse eclipse will be essentially invisible to the naked eye; though it will last 3 hours and 4 minutes, just 50% of the Moon's disc will be in partial shadow (with no part of it in complete shadow).
1 Dec, 2085 AD
max: 08:22 UT
Penumbral Lunar Eclipse
(penum. mag. 0.64; Saros 117)
This subtle penumbral eclipse eclipse may be visible to a skilled observer at maximum eclipse. 64% of the Moon's disc will be partially shaded by the Earth (none of it will be in total shadow), which will cause a gentle shadow gradient across its disc at maximum; the eclipse as a whole will last 3 hours and 39 minutes.
16 Dec, 2085 AD
max: 22:34 UT
Annular Solar Eclipse
(umbral mag. 1.00; Saros 143)
A large annular eclipse will cover over 99% of the Sun, creating a dramatic spectacle for observers in a narrow path at most 10 km wide; it will last just 19 seconds at the point of maximum eclipse.
28 May, 2086 AD
max: 12:40 UT
Partial Lunar Eclipse
(umbral mag. 0.82; Saros 122)
The Moon will be strikingly shadowed in this deep partial eclipse lasting 3 hours and 9 minutes, with 82% of the Moon in darkness at maximum.
11 Jun, 2086 AD
max: 11:04 UT
Total Solar Eclipse
(umbral mag. 1.02; Saros 148)
The Sun will be darkened for 1 minute and 48 seconds by a dramatic total eclipse covering a path up to 86 km wide. This will be a sight worth seeing.
20 Nov, 2086 AD
max: 20:16 UT
Partial Lunar Eclipse
(umbral mag. 0.99; Saros 127)
The Moon will be almost covered by the Earth's shadow in a very deep partial eclipse, lasting 3 hours and 8 minutes. With 99% of the Moon in shadow at maximum eclipse, this will be quite a memorable event.
6 Dec, 2086 AD
max: 05:36 UT
Partial Solar Eclipse
(umbral mag. 0.93; Saros 153)
This will be a deep partial eclipse, with 93% of the Sun covered for viewers closest to the center. This will provide a significant spectacle for those who will see it.
2 May, 2087 AD
max: 18:01 UT
Partial Solar Eclipse
(umbral mag. 0.80; Saros 120)
This will be a deep partial eclipse, with 80% of the Sun covered for viewers closest to the center. This will provide a significant spectacle for those who will see it.
17 May, 2087 AD
max: 15:52 UT
Total Lunar Eclipse
(umbral mag. 1.46; Saros 132)
The Moon will be plunged into darkness for 1 hour and 35 minutes, in a deep total eclipse which will see the Moon 46% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 51 minutes in total.
1 Jun, 2087 AD
max: 01:24 UT
Partial Solar Eclipse
(umbral mag. 0.21; Saros 158)
A small partial eclipse will barely darken the Sun. With just 21% of the Sun covered for viewers closest to the center, this will be of limited interest.
26 Oct, 2087 AD
max: 11:44 UT
Partial Solar Eclipse
(umbral mag. 0.47; Saros 125)
A small partial eclipse will barely darken the Sun. With just 47% of the Sun covered for viewers closest to the center, this will be of limited interest.
10 Nov, 2087 AD
max: 12:02 UT
Total Lunar Eclipse
(umbral mag. 1.50; Saros 137)
The Moon will be plunged into darkness for 1 hour and 29 minutes, in a deep total eclipse which will see the Moon 50% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 27 minutes in total.
21 Apr, 2088 AD
max: 10:28 UT
Total Solar Eclipse
(umbral mag. 1.05; Saros 130)
A dramatic total eclipse will plunge the Sun into darkness for 3 minutes and 58 seconds at maximum, creating an amazing spectacle for observers in a broad path up to 173 km wide.
5 May, 2088 AD
max: 16:13 UT
Partial Lunar Eclipse
(umbral mag. 0.10; Saros 142)
At maximum eclipse, a small bite out of the Moon should be visible. The eclipse will last for 1 hour and 17 minutes, with just 10% of the Moon in shadow at maximum.
14 Oct, 2088 AD
max: 14:45 UT
Annular Solar Eclipse
(umbral mag. 0.97; Saros 135)
A large annular eclipse will cover 97% of the Sun, creating a dramatic spectacle for observers in a path up to 115 km wide; it will last 2 minutes and 38 seconds at the point of maximum eclipse.
30 Oct, 2088 AD
max: 03:00 UT
Partial Lunar Eclipse
(umbral mag. 0.18; Saros 147)
At maximum eclipse, a small bite out of the Moon should be visible. The eclipse will last for 1 hour and 34 minutes, with just 18% of the Moon in shadow at maximum.
26 Mar, 2089 AD
max: 09:31 UT
Penumbral Lunar Eclipse
(penum. mag. 0.83; Saros 114)
This subtle penumbral eclipse eclipse may be visible to a skilled observer at maximum eclipse. 83% of the Moon's disc will be partially shaded by the Earth (none of it will be in total shadow), which will cause a gentle shadow gradient across its disc at maximum; the eclipse as a whole will last 3 hours and 58 minutes.
10 Apr, 2089 AD
max: 22:41 UT
Annular Solar Eclipse
(umbral mag. 0.99; Saros 140)
A large annular eclipse will cover over 99% of the Sun, creating a dramatic spectacle for observers in a narrow path at most 30 km wide; it will last 53 seconds at the point of maximum eclipse.
19 Sep, 2089 AD
max: 22:08 UT
Penumbral Lunar Eclipse
(penum. mag. 0.79; Saros 119)
This subtle penumbral eclipse eclipse may be visible to a skilled observer at maximum eclipse. 79% of the Moon's disc will be partially shaded by the Earth (none of it will be in total shadow), which will cause a gentle shadow gradient across its disc at maximum; the eclipse as a whole will last 4 hours and 12 minutes.
4 Oct, 2089 AD
22:30 on 3 Oct–03:54 UT
Total Solar Eclipse
(umbral mag. 1.03; Saros 145)
A dramatic total eclipse will plunge the Sun into darkness for 3 minutes and 14 seconds at maximum, creating an amazing spectacle for observers in a path up to 115 km wide. It will be seen from China, just passing north of Taiwan; the U.S. islands of Alamagan and Guguan; Kiribati; and (barely) Starbuck Island. The partial eclipse will be visible south-east Asia, Indonesia, and Hawaii.
15 Mar, 2090 AD
max: 23:45 UT
Total Lunar Eclipse
(umbral mag. 1.20; Saros 124)
The Moon will be plunged into darkness for 1 hour and 3 minutes, in a deep total eclipse which will see the Moon 20% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 18 minutes in total.
31 Mar, 2090 AD
max: 03:35 UT
Partial Solar Eclipse
(umbral mag. 0.78; Saros 150)
A moderate partial eclipse, with 78% of the Sun covered for viewers closest to the center, will create an interesting spectacle.
8 Sep, 2090 AD
max: 22:49 UT
Total Lunar Eclipse
(umbral mag. 1.04; Saros 129)
The Moon will barely edge into total eclipse for 31 minutes and 54 seconds. With the Moon just 4% of its diameter into the Earth's umbral shadow, the Moon may be quite bright, but even so, this should be worth seeing. The partial eclipse will last for 3 hours and 33 minutes in total.
23 Sep, 2090 AD
14:47–19:00 UT
Total Solar Eclipse
(umbral mag. 1.06; Saros 155)
A dramatic total eclipse will plunge the Sun into darkness for 3 minutes and 36 seconds at maximum, creating an amazing spectacle for observers in a very broad path, 463 km wide at maximum. It will be seen in the Arctic, south-west Ireland and England, and north-west France. The partial eclipse will be visible from most of North America, extreme western Europe, and north-west Africa.
18 Feb, 2091 AD
max: 09:51 UT
Partial Solar Eclipse
(umbral mag. 0.66; Saros 122)
A moderate partial eclipse, with 66% of the Sun covered for viewers closest to the center, will create an interesting spectacle.
5 Mar, 2091 AD
max: 15:55 UT
Total Lunar Eclipse
(umbral mag. 1.28; Saros 134)
The Moon will be plunged into darkness for 1 hour and 13 minutes, in a deep total eclipse which will see the Moon 28% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 21 minutes in total.
15 Aug, 2091 AD
max: 00:31 UT
Total Solar Eclipse
(umbral mag. 1.02; Saros 127)
The Sun will be darkened for 1 minute and 38 seconds by a dramatic total eclipse covering a broad path up to 236 km wide. This will be a sight worth seeing.
29 Aug, 2091 AD
max: 00:35 UT
Total Lunar Eclipse
(umbral mag. 1.24; Saros 139)
The Moon will be plunged into darkness for 1 hour and 13 minutes, in a deep total eclipse which will see the Moon 24% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 38 minutes in total.
7 Feb, 2092 AD
max: 15:07 UT
Annular Solar Eclipse
(umbral mag. 0.98; Saros 132)
A large annular eclipse will cover 98% of the Sun, creating a dramatic spectacle for observers in a narrow path at most 62 km wide; it will last 1 minute and 48 seconds at the point of maximum eclipse.
23 Feb, 2092 AD
max: 05:17 UT
Penumbral Lunar Eclipse
(penum. mag. 0.94; Saros 144)
At maximum eclipse, 94% of the Moon's disc will be partially shaded by the Earth, which will cause a slight shadow gradient across its disc; this subtle effect may be visible to careful observers. No part of the Moon will be in complete shadow. The eclipse will last 4 hours and 12 minutes overall.
19 Jul, 2092 AD
max: 00:38 UT
Penumbral Lunar Eclipse
(penum. mag. 0.06; Saros 111)
In this extremely marginal eclipse, the Moon barely clips the edge of the Earth's penumbral shadow. This will cause a microscopic darkening of just 6% of the Moon's disc for 1 hour and 8 minutes, which will be essentially impossible to see.
3 Aug, 2092 AD
max: 09:56 UT
Annular Solar Eclipse
(umbral mag. 0.98; Saros 137)
A large annular eclipse will cover 98% of the Sun, creating a dramatic spectacle for observers in a narrow path at most 75 km wide; it will last 2 minutes and 31 seconds at the point of maximum eclipse.
17 Aug, 2092 AD
max: 09:10 UT
Penumbral Lunar Eclipse
(penum. mag. 0.91; Saros 149)
At maximum eclipse, 91% of the Moon's disc will be partially shaded by the Earth, which will cause a slight shadow gradient across its disc; this subtle effect may be visible to careful observers. No part of the Moon will be in complete shadow. The eclipse will last 4 hours and 7 minutes overall.
12 Jan, 2093 AD
max: 17:56 UT
Penumbral Lunar Eclipse
(penum. mag. 0.76; Saros 116)
This subtle penumbral eclipse eclipse may be visible to a skilled observer at maximum eclipse. 76% of the Moon's disc will be partially shaded by the Earth (none of it will be in total shadow), which will cause a gentle shadow gradient across its disc at maximum; the eclipse as a whole will last 4 hours and 13 minutes.
27 Jan, 2093 AD
00:41–05:57 UT
Total Solar Eclipse
(umbral mag. 1.03; Saros 142)
A dramatic total eclipse will plunge the Sun into darkness for 2 minutes and 58 seconds at maximum, creating an amazing spectacle for observers in a path up to 119 km wide. It will be seen from eastern Australia, New Caledonia, and southern Vanuatu. The partial eclipse will be visible across Australia, Indonesia, and New Zealand.
8 Jul, 2093 AD
max: 17:21 UT
Partial Lunar Eclipse
(umbral mag. 0.49; Saros 121)
The Earth's shadow on the moon will be clearly visible in this eclipse, with 49% of the Moon in shadow; the partial eclipse will last for 2 hours and 22 minutes.
23 Jul, 2093 AD
09:36–15:21 UT
Annular Solar Eclipse
(umbral mag. 0.95; Saros 147)
The Sun will be 95% covered in a moderate annular eclipse, lasting 5 minutes and 11 seconds and covering a very broad path, 241 km wide at maximum. It will be visible from north-eastern U.S.A, central Britain and the north of Ireland, across Europe and into south Asia. The partial eclipse will be visible in north-east North America, Europe, and north Africa.
1 Jan, 2094 AD
max: 16:56 UT
Partial Lunar Eclipse
(umbral mag. 0.89; Saros 126)
The Moon will be strikingly shadowed in this deep partial eclipse lasting 3 hours and 21 minutes, with 89% of the Moon in darkness at maximum.
16 Jan, 2094 AD
16:50–21:02 UT
Total Solar Eclipse
(umbral mag. 1.03; Saros 152)
The Sun will be darkened for 1 minute and 51 seconds by a dramatic total eclipse covering a very broad path, 329 km wide at maximum. This will be a sight worth seeing, and will be visible from Antarctica, including the South Pole. The partial eclipse will be visible in Antarctica, New Zealand, southern South America, the Falklands, and the southern ocean.
13 Jun, 2094 AD
max: 00:19 UT
Partial Solar Eclipse
(umbral mag. 0.16; Saros 119)
With only 16% of the Sun covered at maximum eclipse, this will be a very marginal eclipse at best, and rather uninteresting.
28 Jun, 2094 AD
max: 09:58 UT
Total Lunar Eclipse
(umbral mag. 1.82; Saros 131)
A dramatic total eclipse lasting 1 hour and 41 minutes will plunge the full Moon into deep darkness, as it passes right through the centre of the Earth's umbral shadow. While the visual effect of a total eclipse is variable, the Moon may be stained a deep orange or red colour at maximum eclipse. This will be a great spectacle for everyone who sees it. The partial eclipse will last for 3 hours and 36 minutes in total.
12 Jul, 2094 AD
max: 13:21 UT
Partial Solar Eclipse
(umbral mag. 0.42; Saros 157)
A small partial eclipse will barely darken the Sun. With just 42% of the Sun covered for viewers closest to the center, this will be of limited interest.
7 Dec, 2094 AD
max: 20:02 UT
Partial Solar Eclipse
(umbral mag. 0.70; Saros 124)
A moderate partial eclipse, with 70% of the Sun covered for viewers closest to the center, will create an interesting spectacle.
21 Dec, 2094 AD
max: 19:53 UT
Total Lunar Eclipse
(umbral mag. 1.46; Saros 136)
The Moon will be plunged into darkness for 1 hour and 32 minutes, in a deep total eclipse which will see the Moon 46% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 41 minutes in total.
2 Jun, 2095 AD
max: 10:04 UT
Total Solar Eclipse
(umbral mag. 1.03; Saros 129)
A dramatic total eclipse will plunge the Sun into darkness for 3 minutes and 18 seconds at maximum, creating an amazing spectacle for observers in a path up to 145 km wide.
17 Jun, 2095 AD
max: 21:56 UT
Partial Lunar Eclipse
(umbral mag. 0.45; Saros 141)
The Earth's shadow on the moon will be clearly visible in this eclipse, with 45% of the Moon in shadow; the partial eclipse will last for 2 hours and 27 minutes.
27 Nov, 2095 AD
max: 00:59 UT
Annular Solar Eclipse
(umbral mag. 0.93; Saros 134)
A small annular eclipse will cover only 93% of the Sun in a very broad path, 285 km wide at maximum, and will last 8 minutes and 47 seconds.
11 Dec, 2095 AD
max: 06:11 UT
Partial Lunar Eclipse
(umbral mag. 0.26; Saros 146)
The Earth's shadow on the moon will be clearly visible in this eclipse, with 26% of the Moon in shadow; the partial eclipse will last for 1 hour and 49 minutes.
7 May, 2096 AD
max: 11:21 UT
Penumbral Lunar Eclipse
(penum. mag. 0.53; Saros 113)
This very subtle penumbral eclipse eclipse will be essentially invisible to the naked eye; though it will last 3 hours and 37 minutes, just 53% of the Moon's disc will be in partial shadow (with no part of it in complete shadow).
22 May, 2096 AD
max: 01:34 UT
Total Solar Eclipse
(umbral mag. 1.07; Saros 139)
A dramatic total eclipse will plunge the Sun into darkness for 6 minutes and 6 seconds at maximum, creating an amazing spectacle for observers in a very broad path, 241 km wide at maximum.
6 Jun, 2096 AD
max: 02:40 UT
Penumbral Lunar Eclipse
(penum. mag. 0.00; Saros 151)
In this virtually non-existant eclipse, the Moon barely clips the edge of the Earth's penumbral shadow; although the eclipse will last 21 minutes and 12 seconds, it will be impossible to see in practice.
31 Oct, 2096 AD
max: 11:27 UT
Penumbral Lunar Eclipse
(penum. mag. 0.77; Saros 118)
This subtle penumbral eclipse eclipse may be visible to a skilled observer at maximum eclipse. 77% of the Moon's disc will be partially shaded by the Earth (none of it will be in total shadow), which will cause a gentle shadow gradient across its disc at maximum; the eclipse as a whole will last 3 hours and 39 minutes.
15 Nov, 2096 AD
max: 00:33 UT
Annular Solar Eclipse
(umbral mag. 0.92; Saros 144)
A small annular eclipse will cover only 92% of the Sun in a very broad path, 294 km wide at maximum, and will last 8 minutes and 53 seconds.
29 Nov, 2096 AD
max: 21:19 UT
Penumbral Lunar Eclipse
(penum. mag. 0.09; Saros 156)
In this extremely marginal eclipse, the Moon barely clips the edge of the Earth's penumbral shadow. This will cause a microscopic darkening of just 9% of the Moon's disc for 1 hour and 18 minutes, which will be essentially impossible to see.
26 Apr, 2097 AD
max: 12:15 UT
Partial Lunar Eclipse
(umbral mag. 0.84; Saros 123)
The Moon will be strikingly shadowed in this deep partial eclipse lasting 3 hours and 15 minutes, with 84% of the Moon in darkness at maximum.
11 May, 2097 AD
16:18–20:44 UT
Total Solar Eclipse
(umbral mag. 1.05; Saros 149)
A dramatic total eclipse will plunge the Sun into darkness for 3 minutes and 10 seconds at maximum, creating an amazing spectacle for observers in a very broad path, 339 km wide at maximum. It will be seen through Alaska and across Svalbard to finish in far northern Lappland. The partial eclipse will be visible over most of Canada, and the northwestern USA.
21 Oct, 2097 AD
max: 01:27 UT
Total Lunar Eclipse
(umbral mag. 1.01; Saros 128)
The Moon will barely edge into total eclipse for just 15 minutes and 12 seconds. With the Moon just barely inside the Earth's umbral shadow, the Moon may be quite bright, but even so, this should be worth seeing. The partial eclipse will last for 3 hours and 15 minutes in total.
4 Nov, 2097 AD
max: 01:58 UT
Annular Solar Eclipse
(umbral mag. 0.95; Saros 154)
The Sun will be 95% covered in a moderate annular eclipse, lasting 3 minutes and 36 seconds and covering a very broad path, 411 km wide at maximum.
1 Apr, 2098 AD
max: 19:59 UT
Partial Solar Eclipse
(umbral mag. 0.80; Saros 121)
A moderate partial eclipse, with 80% of the Sun covered for viewers closest to the center, will create an interesting spectacle.
15 Apr, 2098 AD
max: 19:01 UT
Total Lunar Eclipse
(umbral mag. 1.44; Saros 133)
The Moon will be plunged into darkness for 1 hour and 29 minutes, in a deep total eclipse which will see the Moon 44% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 36 minutes in total.
25 Sep, 2098 AD
max: 00:27 UT
Partial Solar Eclipse
(umbral mag. 0.79; Saros 126)
A moderate partial eclipse, with 79% of the Sun covered for viewers closest to the center, will create an interesting spectacle.
10 Oct, 2098 AD
max: 09:16 UT
Total Lunar Eclipse
(umbral mag. 1.32; Saros 138)
The Moon will be plunged into darkness for 1 hour and 23 minutes, in a deep total eclipse which will see the Moon 32% of its diameter inside the Earth's umbral shadow. The visual effect of this depends on the state of the Earth's atmosphere, but the Moon may be stained a deep red colour. The partial eclipse will last for 3 hours and 41 minutes in total.
24 Oct, 2098 AD
max: 10:32 UT
Partial Solar Eclipse
(umbral mag. 0.01; Saros 164)
With only 1% of the Sun covered at maximum eclipse, this will be a very marginal eclipse at best, and rather uninteresting.
21 Mar, 2099 AD
max: 22:51 UT
Annular Solar Eclipse
(umbral mag. 0.93; Saros 131)
A small annular eclipse will cover only 93% of the Sun in a very broad path, 275 km wide at maximum, and will last 7 minutes and 32 seconds.
5 Apr, 2099 AD
max: 08:27 UT
Partial Lunar Eclipse
(umbral mag. 0.17; Saros 143)
At maximum eclipse, a small bite out of the Moon should be visible. The eclipse will last for 1 hour and 28 minutes, with just 17% of the Moon in shadow at maximum.
14 Sep, 2099 AD
14:22–19:27 UT
Total Solar Eclipse
(umbral mag. 1.07; Saros 136)
A dramatic total eclipse will plunge the Sun into darkness for 5 minutes and 18 seconds at maximum, creating an amazing spectacle for observers in a very broad path, 241 km wide at maximum. It will be seen across south-west Canada and the US. The partial eclipse will be visible in most of the Americas and western Africa.
29 Sep, 2099 AD
max: 10:33 UT
Penumbral Lunar Eclipse
(penum. mag. 1.03; Saros 148)
In a rare total penumbral eclipse, the entire Moon will be partially shaded by the Earth (though none of it will be in complete shadow), and the shading across the Moon should be quite visible at maximum eclipse. The penumbral phase will last for 4 hours and 48 minutes in all, though for most of it, the eclipse will be extremely difficult or impossible to see.
24 Feb, 2100 AD
max: 15:01 UT
Penumbral Lunar Eclipse
(penum. mag. 0.96; Saros 115)
The Moon will approach within 2% of the Earth's umbral shadow at maximum eclipse; 96% of the Moon's disc will be partially shaded by the Earth, with the overall eclipse lasting 4 hours and 5 minutes. While less dramatic than a partial eclipse (as no part of the Moon will be in complete shadow), a shading across the Moon should be readily visible to observers.
10 Mar, 2100 AD
19:23 on 10 Mar–01:26 on 11 Mar UT
Annular Solar Eclipse
(umbral mag. 0.93; Saros 141)
A small annular eclipse will cover only 93% of the Sun in a very broad path, 257 km wide at maximum, and will last 7 minutes and 29 seconds. It will be visible in Papua and the Solomon islands, Hawai'i and Maui, California, Oregon, Idaho, Montana, Wyoming, the Dakotas, and Minnesota. The partial eclipse will be visible across the Pacific and in the western US and Canada.
19 Aug, 2100 AD
max: 21:41 UT
Penumbral Lunar Eclipse
(penum. mag. 0.87; Saros 120)
This subtle penumbral eclipse eclipse may be visible to a skilled observer at maximum eclipse. 87% of the Moon's disc will be partially shaded by the Earth (none of it will be in total shadow), which will cause a gentle shadow gradient across its disc at maximum; the eclipse as a whole will last 4 hours and 14 minutes.
4 Sep, 2100 AD
max: 08:45 UT
Total Solar Eclipse
(umbral mag. 1.04; Saros 146)
A dramatic total eclipse will plunge the Sun into darkness for 3 minutes and 32 seconds at maximum, creating an amazing spectacle for observers in a path up to 142 km wide.