Penumbral lunar eclipse to be visible from the Americas, Western Europe, West Africa, Eastern Australia, New Guinea, Oceana, Japan, the Russian Far East, and the Pacific and Atlantic Oceans.

A penumbral Lunar Eclipse will occur on Monday 25 March 2024, starting at 4.53 am GMT and ending at 9.32 am GMT. The whole eclipse will be visible across all of the Americas except eastern Brazil, while part of the eclipse will be visible from the remainder of Brazil, Western Europe, West Africa, Eastern Australia, New Guinea, Oceana, Japan, the Russian Far East, and the Pacific and Atlantic Oceans, although in these areas the Moon will either rise part way through the eclipse, or set before it is complete.

Map showing areas from which the 25 March 2023 penumbral lunar eclipse will be visible. Time and Date.

The Moon produces no light of its own, but 'shines' with reflected light from the Sun. Thus, at Full Moon the Moon is on the opposite side of the Earth to the Sun, and its illuminated side is turned towards us, but at New Moon the Moon is between the Earth and the Sun, so that its illuminated side is turned away from us.

Lunar eclipses occur when the Moon passes through the Earth's shadow. This can only happen at Full Moon (unlike Solar Eclipses, which happen only when the Moon passes between the Earth and the Sum, and therefore only occur at New Moon), but does not happen every Lunar Month as the Sun, Moon and Earth are not in a perfect, unwavering line, but rather both the Earth and the Moon wobble slightly as they orbit their parent bodies, rising above and sinking bellow the plane of the ecliptic (the plane upon which they would all be in line every month).

Because the Moon is passing through a shadow, rather than being blocked from our view, it does not completely disappear during an eclipse like the Sun, but in a total Lunar Eclipse goes through two distinct phases of dimming, the Penumbra, when it is still partially illuminated by the Sun, and the Umbra, when the Earth completely blocks direct sunlight from the Moon. This does not result in complete darkness, as the Moon is still partially lit by reflected Earthlight, but it does turn a deep, dark red colour.  In a penumbral eclipse only the first of these phases occurs.

(Top) The geometry of the Earth's shadow. Within the Earth's penumbral shadow, the planet covers some fraction the Sun's disk. Only within the smaller umbra does the Earth cover the entirety of the Sun's disk. Any areas of the Moon's surface that pass through the penumbra appear darker than usual as the Earth is obstructing some of the sunlight that usually illuminates them. Areas within the umbra, meanwhile, receive no illumination from the Sun at all. Time and Date. (Bottom) The passage of the Moon through the Earth's penumbral shadow during the 25 March 2024 penumbral lunar eclipse. Guy Ottewell/EarthSky.

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Penumbral lunar eclipse to be seen from Australia, Indonesia, Africa, the Indian Ocean, and most of Eurasia.

A penumbral Lunar Eclipse will occur on Friday 5 May 2023, starting at 3.15 pm GMT and ending at 7.32 pm GMT. The whole eclipse will be visible across all of Australia, Indonesia, the Indian Ocean, southern Eurasia, and Africa with the exception of West Africa and the Maghreb region, while part of the eclipse will be visible from the remaining areas of Africa, the remaining areas of Eurasia, with the exception of the UK, Ireland, Norway, and the northern and eastern tips of Russia, as well as many Pacific Islands, although in these areas the Moon will either rise part way through the eclipse, or set before it is complete.

Areas from which the 5 May 2023 Penumbral Lunar Eclipse will be visible. In the darkest area the full extent of the eclipse will be visible, in the shaded areas it will either begin before the Moon rises or end after the Moon has set, while in the unshaded area it will not be visible at all. Time and Date.

The Moon produces no light of its own, but 'shines' with reflected light from the Sun. Thus at Full Moon the Moon is on the opposite side of the Earth to the Sun, and its illuminated side is turned towards us, but at New Moon the Moon is between the Earth and the Sun, so that its illuminated side is turned away from us.

Lunar eclipses occur when the Moon passes through the Earth's shadow. This can only happen at Full Moon (unlike Solar Eclipses, which happen only when the Moon passes between the Earth and the Sum, and therefore only occur at New Moon), but does not happen every Lunar Month as the Sun, Moon and Earth are not in a perfect, unwavering line, but rather both the Earth and the Moon wobble slightly as they orbit their parent bodies, rising above and sinking bellow the plane of the ecliptic (the plane upon which they would all be in line every month).

The geometry of the Earth's shadow. Within the Earth's penumbral shadow, the planet covers some fraction the Sun's disk. Only within the smaller umbra does the Earth cover the entirety of the Sun's disk. Any areas of the Moon's surface that pass through the penumbra appear darker than usual as the Earth is obstructing some of the sunlight that usually illuminates them. Areas within the umbra, meanwhile, receive no illumination from the Sun at all. In The Sky.

Because the Moon is passing through a shadow, rather than being blocked from our view, it does not completely disappear during an eclipse like the Sun, but in a total Lunar Eclipse goes through two distinct phases of dimming, the Penumbra, when it is still partially illuminated by the Sun, and the Umbra, when the Earth completely blocks direct sunlight from the Moon. This does not result in complete darkness, as the Moon is still partially lit by reflected Earthlight, but it does turn a deep, dark red colour.  In a penumbral eclipse only the first of these phases occurs.

Lunar eclipses occur at the nodes where the Moon crosses the Earth's orbital plane. Time and Date.

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Penumbral Eclipse to be visible from much of the Americas and parts of Africa, Europe and New Zealand.

A penumbral  Lunar Eclipse will occur on Sunday 5 July 2020, starting slightly before 3.05 am GMT. The whole eclipse will be visible across all of South and Central America, the Caribbean, Mexico, most of the United States, eastern Canada, parts of West Africa and much of the  Atlantic and eastern Pacific, while part of the eclipse will be visible from the remaining areas of the Americas (with the exception of the of Alaska and parts of northern and western Canada), as well as mush of the rest of Africa, Western Eutope, Hawai'i, New Zealand, and many Pacific Islands, although in these areas the Moon will either rise part way through the eclipse, or set before it is complete.

Areas from which the 5 July 2020 Penumbral Lunar Eclipse will be visible. In the white area the full extent of the eclipse will be visible, in the shaded areas it will either begin before the Moon rises or end after the Moon has set, while in the darkest area it will not be visible at all. HM Nautical Almanac Office.

The Moon produces no light of its own, but 'shines' with reflected light from the Sun. Thus at Full Moon the Moon is on the opposite side of the Earth to the Sun, and its illuminated side is turned towards us, but at New Moon the Moon is between the Earth and the Sun, so that its illuminated side is turned away from us.

Lunar eclipses occur when the Moon passes through the Earth's shadow. This can only happen at Full Moon (unlike Solar Eclipses, which happen only when the Moon passes between the Earth and the Sum, and therefore only occur at New Moon), but does not happen every Lunar Month as the Sun, Moon and Earth are not in a perfect, unwavering line, but rather both the Earth and the Moon wobble slightly as they orbit their parent bodies, rising above and sinking bellow the plane of the ecliptic (the plane upon which they would all be in line every month).

 

Because the Moon is passing through a shadow, rather than being blocked from our view, it does not completely disappear during an eclipse like the Sun, but in a total Lunar Eclipse goes through two distinct phases of dimming, the Penumbra, when it is still partially illuminated by the Sun, and the Umbra, when the Earth completely blocks direct sunlight from the Moon. This does not result in complete darkness, as the Moon is still partially lit by reflected Earthlight, but it does turn a deep, dark red colour.  In a penumbral eclipse only the first of these phases occurs.

 

 Phases of the Lunar Eclipse that will be seen on 5 July 2020. The times are given in GMT, to the nearest 10th of a minute, thus 03.04..2 represents 12 seconds after 3.04 am GMT. HM Nautical Almanac Office.

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Penumbral Lunar Eclipse, 10-11 February 2017.

A penumbral  Lunar Eclipse will occur on Friday 10-Saturday 11 February 2017, starting slightly after 10.30 pm GMT. The whole eclipse will be visible across all of Europe and Africa and the islands of the Atlantic Ocean, as well as western Asia and Madagascar and eastern parts of North and South America. While part of the eclipse will be visible from the remaining areas of the Americas (with the exception of the eastern tip of Alaska), as well as all of the Indian Ocean and most of Asia, although in these areas the Moon will either rise part way through the eclipse, or set before it is complete.

 

 Areas from which the 10-11 February 2017 Lunar Eclipse will be visible. In the white area the full extent of the eclipse will be visible, in the shaded areas it will either begin before the Moon rises or end after the Moon has set, while in the darkest area it will not be visible at all. HM Nautical Almanac Office.

The Moon produces no light of its own, but 'shines' with reflected light from the Sun. Thus at Full Moon the Moon is on the opposite side of the Earth to the Sun, and its illuminated side is turned towards us, but at New Moon the Moon is between the Earth and the Sun, so that its illuminated side is turned away from us.

Lunar eclipses occur when the Moon passes through the Earth's shadow. This can only happen at Full Moon (unlike Solar Eclipses, which happen only when the Moon passes between the Earth and the Sum, and therefore only occur at New Moon), but does not happen every Lunar Month as the Sun, Moon and Earth are not in a perfect, unwavering line, but rather both the Earth and the Moon wobble slightly as they orbit their parent bodies, rising above and sinking bellow the plane of the ecliptic (the plane upon which they would all be in line every month).

Because the Moon is passing through a shadow, rather than being blocked from our view, it does not completely disappear during an eclipse like the Sun, but in a total Lunar Eclipse goes through two distinct phases of dimming, the Penumbra, when it is still partially illuminated by the Sun, and the Umbra, when the Earth completely blocks direct sunlight from the Moon. This does not result in complete darkness, as the Moon is still partially lit by reflected Earthlight, but it does turn a deep, dark red colour.  In a penumbral eclipse only the first of these phases occurs.

 Phases of the Lunar Eclipse that will be seen on 10-111 February 2017. The times are given in GMT, to the nearest 10th of a minute, thus 22.32.2 represents 12 seconds after 10.32 pm GMT. HM Nautical Almanac Office.

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