This page will contain news stories about solar eclipse, as they become available.

Solar eclipse

Photo taken during the French 1999 eclipse

A solar eclipse occurs when the Moon passes in front of the Sun and obscures it totally or partially. This configuration can only occur at New Moon, when the Sun and Moon are in conjunction, as seen from Earth. A total solar eclipse is considered by many to be the most spectacular natural phenomenon that one can observe.

Types of solar eclipses

There are four types of solar eclipses:

A total eclipse occurs when the Sun is completely obscured by the Moon. The intensely bright disk of the Sun is replaced by the dark outline of the Moon, and the much fainter corona is visible (see image right). During any one eclipse, a total eclipse is visible only from a fairly narrow track on the surface of the Earth.
An annular eclipse occurs when the Sun and Moon are exactly in line, but the apparent size of the Moon is smaller than that of the Sun. Hence the Sun appears as a very bright ring surrounding the outline of the Moon.
A hybrid eclipse is intermediate between a total and annular eclipse. At some points on the Earth it is visible as a total eclipse; whereas at others it is annular. The generic term for a total, annular or hybrid eclipse is a central eclipse.
A partial eclipse occurs when the Sun and Moon are not exactly in line, and the Moon only partially obscures the Sun. This phenomenon can usually be seen from a large part of the Earth outside of the track of a central eclipse. However, some eclipses can only be seen as a partial eclipse, because the central line never intersects the Earth's surface.

The reason why some solar eclipses are total and others are annular has to do with the elliptical nature of the Moon's orbit around Earth. One of the most remarkable co-incidences in nature is that (i) the Sun lies about 400 times as far from Earth as does the Moon, and (ii) the Sun is also about 400 times the diameter of the Moon. As seen from Earth, therefore, the Sun and the Moon appear to be about the same size in the sky - about 1/2 of a degree in angular measure. Because the Moon's orbit around Earth is an ellipse rather than a circle, however, at some times during the month the Moon is further away, and at other times it is closer to Earth, than average. The furthest point in the orbit is referred to as apogee, and the closest point is called perigee.

When a solar eclipse occurs when the Moon is at or near perigee, it appears large enough to cover the bright disk, or photosphere, of the Sun completely, and a total eclipse occurs. When a solar eclipse occurs when the Moon is at or near apogee, however, it appears smaller, and it cannot cover the Sun completely. In that case, at the time of greatest eclipse there remains a thin annulus (or ring) of brilliant Sun left uncovered. Hence the term annular eclipse. Slightly more annular eclipses than total eclipses occur, because on average the Moon lies too far away from Earth to cover the Sun completely.

Terminology

The term eclipse is actually a misnomer: The phenomenon of the Moon passing in front of the Sun is actually an occultation. Properly speaking, an eclipse occurs when one object passes into the shadow cast by another object. When the Moon disappears at Full Moon by passing into Earth's shadow, the event is properly called an eclipse, but when the Moon passes in front of the Sun, we see an occultation of the Sun by the Moon.

Photo taken by Wikipedia editor Luc Viatour (Lviatour) during the French 1999 eclipse Photo taken during the Spanish 2005 annular eclipse Photo taken in Valladolid (Spain) during the October 3, 2005 annular eclipse People observing a Solar eclipse in Iceland 2002

Observing a solar eclipse

Looking directly at the photosphere of the Sun (the bright disk of the Sun itself), even for just a few seconds, can cause permanent damage to the retina of the eye, because of the intense visible and invisible radiation that the photosphere emits. This damage can result in permanent impairment of vision, up to and including blindness. The retina has no sensitivity to pain, and the effects of retinal damage may not appear for hours, so there is no warning that injury is occurring.

Under normal conditions, the Sun is so bright that it's difficult to stare at it directly, so there is no tendency to look at it in a way that might damage the eye. However, during an eclipse, with so much of the Sun covered, it is easier and more tempting to stare at it. Unfortunately, looking at the Sun during an eclipse is just as dangerous as looking at it outside an eclipse, except during the brief period of totality, when the Sun's disk is completely covered (totality occurs only during a total eclipse and only very briefly—it does not occur during a partial or annular eclipse). Viewing the Sun's disk through any kind of optical aid (binoculars, a telescope, or even an optical camera viewfinder) is even more hazardous, although just viewing it with the naked eye can easily cause damage.

Viewing partial and annular eclipses

Viewing the Sun during partial and annular eclipses (and during total eclipses outside the brief period of totality) requires special eye protection, or indirect viewing methods.

The Sun's disk can be viewed using appropriate filtration to block the harmful part of the Sun's radiation. Sunglasses are not safe, since they do not block the harmful and invisible infrared radiation which causes retinal damage. Only properly designed and certified solar filters should ever be used for direct viewing of the Sun's disk.

The safest way to view the Sun's disk is by indirect projection. This can be done by projecting an image of the disk onto a white piece of paper or card using a pair of binoculars (with one of the lenses covered), a telescope, or another piece of cardboard with a small hole in it (about 1 mm diameter), often called a pinhole camera. The projected image of the Sun can then be safely viewed; this technique can be used to observe sunspots, as well as eclipses. However, care must be taken to ensure that no one looks through the projector (telescope, pinhole, etc.) directly.

Viewing the Sun's disk on a video display screen (provided by a video camera or digital camera) is safe, although the camera itself may be damaged by direct exposure to the Sun. The optical viewfinders provided with some video and digital cameras are not safe.

These precautions apply to viewing the Sun at any time except during the totality phase of a total solar eclipse (see below).

Viewing totality during total eclipses

Contrary to popular belief, it is safe to observe the total phase of a total solar eclipse directly with the unaided eye, binoculars or a telescope, when the Sun's photosphere is completely covered by the Moon; indeed, this is a very spectacular and beautiful sight, and it is too dim to be seen through filters. The Sun's faint corona will be visible, and even the chromosphere, solar prominences, and possibly even a solar flare may be seen. However, it is important to stop directly viewing the Sun promptly at the end of totality. The exact time and duration of totality for the location from which the eclipse is being observed should be determined from a reliable source (local astronomers, etc.). Note that it is never safe to look at an annular or partial eclipse directly, because the Sun's disk is never completely covered during this type of eclipse.

Additional information

For more information on safe eclipse viewing, see:

Eye Safety During Solar Eclipses, Fred Espenak, NASA Goddard Space Flight Center

How to Watch a Partial Solar Eclipse Safely, Alan M. MacRobert, Sky & Telescope magazine

Eclipse Predictions

Geometry of an Eclipse

Diagram of solar eclipse (not to scale)

The diagram to the right shows the alignment of the Sun, Moon and Earth at a solar eclipse. The dark gray region to the right of the moon is the umbra, where the Sun is completely obscured by the Moon. The small area where the umbra touches the Earth's surface is where a total eclipse will be seen. The larger light gray area is the penumbra, in which a partial eclipse will be seen.

Motion of the Moon and Earth

The Moon's orbit around the Earth is inclined at an angle of just over 5 degrees to the plane of the Earth's orbit around the Sun (the ecliptic). Because of this, at the time of a New Moon, the Moon will usually pass above or below the Sun. A solar eclipse can occur only when the New Moon occurs close to one of the points (known as nodes) where the Moon's orbit crosses the ecliptic – hence the name.

The Moon's orbit is also elliptical, which means that the distance of the Moon from the Earth can vary by about 6% from its average value. This means that the apparent size of the Moon is sometimes larger or smaller than average, and it is this effect that leads to the difference between total and annular eclipses (the distance of the Earth from the Sun also varies during the year, but this is a smaller effect). On average, the Moon appears to be slightly smaller than the Sun, so the majority (about 60%) of central eclipses are annular. It is only when the Moon is closer to the Earth than average (near its perigee) that a total eclipse occurs.

The Moon orbits the Earth in approximately 27.3 days, relative to a fixed frame of reference. This is known as the sidereal month. However, during one sidereal month, the Earth has moved on in its orbit around the Sun. This means that the average time between one New Moon and the next is longer, and is approximately 29.6 days. This is known as the synodic month, and corresponds to what is commonly called the lunar month.

The Moon crosses from south to north of the ecliptic at its ascending node. However, the nodes of the Moon's orbit are gradually moving in a retrograde motion, due the the action of the Sun's gravity on the Moon's motion, and they make a complete circuit every 18.5 years. This means that the time between each passage of the Moon through the ascending node is slightly shorter than the sidereal month. This period is called the draconitic month.

Finally, the Moon's perigee is moving forwards in its orbit, and makes a complete circuit in about 9 years. The time between one perigee and the next is known as the anomalistic month.

Frequency of Solar Eclipses

The Moon's orbit intersects with the ecliptic at the two nodes that are 180 degrees apart. Therefore, the New Moon occurs close to the nodes at two periods of the year approximately six months apart, and there will always be at least one solar eclipse during these periods. Sometimes the New Moon occurs close enough to a node during two consecutive months. This means that in any given year, there will always be at least two solar eclipses, and there can be as many as five. However, some are visible only as partial eclipses, because the umbra passes either above or below the earth, and others are central only in remote regions of the arctic or antarctic.

Path of an Eclipse

During a central eclipse, the Moon's umbra (or antumbra, in the case of an annular eclipse) moves rapidly from west to east across the Earth. The Earth is also rotating from west to east, but the umbra always moves faster than any given point on the Earth's surface, so it almost always appears to move in a roughly west-east direction across a map of the Earth (there are some rare exceptions to this which can occur during an eclipse of the midnight sun in arctic or antarctic regions).

The width of the track of a central eclipse varies according to the relative apparent diameters of the Sun and Moon. In the most favourable circumstances, when a total eclipse occurs very close to perigee, the track can be over 250 km wide and the duration of totality may be over 7 minutes. Outside of the central track, a partial eclipse can usually be seen over a much larger area of the Earth.

Occurrence of Eclipses at a given place

Total Solar Eclipse Paths: 1001-2000. This image was merged from 50 separated images from http://sunearth.gsfc.nasa.gov/eclipse/

Total solar eclipses are rare events. Although they occur somewhere on Earth approximately every 18 months, it has been estimated that they recur at any given place only once every 370 years, on average (Stephenson, p.54). Then, after waiting so long, the total eclipse only lasts for a few minutes, as the Moon's umbra moves eastward at over 1700 km/h. Totality can never last more than 7 min 40 s, and is usually much shorter. During each millennium there are typically fewer than 10 total solar eclipses exceeding 7 minutes. The last time this happened was June 30, 1973. Observers aboard a Concorde aircraft were able to stretch totality to about 74 minutes by flying along the path of the Moon's umbra. The next eclipse of comparable duration will not occur until June 25, 2150. The longest total solar eclipse during the 8,000-year period from 3000 BC to 5000 AD will occur on July 16, 2186, when totality will last 7 min 29 s. (eclipse predictions by Fred Espenak, NASA/GSFC.)

For astronomers, a total solar eclipse forms a rare opportunity to observe the corona (the outer layer of the Sun's atmosphere). Normally this is not visible because the photosphere is much brighter than the corona.

Eclipse Cycles

If the date and time of a solar eclipse is known, it is possible to predict other eclipses using eclipse cycles. Two such cycles are the Saros and the Inex. The Saros cycle is probably the most well known, and one of the best, eclipse cycles. The Inex cycle is itself a poor cycle, but it is very convenient in the classification of eclipse cycles. After a Saros cycle finishes, a new Saros cycle begins 1 Inex later (hence its name: in-ex).

Historical solar eclipses

A solar eclipse of 15 June 763 BC mentioned in an Assyrian text is important for the Chronology of the Ancient Orient. This is the earliest solar eclipse that can be exactly dated. There have been other claims to date earlier eclipses, in Babylon and also in China, but these are highly disputed and rely on much supposition. For a discussion, see the text by Stephenson.

Herodotus wrote that Thales of Milete predicted an eclipse which occurred during a war between the Medians and the Lydians. Soldiers on both sides put down their weapons and declared peace as a result of the eclipse. Exactly which eclipse was involved has remained uncertain, although the issue has been studied by hundreds of ancient and modern authorities. One likely candidate took place on May 28, 585 BC, probably near the Halys river in the middle of modern Turkey.

An annular eclipse of the Sun occurred at Sardis on February 17, 478 BC, while Xerxes was departing for his expedition against Greece, as Herodotus, VII, 37 recorded ([Hind and Chambers, 1889: 323] considered this absolute date more than a century ago). Herodotus (book IX, 10, book VIII, 131, and book IX, 1) reports that another solar eclipse was observed in Sparta during the next year, on August 1, 477 BC. The sky suddenly darkened in the middle of the sky, well after the battles of Thermopylae and Salamis, after the departure of Mardonius to Thessaly at the beginning of the spring of (477 BC) and his second attack on Athens, after the return of Cleombrotus to Sparta. Note that the modern conventional dates are different by a year or two, and that these two eclipse records have been ignored so far.

Other Observations

During a solar eclipse special observations can be done with the unaided eye. Normally the spots of light which fall through the small openings between the leaves of a tree, have a circular shape. These are images of the sun. During a partial eclipse, the light spots will show the partial shape of the sun, as seen on the picture.

Images of the sun during a partial eclipse through the leaves of a tree

Special observation campaigns

May 30, 1965: Launch of rockets at Charlestown, USA
May 20, 1966: Launch of rockets at Karystos, Greece to watch the solar eclipse
November 12, 1966: Launch of two Titus-rockets fom Las Palmas, Argentina
February 26, 1979: Launch of rockets from Red Lake, Canada
February 16, 1980: Launch of rockets from San Marco platform

Solar eclipse before sunrise or after sunset

It is possible for a solar eclipse to attain totality (or in the event of a partial eclipse, near totality) before sunrise or after sunset from a particular location. When this occurs shortly before the former or after the latter, the sky will appear much darker than it would otherwise be immediately before sunrise or after sunset. On these occasions, an object — especially a planet (often Mercury) — may be visible near the sunrise or sunset point of the horizon when it could not have been seen without the eclipse.

Simultaneous occurrence of solar eclipse and transit of a planet

In principle, the simultaneous occurrence of a Solar eclipse and a transit of a planet is possible. But these events are extremely rare because of their short durations. The next anticipated simultaneous occurrence of a Solar eclipse and a transit of Mercury will be on July 5, 6757, and of a Solar eclipse and a transit of Venus is expected on April 5, 15232.

Only 5 hours after the transit of Venus on June 4, 1769 there was a total solar eclipse, which was visible in Northern America, Europe and Northern Asia as partial solar eclipse. This was the lowest time difference between a transit of a planet and a solar eclipse in the historical past.

More common — but still quite rare — is a conjunction of any planet (not confined exclusively to Mercury or Venus) at the time a total solar eclipse, in which event the planet will be visible very near the eclipsed Sun, when without the eclipse it would have been lost in the Sun's glare. At one time, some scientists — including Albert Einstein — hypothesized that there may have been a planet even closer to the Sun than Mercury; the only way to confirm its existence would have been to observe it during a total solar eclipse. When no such planet was found during such an eclipse, the possibility of its existence was ruled out.

Solar eclipses by artificial satellites

Artificial satellites can also get in the line between Earth and Sun. But none are large enough to cause an eclipse. At the altitude of the International Space Station, for example, an object would need to be about 3.35 km across to blot the Sun out entirely. This means the best you can get is a satellite transit, but these events are difficult to watch, because the zone of visibility is very small. The satellite passes over the face of the Sun in about a second, typically. Like a transit of a planet it will not get dark. [1]

Past and future eclipses

Although there is a total eclipse visible somewhere on Earth most years, some are more conveniently observed than others. Eclipses where the path of totality crosses major population centres generate the most interest in the general public.

Selected past and upcoming eclipses are:

(*) Duration of central eclipse.

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(*) Duration of central eclipse.. Not to be confused with the actual year the episode originally aired. Selected past and upcoming eclipses are:. The following is a timeframe which features the year the particular episode is set in. Eclipses where the path of totality crosses major population centres generate the most interest in the general public. Six Feet Under returned to its old timeslot on July 10, 2005 after having been in the new timeslot for only five episodes. Although there is a total eclipse visible somewhere on Earth most years, some are more conveniently observed than others. The Monday night experiment ultimately failed due to decreased ratings and complaints.

[1]. Much to the chagrin of loyal viewers since every episode prior had aired on a Sunday, it would be foolish to move the series during its final season. Like a transit of a planet it will not get dark. The reason being to add an additional night of programming to the HBO lineup for their upcoming summer season which included Entourage and The Comeback. The satellite passes over the face of the Sun in about a second, typically. In March 2005, HBO announced that the final season of Six Feet Under would be moved to Monday evenings starting June 6. This means the best you can get is a satellite transit, but these events are difficult to watch, because the zone of visibility is very small. Two soundtrack albums, featuring music that had appeared in the series, were released:.

At the altitude of the International Space Station, for example, an object would need to be about 3.35 km across to blot the Sun out entirely. The following songs were played during the teaser trailers for the seasons following Season 1:. But none are large enough to cause an eclipse. Music, according to creator Alan Ball, plays an integral role in the life of Six Feet Under, as it depicts the mood of the Fishers. Artificial satellites can also get in the line between Earth and Sun. The promos often depicted the mood that may have occurred in previous episodes or foretold future scenarios. When no such planet was found during such an eclipse, the possibility of its existence was ruled out. As Six Feet Under gradually became a topic in pop culture after Season 1, HBO came up with very stylish promotional ads to promote the anticipation of upcoming seasons.

At one time, some scientists — including Albert Einstein — hypothesized that there may have been a planet even closer to the Sun than Mercury; the only way to confirm its existence would have been to observe it during a total solar eclipse. Six Feet Under has had several guest star appearances by Hollywood actors either portraying themselves or playing a character on the series. More common — but still quite rare — is a conjunction of any planet (not confined exclusively to Mercury or Venus) at the time a total solar eclipse, in which event the planet will be visible very near the eclipsed Sun, when without the eclipse it would have been lost in the Sun's glare. In all cases, the story carries on from where it left off in the previous episode. This was the lowest time difference between a transit of a planet and a solar eclipse in the historical past. Sometimes six months passes between each episode; on other occasions, a day. Only 5 hours after the transit of Venus on June 4, 1769 there was a total solar eclipse, which was visible in Northern America, Europe and Northern Asia as partial solar eclipse. The show devotes considerable attention to continuity.

The next anticipated simultaneous occurrence of a Solar eclipse and a transit of Mercury will be on July 5, 6757, and of a Solar eclipse and a transit of Venus is expected on April 5, 15232. Some of the deaths in the series have occurred in other periods, such as the 1970s and the 1950s; in these cases, the story is brought up to date so that the plot revolves around the ramifications of the death, rather than the death itself. But these events are extremely rare because of their short durations. The next episode is set on January 8, 2001 [1]. In principle, the simultaneous occurrence of a Solar eclipse and a transit of a planet is possible. (played by Richard Jenkins) dies in the pilot, which begins on December 24, 2000. On these occasions, an object — especially a planet (often Mercury) — may be visible near the sunrise or sunset point of the horizon when it could not have been seen without the eclipse. Nathaniel Fisher, Sr.

When this occurs shortly before the former or after the latter, the sky will appear much darker than it would otherwise be immediately before sunrise or after sunset. Six Feet Under, being a show about death, is also a show about time; each episode is set in a particular month in a "contemporary universe" that spans the period from 2000–2005. It is possible for a solar eclipse to attain totality (or in the event of a partial eclipse, near totality) before sunrise or after sunset from a particular location. The series concluded after five seasons, with the finale airing on August 21, 2005. During a partial eclipse, the light spots will show the partial shape of the sun, as seen on the picture. The producers and writers felt that after 63 episodes they had told their "story". These are images of the sun. In November 2004, series creator and executive producer Alan Ball announced that the fifth season would be the show's last.

Normally the spots of light which fall through the small openings between the leaves of a tree, have a circular shape. The shift cannot be clearly distinguished from the normal flow of the scene until an abrupt cut brings us slightly back in time and reveals the imaginary nature of the past moment. During a solar eclipse special observations can be done with the unaided eye. In the later seasons, another device is also used where a real conversation between two living characters slips into the imaginary and becomes unrealistic. Note that the modern conventional dates are different by a year or two, and that these two eclipse records have been ignored so far. They represent the living character's internal dialogue by exposing it as an external conversation. The sky suddenly darkened in the middle of the sky, well after the battles of Thermopylae and Salamis, after the departure of Mardonius to Thessaly at the beginning of the spring of (477 BC) and his second attack on Athens, after the return of Cleombrotus to Sparta. Sometimes, the conversation is with other recurring dead characters, notably Nathaniel Fisher Sr., and, more recently, Nate's late wife Lisa.

Herodotus (book IX, 10, book VIII, 131, and book IX, 1) reports that another solar eclipse was observed in Sparta during the next year, on August 1, 477 BC. A recurring plot device consists in a character having an imaginary conversation with the person who died at the beginning of the episode. An annular eclipse of the Sun occurred at Sardis on February 17, 478 BC, while Xerxes was departing for his expedition against Greece, as Herodotus, VII, 37 recorded ([Hind and Chambers, 1889: 323] considered this absolute date more than a century ago). The only other episode that did not feature an opening death scene was the series finale, Everyone's Waiting, which instead began with a birth, and ended with the future death scenes of all of the main characters. One likely candidate took place on May 28, 585 BC, probably near the Halys river in the middle of modern Turkey. In Season 5, the episode All Alone was the first ever to open without a death, focusing instead on a death revealed at the end of the previous episode. Exactly which eclipse was involved has remained uncertain, although the issue has been studied by hundreds of ancient and modern authorities. Each episode begins with a death—anything from drowning or heart attack to Sudden Infant Death Syndrome—and that death usually sets the tone for each episode, allowing the characters to reflect on their current fortunes and misfortunes in a way that is illuminated by the death and its aftermath.

Soldiers on both sides put down their weapons and declared peace as a result of the eclipse. At the same time, it is a show that is distinguished by its unblinking focus on the topic of death, which it explores on multiple levels (personal, religious, and philosophical), rather than treating it as a convenient impetus for the solution of a murder. Herodotus wrote that Thales of Milete predicted an eclipse which occurred during a war between the Medians and the Lydians. On one level, the show is a conventional family drama, dealing with such issues as relationships, infidelity, homosexuality, and religion. For a discussion, see the text by Stephenson. The show revolves around the world of Fisher & Diaz Funeral Home, a fictitious mortuary set in present day Los Angeles, California (2000–2005). There have been other claims to date earlier eclipses, in Babylon and also in China, but these are highly disputed and rely on much supposition. Patrick).

This is the earliest solar eclipse that can be exactly dated. Other regulars include mortician and family friend Federico Diaz (Freddy Rodriguez), Nate's longtime girlfriend and eventual wife Brenda Chenowith (Rachel Griffiths), and David's boyfriend and eventual husband Keith Charles (Mathew St. A solar eclipse of 15 June 763 BC mentioned in an Assyrian text is important for the Chronology of the Ancient Orient. The Fisher clan also includes mother Ruth (Frances Conroy) and sister Claire (Lauren Ambrose). After a Saros cycle finishes, a new Saros cycle begins 1 Inex later (hence its name: in-ex). Hall. The Inex cycle is itself a poor cycle, but it is very convenient in the classification of eclipse cycles. The show, created by Alan Ball, stars Peter Krause as Nathaniel ("Nate") Fisher, Jr., the son of a funeral director who reluctantly becomes a partner in the family funeral business with his brother David, played by Michael C.

The Saros cycle is probably the most well known, and one of the best, eclipse cycles. . Two such cycles are the Saros and the Inex. It first aired on June 3, 2001 and concluded its fifth and final season run in the USA on August 21, 2005. If the date and time of a solar eclipse is known, it is possible to predict other eclipses using eclipse cycles. Six Feet Under was a critically acclaimed and popular television drama produced by HBO. Normally this is not visible because the photosphere is much brighter than the corona. The series finale, Everyone's Waiting is the longest episode of the series clocking in at 75 minutes.

For astronomers, a total solar eclipse forms a rare opportunity to observe the corona (the outer layer of the Sun's atmosphere). Hall (David Fisher) in real life. (eclipse predictions by Fred Espenak, NASA/GSFC.). Amy Spanger who played Holly Duncan, (the death of the week's sister) in Static is the wife of Michael C. The longest total solar eclipse during the 8,000-year period from 3000 BC to 5000 AD will occur on July 16, 2186, when totality will last 7 min 29 s. Freddy Rodriguez (Federico Diaz), Lauren Ambrose (Claire Fisher), Peter Facinelli (Jimmy) and Eric Balfour (Gabriel Dimas) were all in the 1998 movie, Can't Hardly Wait. The next eclipse of comparable duration will not occur until June 25, 2150. The Foot, The Dare.

Observers aboard a Concorde aircraft were able to stretch totality to about 74 minutes by flying along the path of the Moon's umbra. Every episode written by writer and cartoonist, Bruce Eric Kaplan begins with the word "The" in the episode's title, e.g. The last time this happened was June 30, 1973. Holmes did not get the job but was called back to read for George's daughter, Maggie. During each millennium there are typically fewer than 10 total solar eclipses exceeding 7 minutes. Tina Holmes (Maggie Sibley) originally auditioned for the minor role of "Marci", Bettina's daughter in The Black Forest. Totality can never last more than 7 min 40 s, and is usually much shorter. Justina Machado (Vanessa Diaz) became a series regular in 2005 after being in a guest starring role since Episode 2 of the series.

Then, after waiting so long, the total eclipse only lasts for a few minutes, as the Moon's umbra moves eastward at over 1700 km/h. The series converted to HDTV (16:9 widescreen) during the third season (2003). Although they occur somewhere on Earth approximately every 18 months, it has been estimated that they recur at any given place only once every 370 years, on average (Stephenson, p.54). Only two episodes of the series have been co-written: Episode 30, Nobody Sleeps and Episode 49, The Black Forest, which is very odd for a series since many writers on other shows are paired up into writing teams. Total solar eclipses are rare events. Frances Conroy (Ruth Fisher) is only 12 years older than Peter Krause (Nate Fisher), despite playing his mother. Outside of the central track, a partial eclipse can usually be seen over a much larger area of the Earth. Nate and Lisa during the third season and Claire in the fourth and fifth seasons.

In the most favourable circumstances, when a total eclipse occurs very close to perigee, the track can be over 250 km wide and the duration of totality may be over 7 minutes. David in the first two seasons. The width of the track of a central eclipse varies according to the relative apparent diameters of the Sun and Moon. Each Fisher sibling has lived in the Fisher coach house during the duration of the series. The Earth is also rotating from west to east, but the umbra always moves faster than any given point on the Earth's surface, so it almost always appears to move in a roughly west-east direction across a map of the Earth (there are some rare exceptions to this which can occur during an eclipse of the midnight sun in arctic or antarctic regions). Caskets for the show are made by ABC Caskets in Los Angeles. During a central eclipse, the Moon's umbra (or antumbra, in the case of an annular eclipse) moves rapidly from west to east across the Earth. Rachel Griffiths' (Brenda Chenowith Fisher) second pregnancy in 2004 was written into the show.

However, some are visible only as partial eclipses, because the umbra passes either above or below the earth, and others are central only in remote regions of the arctic or antarctic. The show was cancelled after 11 episodes. This means that in any given year, there will always be at least two solar eclipses, and there can be as many as five. Freddy Rodriguez (Federico Diaz) had a recurring role on Alan Ball's ABC series, Oh, Grow Up! which aired in 1999, two years prior to Six Feet Under. Sometimes the New Moon occurs close enough to a node during two consecutive months. Kathy Bates who was a director during the first three seasons went on to pursue a recurring role on the series as Ruth's friend, Bettina. Therefore, the New Moon occurs close to the nodes at two periods of the year approximately six months apart, and there will always be at least one solar eclipse during these periods. HBO renewed the series for a second season a week after the pilot aired.

The Moon's orbit intersects with the ecliptic at the two nodes that are 180 degrees apart. Alan Ball had 13 days to shoot the pilot. The time between one perigee and the next is known as the anomalistic month. Freddy Rodriguez (Federico Diaz) appeared in 62 episodes, missing one episode 1.09 "Life's Too Short" due to Federico's storyline. Finally, the Moon's perigee is moving forwards in its orbit, and makes a complete circuit in about 9 years. Patrick (Keith Charles) did not appear in three episodes of the series due to his Season 1 story arc. This period is called the draconitic month. Mathew St.

This means that the time between each passage of the Moon through the ascending node is slightly shorter than the sidereal month. Rachel Griffiths (Brenda Chenowith Fisher) did not appear in four episodes of Season 3 due to her 2002 pregnancy. However, the nodes of the Moon's orbit are gradually moving in a retrograde motion, due the the action of the Sun's gravity on the Moon's motion, and they make a complete circuit every 18.5 years. Hall (David Fisher), Frances Conroy (Ruth Fisher) and Lauren Ambrose (Claire Fisher) appeared in all 63 of the series' episodes.

. The Moon crosses from south to north of the ecliptic at its ascending node. Peter Krause (Nate Fisher), Michael C. This is known as the synodic month, and corresponds to what is commonly called the lunar month. This was intended to be a recurring feature throughout the series but was dropped after the first episode.

This means that the average time between one New Moon and the next is longer, and is approximately 29.6 days. The pilot episode features several spoof commercials for funeral homes and products. However, during one sidereal month, the Earth has moved on in its orbit around the Sun. Rachel Griffiths (Brenda Chenowith Fisher) has a strong Australian accent in real life. This is known as the sidereal month. Alan Ball considers Los Angeles the world capital of the denial of death. The Moon orbits the Earth in approximately 27.3 days, relative to a fixed frame of reference. in the West Adams section of Los Angeles, the actual location of The Filipino Federation of America.

It is only when the Moon is closer to the Earth than average (near its perigee) that a total eclipse occurs. The Fisher & Diaz Funeral Home is located at 2302 West 25th St. On average, the Moon appears to be slightly smaller than the Sun, so the majority (about 60%) of central eclipses are annular. HBO entertainment president, Carolyn Strauss proposed the idea to Ball. This means that the apparent size of the Moon is sometimes larger or smaller than average, and it is this effect that leads to the difference between total and annular eclipses (the distance of the Earth from the Sun also varies during the year, but this is a smaller effect). Alan Ball conceived the premise to create the show after the death of his sister and father. The Moon's orbit is also elliptical, which means that the distance of the Moon from the Earth can vary by about 6% from its average value. Season 5: 2004 (2 episodes), 2005 (10 episodes).

A solar eclipse can occur only when the New Moon occurs close to one of the points (known as nodes) where the Moon's orbit crosses the ecliptic – hence the name. Season 4: 2003,(4 episodes), 2004 (8 episodes). Because of this, at the time of a New Moon, the Moon will usually pass above or below the Sun. Season 3: 2002 (1 episode), 2003 (12 episodes). The Moon's orbit around the Earth is inclined at an angle of just over 5 degrees to the plane of the Earth's orbit around the Sun (the ecliptic). Season 2: 2001 (8 episodes), 2002 (5 episodes). The larger light gray area is the penumbra, in which a partial eclipse will be seen. Season 1: 2000 (pilot), 2001 (12 episodes).

The small area where the umbra touches the Earth's surface is where a total eclipse will be seen. 2: Everything Ends, 2005. The dark gray region to the right of the moon is the umbra, where the Sun is completely obscured by the Moon. Six Feet Under, Vol. The diagram to the right shows the alignment of the Sun, Moon and Earth at a solar eclipse. Six Feet Under, 2002. For more information on safe eclipse viewing, see:. The song played during each episode recap is a 1995 single titled: Nothing Lies Still Long by Pell Mell.

Note that it is never safe to look at an annular or partial eclipse directly, because the Sun's disk is never completely covered during this type of eclipse. Seasons 1 & 5 feature the original version of the song while Seasons 2, 3, 4 feature the Rae & Christian remix. The exact time and duration of totality for the location from which the eclipse is being observed should be determined from a reliable source (local astronomers, etc.). Trailers for upcoming episodes feature the Six Feet Under theme. However, it is important to stop directly viewing the Sun promptly at the end of totality. Season 5: Breathe Me by Sia Furler [5]. The Sun's faint corona will be visible, and even the chromosphere, solar prominences, and possibly even a solar flare may be seen. Season 4: Feeling Good by Nina Simone [4].

Contrary to popular belief, it is safe to observe the total phase of a total solar eclipse directly with the unaided eye, binoculars or a telescope, when the Sun's photosphere is completely covered by the Moon; indeed, this is a very spectacular and beautiful sight, and it is too dim to be seen through filters. Season 3: A Rush of Blood to the Head by Coldplay [3]. These precautions apply to viewing the Sun at any time except during the totality phase of a total solar eclipse (see below). Season 2: Heaven by Lamb [2]. The optical viewfinders provided with some video and digital cameras are not safe. Molly Parker - Rabbi Ari Hoffman (2 episodes). Viewing the Sun's disk on a video display screen (provided by a video camera or digital camera) is safe, although the camera itself may be damaged by direct exposure to the Sun. Harriet Sansom Harris - Catherine Collins (2 episodes).

However, care must be taken to ensure that no one looks through the projector (telescope, pinhole, etc.) directly. Lee Garlington - Fiona Kleinschmidt (2 episodes). The projected image of the Sun can then be safely viewed; this technique can be used to observe sunspots, as well as eclipses. Illeana Douglas - Angela (2 episodes). This can be done by projecting an image of the disk onto a white piece of paper or card using a pair of binoculars (with one of the lenses covered), a telescope, or another piece of cardboard with a small hole in it (about 1 mm diameter), often called a pinhole camera. Jenna Fischer - Sharon Kinney (2 episodes). The safest way to view the Sun's disk is by indirect projection. Bobby Cannavale - Javier (3 episodes).

Only properly designed and certified solar filters should ever be used for direct viewing of the Sun's disk. Loretta Sibley (3 episodes). Sunglasses are not safe, since they do not block the harmful and invisible infrared radiation which causes retinal damage. Janice Lynde - Woman In Turquoise/Mrs. The Sun's disk can be viewed using appropriate filtration to block the harmful part of the Sun's radiation. Julie White- Mitzi Dalton-Huntley (4 episodes). Viewing the Sun during partial and annular eclipses (and during total eclipses outside the brief period of totality) requires special eye protection, or indirect viewing methods. Michelle Trachtenberg - Celeste (4 episodes).

Viewing the Sun's disk through any kind of optical aid (binoculars, a telescope, or even an optical camera viewfinder) is even more hazardous, although just viewing it with the naked eye can easily cause damage. Ricardo Antonio Chavira - Ramon Diaz (4 episodes). Unfortunately, looking at the Sun during an eclipse is just as dangerous as looking at it outside an eclipse, except during the brief period of totality, when the Sun's disk is completely covered (totality occurs only during a total eclipse and only very briefly—it does not occur during a partial or annular eclipse). Catherine O'Hara - Carol Ward (4 episodes). However, during an eclipse, with so much of the Sun covered, it is easier and more tempting to stare at it. Steffani Brass - Michaela Woodworth (5 episodes). Under normal conditions, the Sun is so bright that it's difficult to stare at it directly, so there is no tendency to look at it in a way that might damage the eye. Matt Malloy - Roger Pasquese (6 episodes).

The retina has no sensitivity to pain, and the effects of retinal damage may not appear for hours, so there is no warning that injury is occurring. Chris Messina - Ted Fairwell (6 episodes). This damage can result in permanent impairment of vision, up to and including blindness. Anne Ramsay - Jackie Feldman (6 episodes). Looking directly at the photosphere of the Sun (the bright disk of the Sun itself), even for just a few seconds, can cause permanent damage to the retina of the eye, because of the intense visible and invisible radiation that the photosphere emits. Patricia Clarkson - Sarah O'Connor (6 episodes). When the Moon disappears at Full Moon by passing into Earth's shadow, the event is properly called an eclipse, but when the Moon passes in front of the Sun, we see an occultation of the Sun by the Moon. Kellie Waymire - Melissa (6 episodes).

Properly speaking, an eclipse occurs when one object passes into the shadow cast by another object. Jeff Yagher - Hoyt Woodworth (6 episodes). The term eclipse is actually a misnomer: The phenomenon of the Moon passing in front of the Sun is actually an occultation. Julie Dretzin - Barb Woodworth (6 episodes). Slightly more annular eclipses than total eclipses occur, because on average the Moon lies too far away from Earth to cover the Sun completely. Bernard Chenowith (6 episodes). Hence the term annular eclipse. Robert Foxworth - Dr.

In that case, at the time of greatest eclipse there remains a thin annulus (or ring) of brilliant Sun left uncovered. Mena Suvari - Edie (7 episodes). When a solar eclipse occurs when the Moon is at or near apogee, however, it appears smaller, and it cannot cover the Sun completely. - Hiram Gunderson (8 episodes). When a solar eclipse occurs when the Moon is at or near perigee, it appears large enough to cover the bright disk, or photosphere, of the Sun completely, and a total eclipse occurs. Ed Begley, Jr. The furthest point in the orbit is referred to as apogee, and the closest point is called perigee. Idalis DeLeon - Sophia Morales (8 episodes).

Because the Moon's orbit around Earth is an ellipse rather than a circle, however, at some times during the month the Moon is further away, and at other times it is closer to Earth, than average. Justin Theroux - Joe (8 episodes). As seen from Earth, therefore, the Sun and the Moon appear to be about the same size in the sky - about 1/2 of a degree in angular measure. Melissa Marsala - Angelica Suarez (8 episodes). One of the most remarkable co-incidences in nature is that (i) the Sun lies about 400 times as far from Earth as does the Moon, and (ii) the Sun is also about 400 times the diameter of the Moon. Garrison Hershberger - Matthew Gilardi (8 episodes). The reason why some solar eclipses are total and others are annular has to do with the elliptical nature of the Moon's orbit around Earth. Peter Facinelli - Jimmy (9 episodes).

There are four types of solar eclipses:. Kathy Bates - Bettina (10 episodes). . Sprague Grayden - Anita Miller (12 episodes). A total solar eclipse is considered by many to be the most spectacular natural phenomenon that one can observe. Tina Holmes - Maggie Sibley (13 episodes). This configuration can only occur at New Moon, when the Sun and Moon are in conjunction, as seen from Earth. Rainn Wilson - Arthur Martin (13 episodes).

A solar eclipse occurs when the Moon passes in front of the Sun and obscures it totally or partially. Peter Macdissi - Olivier Castro-Staal (15 episodes). February 16, 1980: Launch of rockets from San Marco platform. Ed O'Ross - Nikolai (18 episodes). February 26, 1979: Launch of rockets from Red Lake, Canada. Richard Jenkins - Nathaniel Fisher (20 episodes). November 12, 1966: Launch of two Titus-rockets fom Las Palmas, Argentina. Joanna Cassidy - Margaret Chenowith (20 episodes).

May 20, 1966: Launch of rockets at Karystos, Greece to watch the solar eclipse. Ben Foster - Russell Corwin (22 episodes). May 30, 1965: Launch of rockets at Charlestown, USA. Lili Taylor - Lisa Kimmel Fisher (23 episodes). MacRobert, Sky & Telescope magazine. Jeremy Sisto - Billy Chenowith (29 episodes). How to Watch a Partial Solar Eclipse Safely, Alan M. Brenna and Bronwyn Tosh - Maya Fisher (37 episodes).

Eye Safety During Solar Eclipses, Fred Espenak, NASA Goddard Space Flight Center. Susie Bright (Episode 57, The Rainbow of Her Reasons). However, some eclipses can only be seen as a partial eclipse, because the central line never intersects the Earth's surface. Chris Harrison (Episode 52, A Coat of White Primer). This phenomenon can usually be seen from a large part of the Earth outside of the track of a central eclipse. Nicole Richie (Episode 51, Untitled). A partial eclipse occurs when the Sun and Moon are not exactly in line, and the Moon only partially obscures the Sun. Ellen DeGeneres (Episode 42, Parallel Play).

The generic term for a total, annular or hybrid eclipse is a central eclipse. Leeza Gibbons (Episode 22, Someone Else's Eyes). At some points on the Earth it is visible as a total eclipse; whereas at others it is annular. List of Six Feet Under episodes. A hybrid eclipse is intermediate between a total and annular eclipse. Hence the Sun appears as a very bright ring surrounding the outline of the Moon.

An annular eclipse occurs when the Sun and Moon are exactly in line, but the apparent size of the Moon is smaller than that of the Sun. During any one eclipse, a total eclipse is visible only from a fairly narrow track on the surface of the Earth. The intensely bright disk of the Sun is replaced by the dark outline of the Moon, and the much fainter corona is visible (see image right). A total eclipse occurs when the Sun is completely obscured by the Moon.