Diagram of Lunar Eclipse Easy to Draw Earth

When the Moon moves into the Earth's shadow

A lunar eclipse occurs when the Moon moves into the Earth's shadow.[1] 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.[ citation needed ]

The reddish color of totally eclipsed Moon is caused by Earth completely blocking direct sunlight from reaching the Moon, with the only light reflected from the lunar surface has been refracted by Earth's atmosphere. This light appears reddish for the same reason that a sunset or sunrise does: the Rayleigh scattering of blue light.

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 2 hours, while a total solar eclipse lasts only up to 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, as they are dimmer than a normal full Moon.

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

For the date of the next eclipse, see § Recent and forthcoming lunar eclipses.

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.)

A total penumbral lunar eclipse dims the Moon in direct proportion to the area of the Sun's disk covered by Earth. This comparison of the Moon (within the southern part of Earth's shadow) during the penumbral lunar eclipse of January 1999 (left) and the Moon outside the shadow (right) shows this slight darkening.

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 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

This occurs when the Moon passes through Earth's penumbra. The penumbra causes a subtle dimming of the lunar surface, which is only visible to the naked eye when about 70% of the Moon's diameter has immersed into Earth's penumbra.[2] A special type of penumbral eclipse is a total penumbral lunar eclipse, during which the 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

This occurs when only a portion of the Moon enters Earth's umbra, while a total lunar eclipse occurs when the entire Moon enters the planet's umbra. 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 the last contacts of the Moon's limb with Earth's shadow is much longer and could last up to 236 minutes.[3]

Total lunar eclipse

This occurs when the Moon falls entirely within the Earth's umbra. 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. 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, and 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.[4]

Central lunar eclipse

This is a total lunar eclipse during which the Moon passes 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

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.[5]

Timing

As viewed from Earth, the Earth's shadow can be imagined as two concentric circles. As the diagram illustrates, the type of lunar eclipse is defined by the path taken by the Moon as it passes through Earth's shadow. If the Moon passes through the outer circle but does not reach the inner circle, it is a penumbral eclipse; if only a portion of the Moon passes through the inner circle, it is a partial eclipse; and if entire Moon passes through the inner circle at some point, it is a total eclipse.

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):[6]

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 following scale (the Danjon scale) was devised by André Danjon for rating the overall darkness of lunar eclipses:[7]

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

A solar eclipse occurs in the daytime at new moon, when the Moon is between Earth and the Sun, while a lunar eclipse occurs at night at full moon, when Earth passes between the Sun and the Moon.

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.

Lunar eclipse appearance

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.

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.[8] 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.

From the Moon, a lunar eclipse would show a ring of reddish-orange light surrounding a silhouetted Earth in the lunar sky.

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.

Lunar eclipse in 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.[9] The Ancient Greeks correctly believed the Earth was round and used the shadow from the lunar eclipse as evidence.[10] Some Hindus believe in the importance of bathing in the Ganges River following an eclipse because it will help to achieve salvation.[11]

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.[12]

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).[12]

Chinese

In some Chinese cultures, people would ring bells to prevent a dragon or other wild animals from biting the Moon.[13] In the 19th century, during a lunar eclipse, the Chinese navy fired its artillery because of this belief.[14] 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.[15]

Blood moon

Certain lunar eclipses have been referred to as "blood moons" in popular articles but this is not a scientifically-recognized term.[16] This term has been given two separate, but overlapping, meanings.

The first, and simpler, meaning relates to the reddish color a totally eclipsed Moon takes on to observers on Earth.[17] 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.[18]

The second meaning of "blood moon" has been derived from this apparent coloration by two fundamentalist Christian pastors, Mark Blitz and John Hagee.[16] [19] They claimed that the 2014–15 "lunar tetrad" of four lunar eclipses coinciding with the feasts of Passover and Tabernacles matched the "moon turning to blood" described in the Book of Joel of the Hebrew Bible.[19] This tetrad was claimed to herald the Second Coming of Christ and the Rapture as described in the Book of Revelation on the date of the first of the eclipses in this sequence on April 15, 2014.[20]

Occurrence

This collage shows the transitional stages of a lunar eclipse.

At least two lunar eclipses and as many as five occur every year, although total lunar eclipses are significantly less common. If the date and time of an eclipse is known, the occurrences of upcoming eclipses are predictable using an eclipse cycle, like the saros.

Recent and forthcoming lunar eclipses

Eclipses occur only during an eclipse season, when the Sun appears to pass near either node of the Moon's orbit.

Lunar eclipse series sets from 2002–2005
Descending node Ascending node
Saros
Photo
Date
View
Type
Chart
Gamma Saros
Photo
Date
View
Type
Chart
Gamma
111 2002 May 26
Lunar eclipse from moon-2002May26.png
penumbral
Lunar eclipse chart close-2002May26.png
1.1759 116 2002 Nov 20
Lunar eclipse from moon-2002Nov20.png
penumbral
Lunar eclipse chart close-2002Nov20.png
-1.1127
121
Lunar eclipse May 2003-TLR75.jpg
2003 May 16
Lunar eclipse from moon-2003May16.png
total
Lunar eclipse chart close-03may16.png
0.4123 126
Lunar eclipse November 2003-TLR63.jpg
2003 Nov 09
Lunar eclipse from moon-2003Nov09.png
total
Lunar eclipse chart close-03nov09.png
-0.4319
131
Total lunar eclipse May 4 2004-Jpeter smith.jpg
2004 May 04
Lunar eclipse from moon-2004May04.png
total
Lunar eclipse chart close-04may04.png
-0.3132 136
Oct 28 2004 total lunar eclipse-espenak.png
2004 Oct 28
Lunar eclipse from moon-2004Oct28.png
total
Lunar eclipse chart close-04oct28.png
0.2846
141 2005 Apr 24
Lunar eclipse from moon-2005Apr24.png
penumbral
Lunar eclipse chart close-05apr24.png
-1.0885 146
MiNe-10D 224-2485F Crop (1511723771) (cropped).jpg
2005 Oct 17
Lunar eclipse from moon-2005Oct17.png
partial
Lunar eclipse chart close-2005Oct17.png
0.9796
Last set 2002 Jun 24 Last set 2001 Dec 30
Next set 2006 Mar 14 Next set 2006 Sep 7
Lunar eclipse series sets from 2006–2009
Descending node Ascending node
Saros #
and photo
Date
Viewing
Type
Chart
Gamma Saros #
and photo
Date
Viewing
Type
Chart
Gamma
113
Lunar eclipse (114948858).jpg
2006 Mar 14
Lunar eclipse from moon-2006Mar14.png
penumbral
Lunar eclipse chart close-06mar14.png
1.0211 118
Partial lunar eclipse Sept 7 2006-Mikelens.jpg
2006 Sep 7
Lunar eclipse from moon-2006Sep07.png
partial
Lunar eclipse chart close-2006Sep07.png
-0.9262
123
Total eclipse.jpg
2007 Mar 03
Lunar eclipse from moon-2007Mar03.png
total
Lunar eclipse chart close-07mar03.png
0.3175 128
Lunar Eclipse.jpg
2007 Aug 28
Lunar eclipse from moon-2007Aug28.png
total
Lunar eclipse chart close-2007aug28.png
-0.2146
133
February 2008 total lunar eclipse John Buonomo.jpg
2008 Feb 21
Lunar eclipse from moon-2008Feb21.png
total
Lunar eclipse chart close-08feb20.png
-0.3992 138
20080816eclipsed2.jpg
2008 Aug 16
Lunar eclipse from moon-2008Aug16.png
partial
Lunar eclipse chart close-2008Aug16.png
0.5646
143
Penumbral lunar eclipse Feb 9 2009 NavneethC.jpg
2009 Feb 09
Lunar eclipse from moon-2009Feb09.png
penumbral
Lunar eclipse chart close-09feb09.png
-1.0640 148
Penumbral lunar eclipse Aug 6 2009 John Walker.gif
2009 Aug 06
Lunar eclipse from moon-2009Aug06.png
penumbral
Lunar eclipse chart close-2009aug06.png
1.3572
Last set 2005 Apr 24 Last set 2005 Oct 17
Next set 2009 Dec 31 Next set 2009 Jul 07
Lunar eclipse series sets from 2009–2013
Ascending node Descending node
Saros #
Photo
Date
Viewing
Type
chart
Gamma Saros #
Photo
Date
Viewing
Type
chart
Gamma
110 2009 Jul 07
Lunar eclipse from moon-2009Jul07.png
penumbral
Lunar eclipse chart close-2009jul07.png
-1.4916 115
December 2009 partial lunar eclipse-cropped.jpg
2009 Dec 31
Lunar eclipse from moon-2009Dec31.png
partial
Lunar eclipse chart close-2009Dec31.png
0.9766
120
Lunar eclipse june 2010 northup.jpg
2010 Jun 26
Lunar eclipse from moon-2010Jun26.png
partial
Lunar eclipse chart close-2010jun26.png
-0.7091 125
Near Greatest Eclipse 20101221 0011-crop.jpg
2010 Dec 21
Lunar eclipse from moon-2010Dec21.png
total
Lunar eclipse chart close-10dec21.png
0.3214
130
Lunar eclipse June 2011 Total.jpg
2011 Jun 15
Lunar eclipse from moon-2011Jun15.png
total
Lunar eclipse chart close-2011jun15.png
0.0897 135
Lunar eclipse by Shiny Things cropped.jpg
2011 Dec 10
Lunar eclipse from moon-2011Dec10.png
total
Lunar eclipse chart close-2011Dec10.png
-0.3882
140
Partial Eclipse of Moon 4th June 2012 Australia cropped.jpg
2012 Jun 04
Lunar eclipse from moon-2012Jun04.png
partial
Lunar eclipse chart close-2012Jun04.png
0.8248 145 2012 Nov 28
Lunar eclipse from moon-2012Nov28.png
penumbral
Lunar eclipse chart close-2012Nov28.png
-1.0869
150 2013 May 25
Lunar eclipse from moon-2013May25.png
penumbral
Lunar eclipse chart close-2013May25.png
1.5351
Last set 2009 Aug 06 Last set 2009 Feb 9
Next set 2013 Apr 25 Next set 2013 Oct 18
Lunar eclipse series sets from 2013–2016
Ascending node Descending node
Saros Viewing
date
Type Gamma Saros Viewing
date
Type Gamma
112
Partial lunar eclipse 2013.04.25.jpg
2013 Apr 25
Lunar eclipse from moon-2013Apr25.png
Partial
Lunar eclipse chart close-2013Apr25.png
-1.0121 117
MG 8074 (10353408985) (cropped).jpg
2013 Oct 18
Lunar eclipse from moon-2013Oct18.png
Penumbral
Lunar eclipse chart close-2013Oct18.png
1.1508
122
Lunar eclipse April 15 2014 California Alfredo Garcia Jr1.jpg
2014 Apr 15
Lunar eclipse from moon-2014Apr15.png
Total
Lunar eclipse chart close-2014Apr15.png
-0.3017 127
Lunar eclipse October 8 2014 California Alfredo Garcia Jr mideclipse.JPG
2014 Oct 08
Lunar eclipse from moon-2014Oct08.png
Total
Lunar eclipse chart close-2014Oct08.png
0.3827
132
Lunar eclipse April 4 2015 greatest Alfredo Garcia Jr LA.jpg
2015 Apr 04
Lunar eclipse from moon-2015Apr04.png
Total
Lunar eclipse chart close-2015Apr04.png
0.4460 137
Lunar eclipse September 27 2015 greatest Alfredo Garcia Jr.jpg
2015 Sep 28
Lunar eclipse from moon-2015Sep28.png
Total
Lunar eclipse chart close-2015Sep28.png
-0.3296
142 2016 Mar 23
Lunar eclipse from moon-2016Mar23.png
Penumbral
Lunar eclipse chart close-2016Mar23.png
1.1592 147
Penumbral eclipse on Sep.16, 2016 (29735793325).jpg
2016 Sep 16
Lunar eclipse from moon-2016Sep16.png
Penumbral
Lunar eclipse chart close-2016Sep16.png
-1.0549
Last set 2013 May 25 Last set 2012 Nov 28
Next set 2017 Feb 11 Next set 2016 Aug 18
Lunar eclipse series sets from 2016–2020
Descending node Ascending node
Saros Date Type
Viewing
Gamma Saros Date
Viewing
Type
Chart
Gamma
109 2016 Aug 18
Lunar eclipse from moon-2016Aug18.png
Penumbral
Lunar eclipse chart close-2016Aug18.png
1.5641 114
Penumbral lunar eclipse 2017.02.11.jpg
2017 Feb 11
Lunar eclipse from moon-2017Feb11.png
Penumbral
Lunar eclipse chart close-2017Feb11.png
-1.0255
119
Lunar eclipse of 2017 August 7 Kuwait.jpg
2017 Aug 07
Lunar eclipse from moon-2017Aug07.png
Partial
Lunar eclipse chart close-2017Aug07.png
0.8669 124
Lunar eclipse January 31 2018 California Alfredo Garcia Jr mideclipse.jpg
2018 Jan 31
Lunar eclipse from moon-2018Jan31.png
Total
Lunar eclipse chart close-2018Jan31.png
-0.3014
129
Lunar Total Eclipse on July 27, 2018 (100 2006) (43696968392) (cropped).jpg
2018 Jul 27
Lunar eclipse from moon-2018Jul27.png
Total
Lunar eclipse chart close-2018Jul27.png
0.1168 134
Total lunar eclipse on January 21, 2019 (45910439045) (cropped).jpg
2019 Jan 21
Lunar eclipse from moon-2019Jan21.png
Total
Lunar eclipse chart close-2019Jan21.png
0.3684
139
July 2019 Partial Lunar Eclipse.jpg
2019 Jul 16
Lunar eclipse from moon-2019Jul16.png
Partial
Lunar eclipse chart close-2019Jul16.png
-0.6430 144
Penumbral Lunar Eclipse 2020-01-10-single.jpg
2020 Jan 10
Lunar eclipse from moon-2020Jan10.png
Penumbral
Lunar eclipse chart close-2020Jan10.png
1.2406
149 2020 Jul 05
Lunar eclipse from moon-2020Jul05.png
Penumbral
Lunar eclipse chart close-2020Jul05.png
-1.3639
Last set 2016 Sep 16 Last set 2016 Mar 23
Next set 2020 Jun 05 Next set 2020 Nov 30
Lunar eclipse series sets from 2020–2023
Descending node Ascending node
Saros Date Type
Viewing
Gamma Saros Date
Viewing
Type
Chart
Gamma
111
2020-06-05-Penumbral lunar eclipse-Cory Schmitz.jpg
2020 Jun 05
Lunar eclipse from moon-2020Jun05.png
Penumbral
Lunar eclipse chart close-2020Jun05.png
1.24063 116
Penumbral lunar eclipse nov-11-2020-tlr1.jpg
2020 Nov 30
Lunar eclipse from moon-2020Nov30.png
Penumbral
Lunar eclipse chart close-2020Nov30.png
-1.13094
121
May 2021 Lunar Eclipse Totality, Mountain View, USA.jpg
2021 May 26
Lunar eclipse from moon-2021May26.png
Total
Lunar eclipse chart close-2021May26.png
0.47741 126
Lunar Eclipse - 2021 (51690221681) (cropped).jpg
2021 Nov 19
Lunar eclipse from moon-2021Nov19.png
Partial
Lunar eclipse chart close-2021Nov19.png
-0.45525
131
Full Eclipse of the Moon as seen in from Irvine, CA, USA (52075715442) (cropped).jpg
2022 May 16
Lunar eclipse from moon-2022May16.png
Total
Lunar eclipse chart close-2022may16.png
-0.25324 136 2022 Nov 08
Lunar eclipse from moon-2022Nov08.png
Total
Lunar eclipse chart close-2022nov08.png
0.25703
141 2023 May 05
Lunar eclipse from moon-2023May05.png
Penumbral
Lunar eclipse chart close-2023May05.png
-1.03495 146 2023 Oct 28
Lunar eclipse from moon-2023Oct28.png
Partial
Lunar eclipse chart close-2023Oct28.png
0.94716
Last set 2020 Jul 05 Last set 2020 Jan 10
Next set 2024 Mar 25 Next set 2024 Sep 18
Lunar eclipse series sets from 2024–2027
Descending node Ascending node
Saros Date Type
Viewing
Gamma Saros Date
Viewing
Type
Chart
Gamma
113 2024 Mar 25
Lunar eclipse from moon-2024Mar25.png
Penumbral
Lunar eclipse chart close-2024Mar25.png
1.06098 118 2024 Sep 18
Lunar eclipse from moon-2024Sep18.png
Partial
Lunar eclipse chart close-2024Sep18.png
-0.97920
123 2025 Mar 14
Lunar eclipse from moon-2025Mar14.png
Total
Lunar eclipse chart close-2025Mar14.png
0.34846 128 2025 Sep 07
Lunar eclipse from moon-2025Sep07.png
Total
Lunar eclipse chart close-2025Sep07.png
-0.27521
133 2026 Mar 03
Lunar eclipse from moon-2026Mar03.png
Total
Lunar eclipse chart close-2026Mar03.png
-0.37651 138 2026 Aug 28
Lunar eclipse from moon-2026Aug28.png
Partial
Lunar eclipse chart close-2026Aug28.png
0.49644
143 2027 Feb 20
Lunar eclipse from moon-2027Feb20.png
Penumbral
Lunar eclipse chart close-2027Feb20.png
-1.04803 148 2027 Aug 17
Lunar eclipse from moon-2027Aug17.png
Penumbral
Lunar eclipse chart close-2027Aug17.png
1.27974
Last set 2023 May 05 Last set 2023 Oct 28
Next set 2028 Jan 12 Next set 2027 Jul 18
Lunar eclipse series sets from 2027–2031
Descending node Ascending node
Saros Date
Viewing
Type
Chart
Saros Date
Viewing
Type
Chart
110 2027 Jul 18
Lunar eclipse from moon-2027Jul18.png
Penumbral
Lunar eclipse chart close-2027Jul18.png
115 2028 Jan 12
Lunar eclipse from moon-2028Jan12.png
Partial
Lunar eclipse chart close-2028Jan12.png
120 2028 Jul 06
Lunar eclipse from moon-2028Jul06.png
Partial
Lunar eclipse chart close-2028Jul06.png
125 2028 Dec 31
Lunar eclipse from moon-2028Dec31.png
Total
Lunar eclipse chart close-2028Dec31.png
130 2029 Jun 26
Lunar eclipse from moon-2029Jun26.png
Total
Lunar eclipse chart close-29jun26.png
135 2029 Dec 20
Lunar eclipse from moon-2029Dec20.png
Total
Lunar eclipse chart close-2029Dec20.png
140 2030 Jun 15
Lunar eclipse from moon-2030Jun15.png
Partial
Lunar eclipse chart close-2030Jun15.png
145 2030 Dec 09
Lunar eclipse from moon-2030Dec09.png
Penumbral
Lunar eclipse chart close-2030Dec09.png
150 2031 Jun 05
Lunar eclipse from moon-2031Jun05.png
Penumbral
Lunar eclipse chart close-2031Jun05.png
Last set 2027 Aug 17 Last set 2027 Feb 20
Next set 2031 May 07 Next set 2031 Oct 30

See also

  • Lists of lunar eclipses and List of 21st-century lunar eclipses
  • Lunar occultation
  • Moon illusion
  • Orbit of the Moon
  • Solar eclipse

References

  1. ^ McClure, Bruce (July 27, 2018). "Century's Longest Lunar Eclipse July 27". EarthSky . Retrieved August 1, 2018.
  2. ^ H. Mucke, J. Meeus (1992). Canon of Lunar Eclipses -2002 to +2526 (3rd ed.). Astronomisches Büro Wien. p. V.
  3. ^ Karttunen, Hannu (2007). Fundamental Astronomy. Springer. p. 139. ISBN9783540341444.
  4. ^ "Lunar Limb Magic". Astronomy.com. 27 November 2018.
  5. ^ "Observing Blog - In Search of Selenelion". Sky & Telescope. 2010-06-26. Archived from the original on 2011-12-20. Retrieved 2011-12-08 .
  6. ^ Clarke, Kevin. "On the nature of eclipses". Inconstant Moon. Cyclopedia Selenica. Retrieved 19 December 2010.
  7. ^ Deans, Paul; MacRobert, Alan M. (July 16, 2006). "Observing and Photographing Lunar Eclipses". Sky & Telescope. F+W. Archived from the original on May 20, 2007. Retrieved January 7, 2007.
  8. ^ 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.
  9. ^ Littmann, Mark; Espenak, Fred; Willcox, Ken (2008). "Chapter 4: Eclipses in Mythology". Totality Eclipses of the Sun (3rd ed.). New York: Oxford University Press. ISBN978-0-19-953209-4.
  10. ^ Pollack, Rebecca. "Ancient Myths Revised with Lunar Eclipse". University of Maryland. Retrieved 2 October 2014.
  11. ^ Ani. "Hindus take a dip in the Ganges during Lunar Eclipse". Yahoo News . Retrieved 2 October 2014.
  12. ^ a b Lee, Jane (14 April 2014). "Lunar Eclipse Myths From Around the World". National Geographic . Retrieved 9 October 2014.
  13. ^ Quilas, Ma Evelyn. "Interesting Facts and Myths about Lunar Eclipse". LA Times . Retrieved 2 October 2014.
  14. ^ "Mythology of the Lunar Eclipse". LifeAsMyth.com.
  15. ^ Kaul, Gayatri (15 June 2011). "What Lunar Eclipse Means in Different Parts of the World". India.com . Retrieved 6 October 2014.
  16. ^ a b Sappenfield, Mark (13 April 2014). "Blood Moon to arrive Monday night. What is a Blood Moon?". Christian Science Monitor . Retrieved 8 February 2018.
  17. ^ Nigro, Nicholas (2010). Knack Night Sky: Decoding the Solar System, from Constellations to Black Holes. Globe Pequot. pp. 214–5. ISBN978-0-7627-6604-8.
  18. ^ "All you need to know about the 'blood moon'". theguardian. 28 September 2015.
  19. ^ a b "What is a Blood Moon?". Earth & Sky. 24 April 2014. Retrieved 30 May 2014.
  20. ^ Bailey, Sarah Pulliam (15 April 2014). "'Blood moon' sets off apocalyptic debate among some Christians". The Washington Post. Religion News Service. Retrieved 8 February 2018.
  21. ^ "Lunar Eclipse @ ESO". European Southern Observatory. Retrieved 14 August 2017.

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

  • Lunar Eclipse Essentials: video from NASA
  • Animated explanation of the mechanics of a lunar eclipse Archived 2013-06-03 at the Wayback Machine, University of South Wales
  • U.S. Navy Lunar Eclipse Computer Archived 2011-08-13 at the Wayback Machine
  • NASA Lunar Eclipse Page
  • Search among the 12,064 lunar eclipses over five millennium and display interactive maps
  • Lunar Eclipses for Beginners
  • Tips on photographing the lunar eclipse from New York Institute of Photography Archived 2011-07-14 at the Wayback Machine
  • Lunar Eclipse 08 October 2014 on YouTube

foyleopragues86.blogspot.com

Source: https://en.wikipedia.org/wiki/Lunar_eclipse

0 Response to "Diagram of Lunar Eclipse Easy to Draw Earth"

Post a Comment

Iklan Atas Artikel

Iklan Tengah Artikel 1

Iklan Tengah Artikel 2

Iklan Bawah Artikel