Misplaced Pages

Lunar eclipse: Difference between revisions

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
Browse history interactively← Previous editContent deleted Content addedVisualWikitext
Revision as of 09:52, 18 June 2014 view source80.194.103.195 (talk)No edit summary← Previous edit Latest revision as of 21:43, 26 November 2024 view source Tepkunset (talk | contribs)Extended confirmed users994 edits PunctuationTag: Visual edit 
(345 intermediate revisions by more than 100 users not shown)
Line 1: Line 1:
{{Short description|Natural phenomenon wherein the Earth casts a shadow on the Moon}}
{{pp-pc1}}
{{other uses}} {{other uses}}
{{Use dmy dates|date=September 2024}}
{{Distinguish|Solar eclipse}}
{{More citations needed|date=January 2023}}
]]]
] from ], United States]]
A '''lunar eclipse''' is an ] that occurs when the ] moves into the ], causing the Moon to be darkened.<ref>{{Cite web |url=http://earthsky.org/tonight/centurys-longest-lunar-eclipse-july-27 |title=Century's Longest Lunar Eclipse July 27 |last=McClure |first=Bruce |date=27 July 2018 |website=] |access-date=1 August 2018}}</ref> Such an alignment occurs during an ], approximately every six months, during the ] phase, when the Moon's orbital plane is closest to ].


A '''lunar eclipse''' occurs when the ] passes directly behind the ] into its ] (shadow). This Is commonly seen when adam flies in between the earth and the sun. Related to this is the adam meteorite which killed the dinosaurs. This can occur only when the Sun, Earth, and Moon are aligned (in "]") exactly, or very closely so, with the Earth in the middle. Hence, a lunar eclipse can only occur the night of a ]. The type and length of an ] depend upon the Moon's location relative to its ]s. This can occur only when the ], Earth, and Moon are exactly or very closely aligned (in ]) with Earth between the other two, which can happen only on the night of a ] when the Moon is near either ]. The type and length of a lunar eclipse depend on the Moon's proximity to the lunar node.<ref>{{Cite web |title=Eclipses - NASA Science |url=https://science.nasa.gov/moon/eclipses/ |access-date=13 May 2024 |website=science.nasa.gov |language=en-US}}</ref><ref>{{Cite web |title=NASA - Periodicity of Lunar Eclipses |url=https://eclipse.gsfc.nasa.gov/LEsaros/LEperiodicity.html |access-date=13 May 2024 |website=eclipse.gsfc.nasa.gov}}</ref>


When the Moon is totally eclipsed by the Earth (a "deep eclipse"),<ref name="QZ-2023">{{cite web |author=Staff |title=PHYS 1350 Astronomy Exam 3 (TXST-Olson) |url=https://quizlet.com/341047631/phys-1350-astronomy-exam-3-txst-olson-flash-cards/ |date=2023 |work=] |url-status=live |archiveurl=https://archive.today/20231109125204/https://quizlet.com/341047631/phys-1350-astronomy-exam-3-txst-olson-flash-cards/ |archivedate=9 November 2023 |accessdate=9 November 2023 }} "What is a deep eclipse? The smaller star is behind the bigger star"</ref><ref name="AT-20231107">{{cite news |author=Miller, A.M. |display-authors=et al.|title=ATel #16328 - ASASSN-23ht: A Deep Eclipse Event |url=https://www.astronomerstelegram.org/?read=16328 |date=7 November 2023 |work=] |url-status=live |archiveurl=https://archive.today/20231109132351/https://www.astronomerstelegram.org/?read=16328 |archivedate=9 November 2023 |accessdate=9 November 2023 }}</ref> it takes on a reddish color that is caused by the planet when it completely blocks direct ] from reaching the Moon's surface, as the only light that is ] from the lunar surface is what has been ] by the ]. This light appears reddish due to the ] of blue light, the same reason sunrises and sunsets are more orange than during the day.
Unlike a ], which can only be viewed from a certain relatively small area of the world, a lunar eclipse may be viewed from anywhere on the night side of the Earth. A lunar eclipse lasts for a few hours, whereas a total solar eclipse lasts for only a few minutes at any given place, due to the smaller size of the moon's shadow. Also unlike solar eclipses, lunar eclipses are safe to view without any eye protection or special precautions, as they are dimmer than the full moon.


Unlike a ], which can only be viewed from a relatively small area of the world, a lunar eclipse may be viewed from anywhere on the ] side of Earth. A total lunar eclipse can last up to nearly two hours (while a total solar eclipse lasts only a few minutes at any given place) because the Moon's ] is smaller. Also unlike solar eclipses, lunar eclipses are safe to view without any ] or special precautions.
For the date of the next eclipse see the section '']''.


==Types of lunar eclipse {{anchor|penumbral eclipse|penumbral lunar eclipse}}== <!-- redirects from ] --> The symbol for a lunar eclipse (or any body in the shadow of another) is ] (U+1F776 🝶).
] shadow, the Moon is totally shielded from direct illumination by the Sun. In contrast, within the ] shadow, only a portion of sunlight is blocked.]]
], the Moon crosses the ecliptic every orbit at positions called nodes twice every month. When the full moon occurs in the same position at the node, a lunar eclipse can occur. These two nodes allow two to five eclipses per year, parted by approximately six months. (Note: Not drawn to scale. The Sun is much larger and farther away than the Moon.)]]
] dims the moon in direct proportion to the area of the sun's disk blocked by the earth. This comparison shows the southern shadow penumbral lunar eclipse of ] (left) to the same moon outside of the shadow (right) demonstrates this subtle dimming.]]


== {{anchor|Penumbral eclipse|penumbral lunar eclipse}}<!-- ] redirects here -->Types of lunar eclipse ==
The shadow of the Earth can be divided into two distinctive parts: the ] and ]. Within the umbra, there is no direct solar radiation. However, as a result of the Sun's large angular size, solar illumination is only partially blocked in the outer portion of the Earth's shadow, which is given the name penumbra.
] cast by ]. Within the ], the central region, the planet totally shields direct ]. In contrast, within the ], the outer portion, the sunlight is only partially blocked. (Neither the ], ], and Earth sizes nor the distances between the bodies are to scale.)]] ] can be divided into two distinctive parts: the ] and ].{{Sfn|Link|1969|p=1}} Earth totally occludes direct ] within the umbra, the central region of the shadow. However, since the Sun's ] to be about one-quarter of Earth's in the ], the planet only partially blocks direct ] within the penumbra, the outer portion of the shadow.


=== Penumbral lunar eclipse ===
A '''penumbral eclipse''' occurs when the Moon passes through the Earth's penumbra. The penumbra causes a subtle darkening of the Moon's surface. A special type of penumbral eclipse is a ''']''', during which the Moon lies exclusively within the Earth's penumbra. Total penumbral eclipses are rare, and when these occur, that portion of the Moon which is closest to the umbra can appear somewhat darker than the rest of the Moon.
A penumbral lunar eclipse occurs when part or all of the Moon's near side passes into the Earth's penumbra.{{Sfn|Link|1969|p=2}} No part of the moon is in the Earth's umbra during this event, meaning that on all or a part of the Moon's surface facing Earth, the sun is partially blocked. The penumbra causes a subtle dimming of the lunar surface, which is only visible to the naked eye when the majority of the Moon's diameter has immersed into Earth's penumbra.<ref>{{Cite book |last=H. Mucke |first=J. Meeus |title=Canon of Lunar Eclipses -2002 to +2526 |date=1992 |publisher=Astronomisches Büro Wien |edition=3rd |page=V}}</ref> A special type of penumbral eclipse is a '']'', during which the entire Moon lies exclusively within Earth's penumbra. Total penumbral eclipses are rare, and when these occur, the portion of the Moon closest to the umbra may appear slightly darker than the rest of the lunar disk.


=== Partial lunar eclipse ===
A '''partial lunar eclipse''' occurs when only a portion of the Moon enters the umbra. When the Moon travels completely into the Earth's umbra, one observes a '''total lunar eclipse'''. The Moon's speed through the shadow is about one kilometer per second (2,300&nbsp;mph), and totality may last up to nearly 107 minutes. Nevertheless, the total time between the Moon's first and last contact with the shadow is much longer, and could last up to 4 hours.<ref>{{cite book | title=Fundamental Astronomy | url=http://books.google.com/books?id=DjeVdb0sLEAC&pg=PA139&lpg=PA139&dq=lunar+eclipse+%22maximum+duration%22| last = Hannu Karttunen | publisher = Springer}}</ref> The relative distance of the Moon from the Earth at the time of an eclipse can affect the eclipse's duration. In particular, when the Moon is near its ], the farthest point from the Earth in its orbit, its orbital speed is the slowest. The diameter of the umbra does not decrease appreciably within the changes in the orbital distance of the moon. Thus, a totally eclipsed Moon occurring near apogee will lengthen the duration of totality.
] taken from ], ]]]
When the Moon's near side penetrates partially into the Earth's umbra, it is known as a partial lunar eclipse,{{Sfn|Link|1969|p=2}} while a ''total lunar eclipse'' occurs when the entire Moon enters the Earth's umbra. During this event, one part of the Moon is in the Earth's umbra, while the other part is in the Earth's penumbra. The Moon's average ] is about {{convert|2300|mph|km/s|abbr=on|sigfig=3|order=flip}}, or a little more than its diameter per hour, so totality may last up to nearly 107 minutes. Nevertheless, the total time between the first and last contacts of the Moon's limb with Earth's shadow is much longer and could last up to 236 minutes.<ref>{{Cite book |last=Karttunen |first=Hannu |url=https://books.google.com/books?id=DjeVdb0sLEAC&pg=PA139 |title=Fundamental Astronomy |date=2007 |publisher=Springer |isbn=9783540341444 |page=139}}</ref>


=== Total lunar eclipse ===
The timing of total lunar eclipses are determined by its contacts:<ref>{{cite web|last=Clarke|first=Kevin|title=On the nature of eclipses|url=http://www.inconstantmoon.com/cyc_ecl1.htm|work=Inconstant Moon|publisher=Cyclopedia Selenica|accessdate=19 December 2010}}</ref>
]
:'''P1''' (First contact): Beginning of the penumbral eclipse. The Earth's penumbra touches the Moon's outer limb.
When the Moon's near side entirely passes into the Earth's umbral shadow, a total lunar eclipse occurs.{{Sfn|Link|1969|p=2}} Just prior to complete entry, the brightness of the lunar limb—the curved edge of the Moon still being hit by direct sunlight—will cause the rest of the Moon to appear comparatively dim. The moment the Moon enters a complete eclipse, the entire surface will become more or less uniformly bright, being able to reveal stars surrounding it. Later, as the Moon's opposite limb is struck by sunlight, the overall disk will again become obscured. This is because, as viewed from the Earth, the brightness of a lunar limb is generally greater than that of the rest of the surface due to reflections from the many surface irregularities within the limb: sunlight striking these irregularities is always reflected back in greater quantities than that striking more central parts, which is why the edges of full moons generally appear brighter than the rest of the lunar surface. This is similar to the effect of ] fabric over a convex curved surface, which, to an observer, will appear darkest at the center of the curve. It will be true of any planetary body with little or no atmosphere and an irregular cratered surface (e.g., Mercury) when viewed opposite the Sun.<ref>{{cite web|url=https://astronomy.com/magazine/stephen-omeara/2018/11/copy-of-lunar-limb-magic|title=Lunar Limb Magic|work=Astronomy.com|date=27 November 2018}}</ref>
:'''U1''' (Second contact): Beginning of the partial eclipse. The Earth's umbra touches the Moon's outer limb.
:'''U2''' (Third contact): Beginning of the total eclipse. The Moon's surface is entirely within the Earth's umbra.
:'''Greatest eclipse''': The peak stage of the total eclipse. The Moon is at its closest to the center of the Earth's umbra.
:'''U3''' (Fourth contact): End of the total eclipse. The Moon's outer limb exits the Earth's umbra.
:'''U4''' (Fifth contact): End of the partial eclipse. The Earth's umbra leaves the Moon's surface.
:'''P2''' (Sixth contact): End of the penumbral eclipse. The Earth's penumbra no longer makes contact with the Moon.


=== Central lunar eclipse ===
==Appearance==
Central lunar eclipse is a total lunar eclipse during which the Moon passes near and through the centre of Earth's shadow, contacting the ].<ref>{{Cite book |last1=Westfall |first1=John |title=Celestial Shadows: Eclipses, Transits, and Occultations |last2=Sheehan |first2=William |publisher=Springer |year=2014 |isbn=978-1493915354 |pages=50}}</ref> This type of lunar eclipse is ].


The ] of the Moon from Earth at the time of an eclipse can affect the eclipse's duration. In particular, when the Moon is near ], the farthest point from Earth in ], its ] is the slowest. The diameter of Earth's umbra does not decrease appreciably within the changes in the Moon's orbital distance. Thus, the concurrence of a totally eclipsed Moon near apogee will lengthen the duration of totality.
The Moon does not completely disappear as it passes through the umbra because of the ] of ] by the Earth’s atmosphere into the shadow cone; if the Earth had no atmosphere, the Moon would be completely dark during an eclipse.<ref>{{cite web|title=Visual Appearance of Lunar Eclipses||work=NASA|author=Fred Espenak and Jean Meeus|quote=The troposphere and stratosphere act together as a ring-shaped lens that refracts heavily reddened sunlight into Earth's umbral shadow|url=http://eclipse.gsfc.nasa.gov/LEcat5/appearance.html}}</ref> The red coloring arises because sunlight reaching the Moon must pass through a long and dense layer of the Earth’s atmosphere, where it is ]. Shorter ]s are more likely to be scattered by the air molecules and the small particles, and so by the time the light has passed through the atmosphere, the longer wavelengths dominate. This resulting light we perceive as ]. This is the same effect that causes ]s and ]s to turn the sky a reddish color; an alternative way of considering the problem is to realize that, as viewed from the Moon, the Sun would appear to be setting (or rising) behind the Earth.


=== Selenelion ===
The amount of refracted light depends on the amount of dust or clouds in the atmosphere; this also controls how much light is scattered. In general, the dustier the atmosphere, the more that other wavelengths of light will be removed (compared to red light), leaving the resulting light a deeper red color. This causes the resulting coppery-red hue of the Moon to vary from one eclipse to the next. Volcanoes are notable for expelling large quantities of dust into the atmosphere, and a large eruption shortly before an eclipse can have a large effect on the resulting color.
] viewed from ] during ] on 8 October 2014. Both the Moon and Sun were visible at that time.<ref>{{Cite web |title=Day and Night World Map |url=https://www.timeanddate.com/worldclock/sunearth.html?day=8&month=10&year=2014&hour=7&min=25&sec=0&n=159&ntxt=Minneapolis&earth=0 |access-date=1 November 2023 |website=www.timeanddate.com |language=en}}</ref>]]
A ''selenelion'' or ''selenehelion'', also called a ''horizontal eclipse'', occurs where and when both the Sun and an eclipsed Moon can be observed at the same time. The event can only be observed just before ] or just after ], when both bodies will appear just above opposite ]s at nearly ] in the sky. A selenelion occurs during every total lunar eclipse—it is an experience of the ''observer'', not a planetary ''event'' separate from the lunar eclipse itself. Typically, observers on Earth located on high mountain ridges undergoing ] or ] ''at the same moment of a total lunar eclipse'' will be able to experience it. Although during selenelion the Moon is completely within the Earth's umbra, both it and the Sun can be observed in the sky because ] causes each body to ] (i.e., more central) in the sky than its true geometric planetary position.<ref>{{Cite web |author=Kelly Beatty |title=In Search of Selenelion |date=26 June 2010 |url=http://www.skyandtelescope.com/community/skyblog/observingblog/97224024.html |website=] |url-status=dead |archive-url=https://web.archive.org/web/20111220123836/http://www.skyandtelescope.com/community/skyblog/observingblog/97224024.html |archive-date=20 December 2011 |access-date=8 December 2011}}</ref>


===Selenelion=== == Timing ==
]
A '''selenelion''' or '''selenehelion''' occurs when both the Sun and the eclipsed Moon can be observed at the same time. This can only happen just before sunset or just after sunrise, and both bodies will appear just above the horizon at nearly opposite points in the sky. This arrangement has led to the phenomenon being referred to as a '''horizontal eclipse'''. There are typically a number of high ridges undergoing sunrise or sunset that can see it. Indeed, the reddened light that reaches the Moon comes from all the simultaneous sunrises and sunsets on the Earth. Although the Moon is in the Earth’s umbra, the Sun and the eclipsed Moon can both be seen at the same time because the ] of light through the ] causes each of them to appear higher in the sky than their true geometric position.<ref>{{cite news
The timing of total lunar eclipses is determined by what are known as its "contacts" (moments of contact with Earth's shadow):<ref>{{cite web|last=Clarke|first=Kevin|title=On the nature of eclipses|url=http://www.inconstantmoon.com/cyc_ecl1.htm|work=Inconstant Moon|publisher=Cyclopedia Selenica|access-date=19 December 2010}}</ref>
| url=http://www.skyandtelescope.com/community/skyblog/observingblog/97224024.html
| title=In Search of Selenelion
| work=Observing Blog - SkyandTelescope.com
| author=
| date=2010-06-26
| accessdate=2011-12-08 }}
</ref>


* ''P1'' (''First contact''): Beginning of the penumbral eclipse. Earth's penumbra touches the Moon's outer limb.
===Danjon scale===
* ''U1'' (''Second contact''): Beginning of the partial eclipse. Earth's umbra touches the Moon's outer limb.
The following scale (the ]) was devised by ] for rating the overall darkness of lunar eclipses:<ref>{{cite web | title = Observing and Photographing Lunar Eclipses | url = http://skytonight.com/observing/objects/eclipses/3304036.html | last = Paul Deans and Alan M. MacRobert | publisher = Sky and Telescope}}</ref>
:'''L=0''': Very dark eclipse. Moon almost invisible, especially at mid-totality. * ''U2'' (''Third contact''): Beginning of the total eclipse. The Moon's surface is entirely within Earth's umbra.
* ''Greatest eclipse'': The peak stage of the total eclipse. The Moon is at its closest to the center of Earth's umbra.
:'''L=1''': Dark eclipse, gray or brownish in coloration. Details distinguishable only with difficulty.
:'''L=2''': Deep red or rust-colored eclipse. Very dark central shadow, while outer edge of umbra is relatively bright. * U3 (''Fourth contact''): End of the total eclipse. The Moon's outer limb exits Earth's umbra.
* ''U4'' (''Fifth contact''): End of the partial eclipse. Earth's umbra leaves the Moon's surface.
:'''L=3''': Brick-red eclipse. Umbral shadow usually has a bright or yellow rim.
:'''L=4''': Very bright copper-red or orange eclipse. Umbral shadow is bluish and has a very bright rim. * ''P4'' (''Sixth contact''): End of the penumbral eclipse. Earth's penumbra no longer makes contact with the Moon.


==Lunar eclipse in mythology== == Danjon scale ==
] ] ] into the shadow cone.]]The following scale (the ]) was devised by ] for rating the overall darkness of lunar eclipses:<ref>{{Cite web |url=http://skytonight.com/observing/objects/eclipses/3304036.html |title=Observing and Photographing Lunar Eclipses |last1=Deans |first1=Paul |last2=MacRobert |first2=Alan M. |date=16 July 2006 |website=] |publisher=] |access-date=7 January 2007 |archive-date=20 May 2007 |archive-url=https://web.archive.org/web/20070520233320/http://skytonight.com/observing/objects/eclipses/3304036.html |url-status=dead }}</ref>
Several cultures have ]s related to lunar eclipses. The ] saw the eclipse as a sow swallowing the moon for a short time; other cultures view the eclipse as the moon being swallowed by other animals, such as a ] in ] tradition, or a ] in ]. Some societies thought it was a demon swallowing the moon, and that they could chase it away by throwing stones and curses at it.<ref>{{cite web|url=http://voices.yahoo.com/the-lunar-eclipse-tidbits-behind-phenomenon-216306.html?cat=10 |title=The Lunar Eclipse: Tidbits Behind the Phenomenon?|accessdate=2011-12-02 |date=2007-28-15}}</ref>


* ''L'' = 0: Very dark eclipse. Moon almost invisible, especially at mid-totality.
==Blood moon==
* ''L'' = 1: Dark eclipse, gray or brownish in coloration. Details distinguishable only with difficulty.
Due to its reddish color, a total eclipse of the moon is sometimes referred to as a '''blood moon'''.<ref name="Nigro">{{cite book|last=Nigro|first=Nicholas |title=Knack Night Sky: Decoding the Solar System, from Constellations to Black Holes|url=http://books.google.com/books?id=iwim2lHciHAC&pg=PA214|year=2010|publisher=Globe Pequot|isbn=978-0-7627-6604-8|pages=214–5}}</ref> In addition, in the 2010s the media started to associate the term "blood moon" with the four full moons of a lunar tetrad, especially the 2014-2015 tetrad coinciding with the feasts of Passover and Tabernacles. A lunar tetrad is a consecutive sequence of four lunar eclipses, spaced six months apart.<ref>{{cite news|last=Sappenfield|first=Mark|title=Blood Moon to arrive Monday night. What is a Blood Moon?|url=http://www.csmonitor.com/Science/2014/0413/Blood-Moon-to-arrive-Monday-night.-What-is-a-Blood-Moon|accessdate=30 May 2014|newspaper=]|date=13 April 2014}}</ref><ref>{{cite news|title=What is a Blood Moon?|url=http://earthsky.org/space/what-is-a-blood-moon-lunar-eclipses-2014-2015|accessdate=30 May 2014|newspaper=]|date=24 April 2014}}</ref>
* ''L'' = 2: Deep red or rust-colored eclipse. Very dark central shadow, while outer edge of umbra is relatively bright.
* ''L'' = 3: Brick-red eclipse. Umbral shadow usually has a bright or yellow rim.
* ''L'' = 4: Very bright copper-red or orange eclipse. Umbral shadow is bluish and has a very bright rim.


== Lunar versus solar eclipse ==
==Occurrence==
]: an outer penumbra, where direct sunlight is dimmed, and an inner umbra, where indirect and much dimmer sunlight ] by Earth's atmosphere shines on the Moon, leaving a reddish color. This can be seen in different exposures of a partial lunar eclipse, for example here with exposures of 1/80, 2/5, and 2 seconds.]]

There is often confusion between a solar eclipse and a lunar eclipse. While both involve interactions between the Sun, Earth, and the Moon, they are very different in their interactions.

The Moon does not completely darken as it passes through the umbra because of the ] of ] by ] into the shadow cone; if Earth had no atmosphere, the Moon would be completely dark during the eclipse.<ref>{{Cite web |url=http://eclipse.gsfc.nasa.gov/LEcat5/appearance.html |title=Visual Appearance of Lunar Eclipses |last1=Espenak |first1=Fred |last2=Meeus |first2=Jean |publisher=NASA |quote=The troposphere and stratosphere act together as a ring-shaped lens that refracts heavily reddened sunlight into Earth's umbral shadow.}}</ref> The reddish coloration arises because sunlight reaching the Moon must pass through a long and dense layer of Earth's atmosphere, where it is ]. Shorter ]s are more likely to be scattered by the air molecules and ]; thus, the longer wavelengths predominate by the time the light rays have penetrated the atmosphere. Human vision perceives this resulting light as ]. This is the same effect that causes ]s and ]s to turn the sky a reddish color. An alternative way of conceiving this scenario is to realize that, as viewed from the Moon, the Sun would appear to be setting (or rising) behind Earth.

The amount of refracted light depends on the amount of ] or ]s in the atmosphere; this also controls how much light is scattered. In general, the dustier the atmosphere, the more that other wavelengths of light will be removed (compared to red light), leaving the resulting light a deeper red color. This causes the resulting coppery-red hue of the Moon to vary from one eclipse to the next. Volcanoes are notable for expelling large quantities of dust into the atmosphere, and a large eruption shortly before an eclipse can have a large effect on the resulting color.

] predicting ]]]

== In culture ==
{{main article|Eclipses in mythology and culture}}

Several cultures have ]s related to lunar eclipses or allude to the lunar eclipse as being a good or bad ]. The ] saw the eclipse as a sow swallowing the Moon for a short time; other cultures view the eclipse as the Moon being swallowed by other animals, such as a ] in ] tradition, or a mythical three-legged toad known as ] in ].{{citation needed|date=December 2022}} Some societies thought it was a demon swallowing the Moon, and that they could chase it away by throwing stones and curses at it.<ref>{{Cite book |last1=Littmann |first1=Mark |url=https://books.google.com/books?id=UOnH01tv078C |title=Totality Eclipses of the Sun |last2=Espenak |first2=Fred |last3=Willcox |first3=Ken |date=2008 |publisher=] |isbn=978-0-19-953209-4 |edition=3rd |location=New York |chapter=Chapter 4: Eclipses in Mythology}}</ref> The ] correctly believed the Earth was round and used the shadow from the lunar eclipse as evidence.<ref>{{Cite web |url=https://www.astro.umd.edu/openhouse/3about-the-obs/news/2003-11-10.html |title=Ancient Myths Revised with Lunar Eclipse |last=Pollack |first=Rebecca |publisher=University of Maryland |access-date=2 October 2014}}</ref> Some ] believe in the importance of bathing in the ] following an eclipse because it will help to achieve ].<ref>{{Cite web |url=https://in.news.yahoo.com/hindus-dip-ganges-during-lunar-eclipse-105428179.html |title=Hindus take a dip in the Ganges during Lunar Eclipse |last=Ani |website=Yahoo News |access-date=2 October 2014}}</ref>

=== Inca ===
Similarly to the Mayans, the ] believed that lunar eclipses occurred when a jaguar ate the Moon, which is why a blood moon looks red. The Incans also believed that once the jaguar finished eating the Moon, it could come down and devour all the animals on Earth, so they would take spears and shout at the Moon to keep it away.<ref name="National Geographic">{{Cite web |url=http://news.nationalgeographic.com/news/2014/04/140413-total-lunar-eclipse-myths-space-culture-science/ |archive-url=https://web.archive.org/web/20140417133236/http://news.nationalgeographic.com/news/2014/04/140413-total-lunar-eclipse-myths-space-culture-science |url-status=dead |archive-date=17 April 2014 |title=Lunar Eclipse Myths From Around the World |last=Lee |first=Jane |date=14 April 2014 |website=National Geographic |access-date=9 October 2014}}</ref>

=== Mesopotamians ===
The ancient ]ns believed that a lunar eclipse was when the Moon was being attacked by seven demons. This attack was more than just one on the Moon, however, for the Mesopotamians linked what happened in the sky with what happened on the land, and because the king of Mesopotamia represented the land, the seven demons were thought to be also attacking the king. In order to prevent this attack on the king, the Mesopotamians made someone pretend to be the king so they would be attacked instead of the true king. After the lunar eclipse was over, the substitute king was made to disappear (possibly by ]).<ref name="National Geographic" />

=== Chinese ===
In some Chinese cultures, people would ring bells to prevent a ] or other wild animals from biting the Moon.<ref>{{Cite news |url=http://au.ibtimes.com/articles/548133/20140415/lunar-eclipse-facts-myths-superstition-nasa.htm#.VC2MJyldXmU |title=Interesting Facts and Myths about Lunar Eclipse |last=Quilas |first=Ma Evelyn |newspaper=LA Times |access-date=2 October 2014}}</ref> In the 19th century, during a lunar eclipse, the ] fired its artillery because of this belief.<ref>{{Cite web |url=https://www.lifeasmyth.com/journal_planet_Eclipse.html |title=Mythology of the Lunar Eclipse |website=LifeAsMyth.com}}</ref> During the ] ({{Circa}} 1046–256 BC) in the ], the sight of a Red Moon engulfed in darkness was believed to foreshadow famine or disease.<ref>{{Cite web |url=http://www.dnaindia.com/india/report-what-lunar-eclipse-means-in-different-parts-of-world-1555136 |title=What Lunar Eclipse Means in Different Parts of the World |last=Kaul |first=Gayatri |date=15 June 2011 |website=India.com |access-date=6 October 2014}}</ref>

== Blood moon ==
{{see also|Blood moon prophecy}}
]. Direct sunlight is being blocked by the ], and the only light reaching it is sunlight ] by Earth's atmosphere, producing a reddish color.]]

Certain lunar eclipses have been referred to as "blood moons" in popular articles but this is not a scientifically recognized term.<ref name="Sappenfield">{{Cite news |last=Sappenfield |first=Mark |url=http://www.csmonitor.com/Science/2014/0413/Blood-Moon-to-arrive-Monday-night.-What-is-a-Blood-Moon |title=Blood Moon to arrive Monday night. What is a Blood Moon? |date=13 April 2014 |work=] |access-date=8 February 2018}}</ref> This term has been given two separate, but overlapping, meanings.

The meaning usually relates to the reddish color a totally eclipsed Moon takes on to observers on Earth.<ref name="Nigro">{{Cite book |last=Nigro |first=Nicholas |url=https://books.google.com/books?id=iwim2lHciHAC&pg=PA214 |title=Knack Night Sky: Decoding the Solar System, from Constellations to Black Holes |date=2010 |publisher=] |isbn=978-0-7627-6604-8 |pages=214–5}}</ref> As ] penetrates the ], the gaseous layer ] and ] the rays in such a way that the green to violet wavelengths on the ] ] more strongly than the red, thus giving the Moon a reddish cast.<ref>{{Cite news |url=https://www.theguardian.com/science/2015/sep/28/all-you-need-to-know-about-the-blood-moon |title=All you need to know about the 'blood moon' |date=28 September 2015 <!-- 09.07 BST --> |work=theguardian}}</ref> This is possible because the rays from the Sun are able to wrap around the Earth and reflect off the Moon.<ref>{{Cite web |last=Jeanna |first=Bryner |date=13 May 2022 |title=Why does the moon turn red during a total lunar eclipse? |url=https://www.space.com/why-moon-turns-red-total-lunar-eclipse |access-date=5 January 2023 |website=Space.com |language=en}}</ref>

== Occurrence ==
{{see also|Saros (astronomy)|Eclipse cycle}} {{see also|Saros (astronomy)|Eclipse cycle}}
] of the Moon's orbital plane (] five degrees to the ]) results in the revolution of the ] relative to the Earth. This causes an ] approximately every six months, in which a ] can occur at the ] phase and a lunar eclipse can occur at the ] phase.]]
Every year there are at least two lunar eclipses and as many as five, although total lunar eclipses are significantly less common. If one knows the date and time of an eclipse, it is possible to predict the occurrence of other eclipses using an ] like the ].
At least two lunar eclipses and as many as five occur every year, although total lunar eclipses are significantly less common than partial lunar eclipses. If the date and time of an eclipse is known, the occurrences of upcoming eclipses are predictable using an ], like the ]. Eclipses occur only during an ], when the Sun appears to pass near either ] of the ].


== View from the Moon ==
===Recent and forthcoming lunar eclipses===
{{Main|List of 21st-century lunar eclipses}} {{Main|Solar eclipses on the Moon}}
{{Further|Lists of lunar eclipses}}
Eclipses only occur during an ], when the Sun is close to either the ascending or descending ].


] showing how a solar eclipse might appear when viewed from the lunar surface. The Moon's surface appears red because the only sunlight available is refracted through Earth's atmosphere on the edges of Earth, as shown in the sky in this painting.]]
{| border="0" cellpadding="7" cellspacing="0" align="center"
|-
| colspan=8 align="center" | '''Lunar eclipses'''
|-
| ''']''' || ''']''' || ''']''' || ''']''' || ''']''' || ''']''' || ''']''' || ''']'''
|}
<br clear="all" />


A lunar eclipse is on the Moon a ]. The occurrence makes Earth's atmosphere appear as a red ring around the dark Earth. During full moon, the phase when lunar eclipses take place, the dark side of the Earth is illuminated by the Moon and its ].
==Gallery==
<gallery widths="200px" heights="110px">
File:Lunar-eclipse-09-11-2003-cropped.jpeg|The beginning of the ]
File:Moon Eclipse cropped From Miami 2010.jpg|]
File:Eclipse from moon.jpg|Painting by ], showing what a lunar eclipse might look like when viewed from the surface of the moon. The moon's surface appears red because the only sunlight available is refracted through the Earth's atmosphere on the edges of the earth, as shown in the sky in this painting.
File:Lunar eclipse April 15 2014 California Alfredo Garcia Jr1.jpg|], taken from Alfredo Garcia, ].
</gallery>
<!-- astronomical event long date format is year month day -->
<!-- please note that dates/times are based on universal time, UTC, not specific times for a given area -->
{{wide image|Animation april 15 2014 lunar eclipse appearance.gif|480px <!-- must correspond to original width as scaled thumbnail loses animation -->|Simulation of the appearance of the moon just before, during and just after a total lunar eclipse (the April 15, 2014 one in this example)}}


==See also== == See also ==
* ] and ]
{{portal|Moon}}
*]
{{Misplaced Pages books|Lunar Eclipses}}
* ] and ]
**] - ]
**] - ]
**] - ]
*] *]
*] *]
*]
*]

== References ==
{{Reflist}}


==References== === Works cited ===
{{reflist}} {{Refbegin}}
* {{Cite book |last=Link |first=F. |url=https://link.springer.com/book/10.1007/978-3-642-86475-9 |title=Eclipse Phenomena in Astronomy |publisher=] |year=1969 |isbn=978-3-642-86475-9 |pages=1–121 |chapter=Lunar Eclipses |doi=10.1007/978-3-642-86475-9 |chapter-url=https://link.springer.com/chapter/10.1007/978-3-642-86475-9_1 |access-date=3 January 2023 |lccn=68-56208}}
{{Refend}}


==Further reading== == Further reading ==
*Bao-Lin Liu, ''Canon of Lunar Eclipses 1500 B.C.-A.D. 3000'', 1992 *Bao-Lin Liu, ''Canon of Lunar Eclipses 1500 B.C.-A.D. 3000.'' Willmann-Bell, Richmond VA, 1992
*] and ] ''Canon of Lunar Eclipses''. Astronomisches Büro, Vienna, 1983 *] and ] ''Canon of Lunar Eclipses -2002 to +2526'' (3rd edition). Astronomisches Büro, Vienna, 1992
*Espenak, F., ''Fifty Year Canon of Lunar Eclipses: 1986-2035.'' NASA Reference Publication 1216, 1989 *Espenak, F., ''Fifty Year Canon of Lunar Eclipses: 1986–2035.'' NASA Reference Publication 1216, 1989
*Espenak, F. ''Thousand Year Canon of Lunar Eclipses 1501 to 2500'', Astropixels Publishing, Portal AZ, 2014


==External links== == External links ==
{{Sister project links|wikt=lunar eclipse|commons=Category:Lunar eclipse|v=no|q=no|s=The New Student's Reference Work/Eclipse|b=High School Earth Science/The Sun and the Earth-Moon System}} {{Sister project links|wikt=lunar eclipse|commons=Category:Lunar eclipse|v=no|q=no|s=The New Student's Reference Work/Eclipse|b=High School Earth Science/The Sun and the Earth-Moon System}}
* *
*, University of South Wales * {{Webarchive|url=https://web.archive.org/web/20130603050300/http://alienworlds.southwales.ac.uk/lunarEclipse.html |date=3 June 2013 }}, University of South Wales
* * {{Webarchive|url=https://web.archive.org/web/20110813225301/http://aa.usno.navy.mil/data/docs/LunarEclipse.php |date=13 August 2011 }}
* *
* *
* *
* * {{Webarchive|url=https://web.archive.org/web/20110714220146/http://www.nyip.com/ezine/outdoors/eclipse.html |date=14 July 2011 }}
*{{YouTube|wAn6NrxUt7g|Lunar Eclipse 8 October 2014 - NASA FULL VERSION}}


{{The Moon}} {{The Moon}}
{{Lunar eclipses}} {{Lunar eclipses}}
{{Portal bar|Astronomy|Stars|Spaceflight|Outer space|Solar System}}
{{Authority control}}


{{DEFAULTSORT:Lunar Eclipse}} {{DEFAULTSORT:Lunar Eclipse}}
Line 123: Line 145:
] ]
] ]
] ]

Latest revision as of 21:43, 26 November 2024

Natural phenomenon wherein the Earth casts a shadow on the Moon For other uses, see Lunar eclipse (disambiguation).

This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.
Find sources: "Lunar eclipse" – news · newspapers · books · scholar · JSTOR (January 2023) (Learn how and when to remove this message)
A total lunar eclipse
Composite image of the April 2014 total lunar eclipse from Charleston, West Virginia, United States

A lunar eclipse is an astronomical event that occurs when the Moon moves into the Earth's shadow, causing the Moon to be darkened. Such an alignment occurs during an eclipse season, approximately every six months, during the full moon phase, when the Moon's orbital plane is closest to the plane of the Earth's orbit.

This can occur only when the Sun, Earth, and Moon are exactly or very closely aligned (in syzygy) with Earth between the other two, which can happen only on the night of a full moon when the Moon is near either lunar node. The type and length of a lunar eclipse depend on the Moon's proximity to the lunar node.

When the Moon is totally eclipsed by the Earth (a "deep eclipse"), it takes on a reddish color that is caused by the planet when it completely blocks direct sunlight from reaching the Moon's surface, as the only light that is reflected from the lunar surface is what has been refracted by the Earth's atmosphere. This light appears reddish due to the Rayleigh scattering of blue light, the same reason sunrises and sunsets are more orange than during the day.

Unlike a solar eclipse, which can only be viewed from a relatively small area of the world, a lunar eclipse may be viewed from anywhere on the night side of Earth. A total lunar eclipse can last up to nearly two hours (while a total solar eclipse lasts only a few minutes at any given place) because the Moon's shadow is smaller. Also unlike solar eclipses, lunar eclipses are safe to view without any eye protection or special precautions.

The symbol for a lunar eclipse (or any body in the shadow of another) is 🝶 (U+1F776 🝶).

Types of lunar eclipse

A schematic diagram of the shadow cast by Earth. Within the umbra, the central region, the planet totally shields direct sunlight. In contrast, within the penumbra, the outer portion, the sunlight is only partially blocked. (Neither the Sun, Moon, and Earth sizes nor the distances between the bodies are to scale.)

Earth's shadow can be divided into two distinctive parts: the umbra and penumbra. Earth totally occludes direct solar radiation within the umbra, the central region of the shadow. However, since the Sun's diameter appears to be about one-quarter of Earth's in the lunar sky, the planet only partially blocks direct sunlight within the penumbra, the outer portion of the shadow.

Penumbral lunar eclipse

A penumbral lunar eclipse occurs when part or all of the Moon's near side passes into the Earth's penumbra. No part of the moon is in the Earth's umbra during this event, meaning that on all or a part of the Moon's surface facing Earth, the sun is partially blocked. The penumbra causes a subtle dimming of the lunar surface, which is only visible to the naked eye when the majority of the Moon's diameter has immersed into Earth's penumbra. A special type of penumbral eclipse is a total penumbral lunar eclipse, during which the entire Moon lies exclusively within Earth's penumbra. Total penumbral eclipses are rare, and when these occur, the portion of the Moon closest to the umbra may appear slightly darker than the rest of the lunar disk.

Partial lunar eclipse

Latter phases of the partial lunar eclipse on 17 July 2019 taken from Gloucestershire, United Kingdom

When the Moon's near side penetrates partially into the Earth's umbra, it is known as a partial lunar eclipse, while a total lunar eclipse occurs when the entire Moon enters the Earth's umbra. During this event, one part of the Moon is in the Earth's umbra, while the other part is in the Earth's penumbra. The Moon's average orbital speed is about 1.03 km/s (2,300 mph), or a little more than its diameter per hour, so totality may last up to nearly 107 minutes. Nevertheless, the total time between the first and last contacts of the Moon's limb with Earth's shadow is much longer and could last up to 236 minutes.

Total lunar eclipse

Timelapse of the total lunar eclipse on 4 March 2007.

When the Moon's near side entirely passes into the Earth's umbral shadow, a total lunar eclipse occurs. Just prior to complete entry, the brightness of the lunar limb—the curved edge of the Moon still being hit by direct sunlight—will cause the rest of the Moon to appear comparatively dim. The moment the Moon enters a complete eclipse, the entire surface will become more or less uniformly bright, being able to reveal stars surrounding it. Later, as the Moon's opposite limb is struck by sunlight, the overall disk will again become obscured. This is because, as viewed from the Earth, the brightness of a lunar limb is generally greater than that of the rest of the surface due to reflections from the many surface irregularities within the limb: sunlight striking these irregularities is always reflected back in greater quantities than that striking more central parts, which is why the edges of full moons generally appear brighter than the rest of the lunar surface. This is similar to the effect of velvet fabric over a convex curved surface, which, to an observer, will appear darkest at the center of the curve. It will be true of any planetary body with little or no atmosphere and an irregular cratered surface (e.g., Mercury) when viewed opposite the Sun.

Central lunar eclipse

Central lunar eclipse is a total lunar eclipse during which the Moon passes near and through the centre of Earth's shadow, contacting the antisolar point. This type of lunar eclipse is relatively rare.

The relative distance of the Moon from Earth at the time of an eclipse can affect the eclipse's duration. In particular, when the Moon is near apogee, the farthest point from Earth in its orbit, its orbital speed is the slowest. The diameter of Earth's umbra does not decrease appreciably within the changes in the Moon's orbital distance. Thus, the concurrence of a totally eclipsed Moon near apogee will lengthen the duration of totality.

Selenelion

October 2014 lunar eclipse viewed from Minneapolis during sunrise on 8 October 2014. Both the Moon and Sun were visible at that time.

A selenelion or selenehelion, also called a horizontal eclipse, occurs where and when both the Sun and an eclipsed Moon can be observed at the same time. The event can only be observed just before sunset or just after sunrise, when both bodies will appear just above opposite horizons at nearly opposite points in the sky. A selenelion occurs during every total lunar eclipse—it is an experience of the observer, not a planetary event separate from the lunar eclipse itself. Typically, observers on Earth located on high mountain ridges undergoing false sunrise or false sunset at the same moment of a total lunar eclipse will be able to experience it. Although during selenelion the Moon is completely within the Earth's umbra, both it and the Sun can be observed in the sky because atmospheric refraction causes each body to appear higher (i.e., more central) in the sky than its true geometric planetary position.

Timing

Contact points relative to the Earth's umbral and penumbral shadows, here with the Moon near is descending node

The timing of total lunar eclipses is determined by what are known as its "contacts" (moments of contact with Earth's shadow):

  • P1 (First contact): Beginning of the penumbral eclipse. Earth's penumbra touches the Moon's outer limb.
  • U1 (Second contact): Beginning of the partial eclipse. Earth's umbra touches the Moon's outer limb.
  • U2 (Third contact): Beginning of the total eclipse. The Moon's surface is entirely within Earth's umbra.
  • Greatest eclipse: The peak stage of the total eclipse. The Moon is at its closest to the center of Earth's umbra.
  • U3 (Fourth contact): End of the total eclipse. The Moon's outer limb exits Earth's umbra.
  • U4 (Fifth contact): End of the partial eclipse. Earth's umbra leaves the Moon's surface.
  • P4 (Sixth contact): End of the penumbral eclipse. Earth's penumbra no longer makes contact with the Moon.

Danjon scale

The Moon does not completely darken as it passes through the umbra because Earth's atmosphere refracts sunlight into the shadow cone.

The following scale (the Danjon scale) was devised by André Danjon for rating the overall darkness of lunar eclipses:

  • L = 0: Very dark eclipse. Moon almost invisible, especially at mid-totality.
  • L = 1: Dark eclipse, gray or brownish in coloration. Details distinguishable only with difficulty.
  • L = 2: Deep red or rust-colored eclipse. Very dark central shadow, while outer edge of umbra is relatively bright.
  • L = 3: Brick-red eclipse. Umbral shadow usually has a bright or yellow rim.
  • L = 4: Very bright copper-red or orange eclipse. Umbral shadow is bluish and has a very bright rim.

Lunar versus solar eclipse

In a lunar eclipse, the Moon often passes through two regions of Earth's shadow: an outer penumbra, where direct sunlight is dimmed, and an inner umbra, where indirect and much dimmer sunlight refracted by Earth's atmosphere shines on the Moon, leaving a reddish color. This can be seen in different exposures of a partial lunar eclipse, for example here with exposures of 1/80, 2/5, and 2 seconds.

There is often confusion between a solar eclipse and a lunar eclipse. While both involve interactions between the Sun, Earth, and the Moon, they are very different in their interactions.

The Moon does not completely darken as it passes through the umbra because of the refraction of sunlight by Earth's atmosphere into the shadow cone; if Earth had no atmosphere, the Moon would be completely dark during the eclipse. The reddish coloration arises because sunlight reaching the Moon must pass through a long and dense layer of Earth's atmosphere, where it is scattered. Shorter wavelengths are more likely to be scattered by the air molecules and small particles; thus, the longer wavelengths predominate by the time the light rays have penetrated the atmosphere. Human vision perceives this resulting light as red. This is the same effect that causes sunsets and sunrises to turn the sky a reddish color. An alternative way of conceiving this scenario is to realize that, as viewed from the Moon, the Sun would appear to be setting (or rising) behind Earth.

The amount of refracted light depends on the amount of dust or clouds in the atmosphere; this also controls how much light is scattered. In general, the dustier the atmosphere, the more that other wavelengths of light will be removed (compared to red light), leaving the resulting light a deeper red color. This causes the resulting coppery-red hue of the Moon to vary from one eclipse to the next. Volcanoes are notable for expelling large quantities of dust into the atmosphere, and a large eruption shortly before an eclipse can have a large effect on the resulting color.

Christopher Columbus predicting a lunar eclipse

In culture

Main article: Eclipses in mythology and culture

Several cultures have myths related to lunar eclipses or allude to the lunar eclipse as being a good or bad omen. The Egyptians saw the eclipse as a sow swallowing the Moon for a short time; other cultures view the eclipse as the Moon being swallowed by other animals, such as a jaguar in Mayan tradition, or a mythical three-legged toad known as Chan Chu in China. Some societies thought it was a demon swallowing the Moon, and that they could chase it away by throwing stones and curses at it. The Ancient Greeks correctly believed the Earth was round and used the shadow from the lunar eclipse as evidence. Some Hindus believe in the importance of bathing in the Ganges River following an eclipse because it will help to achieve salvation.

Inca

Similarly to the Mayans, the Incans believed that lunar eclipses occurred when a jaguar ate the Moon, which is why a blood moon looks red. The Incans also believed that once the jaguar finished eating the Moon, it could come down and devour all the animals on Earth, so they would take spears and shout at the Moon to keep it away.

Mesopotamians

The ancient Mesopotamians believed that a lunar eclipse was when the Moon was being attacked by seven demons. This attack was more than just one on the Moon, however, for the Mesopotamians linked what happened in the sky with what happened on the land, and because the king of Mesopotamia represented the land, the seven demons were thought to be also attacking the king. In order to prevent this attack on the king, the Mesopotamians made someone pretend to be the king so they would be attacked instead of the true king. After the lunar eclipse was over, the substitute king was made to disappear (possibly by poisoning).

Chinese

In some Chinese cultures, people would ring bells to prevent a dragon or other wild animals from biting the Moon. In the 19th century, during a lunar eclipse, the Chinese navy fired its artillery because of this belief. During the Zhou Dynasty (c. 1046–256 BC) in the Book of Songs, the sight of a Red Moon engulfed in darkness was believed to foreshadow famine or disease.

Blood moon

See also: Blood moon prophecy
Totality during the lunar eclipse of 15 May 2022. Direct sunlight is being blocked by the Earth, and the only light reaching it is sunlight refracted by Earth's atmosphere, producing a reddish color.

Certain lunar eclipses have been referred to as "blood moons" in popular articles but this is not a scientifically recognized term. This term has been given two separate, but overlapping, meanings.

The meaning usually relates to the reddish color a totally eclipsed Moon takes on to observers on Earth. As sunlight penetrates the atmosphere of Earth, the gaseous layer filters and refracts the rays in such a way that the green to violet wavelengths on the visible spectrum scatter more strongly than the red, thus giving the Moon a reddish cast. This is possible because the rays from the Sun are able to wrap around the Earth and reflect off the Moon.

Occurrence

See also: Saros (astronomy) and Eclipse cycle
As the Earth revolves around the Sun, approximate axial parallelism of the Moon's orbital plane (tilted five degrees to the Earth's orbital plane) results in the revolution of the lunar nodes relative to the Earth. This causes an eclipse season approximately every six months, in which a solar eclipse can occur at the new moon phase and a lunar eclipse can occur at the full moon phase.

At least two lunar eclipses and as many as five occur every year, although total lunar eclipses are significantly less common than partial lunar eclipses. If the date and time of an eclipse is known, the occurrences of upcoming eclipses are predictable using an eclipse cycle, like the saros. Eclipses occur only during an eclipse season, when the Sun appears to pass near either node of the Moon's orbit.

View from the Moon

Main article: Solar eclipses on the Moon
A painting by Lucien Rudaux showing how a solar eclipse might appear when viewed from the lunar surface. The Moon's surface appears red because the only sunlight available is refracted through Earth's atmosphere on the edges of Earth, as shown in the sky in this painting.

A lunar eclipse is on the Moon a solar eclipse. The occurrence makes Earth's atmosphere appear as a red ring around the dark Earth. During full moon, the phase when lunar eclipses take place, the dark side of the Earth is illuminated by the Moon and its moon light.

See also

References

  1. McClure, Bruce (27 July 2018). "Century's Longest Lunar Eclipse July 27". EarthSky. Retrieved 1 August 2018.
  2. "Eclipses - NASA Science". science.nasa.gov. Retrieved 13 May 2024.
  3. "NASA - Periodicity of Lunar Eclipses". eclipse.gsfc.nasa.gov. Retrieved 13 May 2024.
  4. Staff (2023). "PHYS 1350 Astronomy Exam 3 (TXST-Olson)". Quizlet. Archived from the original on 9 November 2023. Retrieved 9 November 2023. "What is a deep eclipse? The smaller star is behind the bigger star"
  5. Miller, A.M.; et al. (7 November 2023). "ATel #16328 - ASASSN-23ht: A Deep Eclipse Event". The Astronomer's Telegram. Archived from the original on 9 November 2023. Retrieved 9 November 2023.
  6. Link 1969, p. 1.
  7. ^ Link 1969, p. 2.
  8. H. Mucke, J. Meeus (1992). Canon of Lunar Eclipses -2002 to +2526 (3rd ed.). Astronomisches Büro Wien. p. V.
  9. Karttunen, Hannu (2007). Fundamental Astronomy. Springer. p. 139. ISBN 9783540341444.
  10. "Lunar Limb Magic". Astronomy.com. 27 November 2018.
  11. Westfall, John; Sheehan, William (2014). Celestial Shadows: Eclipses, Transits, and Occultations. Springer. p. 50. ISBN 978-1493915354.
  12. "Day and Night World Map". www.timeanddate.com. Retrieved 1 November 2023.
  13. Kelly Beatty (26 June 2010). "In Search of Selenelion". Sky & Telescope. Archived from the original on 20 December 2011. Retrieved 8 December 2011.
  14. Clarke, Kevin. "On the nature of eclipses". Inconstant Moon. Cyclopedia Selenica. Retrieved 19 December 2010.
  15. Deans, Paul; MacRobert, Alan M. (16 July 2006). "Observing and Photographing Lunar Eclipses". Sky & Telescope. F+W. Archived from the original on 20 May 2007. Retrieved 7 January 2007.
  16. Espenak, Fred; Meeus, Jean. "Visual Appearance of Lunar Eclipses". NASA. The troposphere and stratosphere act together as a ring-shaped lens that refracts heavily reddened sunlight into Earth's umbral shadow.
  17. Littmann, Mark; Espenak, Fred; Willcox, Ken (2008). "Chapter 4: Eclipses in Mythology". Totality Eclipses of the Sun (3rd ed.). New York: Oxford University Press. ISBN 978-0-19-953209-4.
  18. Pollack, Rebecca. "Ancient Myths Revised with Lunar Eclipse". University of Maryland. Retrieved 2 October 2014.
  19. Ani. "Hindus take a dip in the Ganges during Lunar Eclipse". Yahoo News. Retrieved 2 October 2014.
  20. ^ Lee, Jane (14 April 2014). "Lunar Eclipse Myths From Around the World". National Geographic. Archived from the original on 17 April 2014. Retrieved 9 October 2014.
  21. Quilas, Ma Evelyn. "Interesting Facts and Myths about Lunar Eclipse". LA Times. Retrieved 2 October 2014.
  22. "Mythology of the Lunar Eclipse". LifeAsMyth.com.
  23. Kaul, Gayatri (15 June 2011). "What Lunar Eclipse Means in Different Parts of the World". India.com. Retrieved 6 October 2014.
  24. Sappenfield, Mark (13 April 2014). "Blood Moon to arrive Monday night. What is a Blood Moon?". The Christian Science Monitor. Retrieved 8 February 2018.
  25. Nigro, Nicholas (2010). Knack Night Sky: Decoding the Solar System, from Constellations to Black Holes. Globe Pequot. pp. 214–5. ISBN 978-0-7627-6604-8.
  26. "All you need to know about the 'blood moon'". theguardian. 28 September 2015.
  27. Jeanna, Bryner (13 May 2022). "Why does the moon turn red during a total lunar eclipse?". Space.com. Retrieved 5 January 2023.

Works cited

Further reading

  • Bao-Lin Liu, Canon of Lunar Eclipses 1500 B.C.-A.D. 3000. Willmann-Bell, Richmond VA, 1992
  • Jean Meeus and Hermann Mucke Canon of Lunar Eclipses -2002 to +2526 (3rd edition). Astronomisches Büro, Vienna, 1992
  • Espenak, F., Fifty Year Canon of Lunar Eclipses: 1986–2035. NASA Reference Publication 1216, 1989
  • Espenak, F. Thousand Year Canon of Lunar Eclipses 1501 to 2500, Astropixels Publishing, Portal AZ, 2014

External links

Moon
Outline
Physical
properties
A full moon
Orbit
Surface and
features
Science
Exploration
Time-telling
and navigation
Phases and
names
Daily phenomena
Related
Lunar eclipses
Lists of lunar eclipses
Lunar eclipses
by era
Lunar eclipses
by saros series
August 2017 lunar eclipse
Partial eclipses
May 2022 lunar eclipse
Total eclipses
February 2017 lunar eclipse
Penumbral eclipses
Partial
Total
Related
  • Category
  • symbol denotes next eclipse in series
Portals: Categories: