Main Page | Recent changes | Edit this page | Page history

Printable version | #REDIRECT [[Thelemapedia:Disclaimers]]

Not logged in
Log in | Help
 

Equinox (astrology)

From Thelemapedia

Image:Unicursalsmall.gif
This article needs more information within the context of Thelema (i.e. Aleister Crowley, historical event, organization, text, or cultural aspect of Thelema). You can help by expanding it (http://www.thelemapedia.org/index.php?title=Equinox_%28astrology%29&action=edit).

In astronomy and astrology, an equinox is defined as the moment when the sun reaches one of two intersections between the ecliptic and the celestial equator.

The word "equinox" comes from the Latin for equal night. The equinoxes occurring with the sun at 0° Aries and Libra (late March and September, respectively, on the common calendar) are the two occasions each year when the day and the night are of equal duration. For measuring the length of a day, sunrise is the moment when the sun is half-above the horizon and sunset is the moment when the sun is half-under the horizon. Using this definition, the length of the day (and the night) is precisely 12 hours at an equinox.

In the northern hemisphere, the Aries equinox is known as the vernal (spring) equinox and the Libra equinox is the autumnal (autumn) equinox. In the southern hemisphere, these names may be transposed. For simplicity, this article will refer to the equinoxes by the zodiacal names used above.

On the common calendar, the vernal equinox typically falls on either March 20 or 21 and the autumnal equinox on September 22 or 23 – the Gregorian dates vary because some years are leap years, shifting the calendar by a day or so relative to the seasons. The Thelemic Calendar, for obvious reasons, does not have the problem of varying dates for the equinoxes. Because the Earth's orbit is elliptical, the dates on which the equinoxes fall do not divide the year into equal halves.

The equinoxes can also be interpreted as virtual points in the sky. Although, during full daylight, stars other than the sun are overwhelmed by sunlight, making it hard to see where the sun is compared to other celestial bodies, the sun does have a position (as seen from the earth) relative to the other stars. As the Earth moves around the sun, the apparent position of the sun relative to the other stars moves in a full circle over the period of a year. This circle is called the ecliptic, and is also the plane of the Earth's orbit projected against the whole sky. The other bright planets like Venus, Mars and Saturn, also appear to move along the ecliptic, because their orbits are in a similar plane to Earth's.

Another virtual circle in the sky is the celestial equator, or the projection of the plane of the Earth's equator against the whole sky. Because the Earth's axis of rotation is tilted relative to the plane of Earth's orbit around the sun, the celestial equator is inclined to the ecliptic. Twice a year, the sun, making its progress around the ecliptic, crosses the plane of the Earth's equator. These two points are the equinoxes. The time at which the sun passes through each equinox point can be calculated precisely—so the equinox is actually a particular moment, rather than a whole day.

Table of contents

Behaviour of the sun

On the equinoxes, everywhere over the globe, the sun rises true east (parallel to lines of latitude), sets at true west and the length of the day equals the length of the night.

Aries equinox

At the North pole the sun passes from a 6-month-long night to a 6-month-long day.

At the Arctic circle the sun reaches its maximum altitude of 23° in the South.

At the Tropic of Cancer the sun reaches its maximum altitude of 67° in the South.

At the equator the sun rises in a vertical line from the East on the horizon to the zenith, and then sets in a vertical line from the zenith to the West on the horizon.

At the Tropic of Capricorn the sun reaches its maximum altitude of 67° in the North.

At the Antarctic circle the sun reaches its maximum altitude of 23° in the North.

At the South pole the sun passes from a 6-month-long day to a 6-month-long night.

Libra equinox

At the North pole the sun passes from a 6-month-long day to a 6-month-long night.

At the Arctic circle the sun reaches its maximum altitude of 23° in the South.

At the Tropic of Cancer the sun reaches its maximum altitude of 67° in the South.

At the equator the sun rises in a vertical line from the East on the horizon to the zenith, and then sets in a vertical line from the zenith to the West on the horizon.

At the Tropic of Capricorn the sun reaches its maximum altitude of 67° in the North.

At the Antarctic circle the sun reaches its maximum altitude of 23° in the North.

At the South pole the sun passes from a 6-month-long night to a 6-month-long day.

See also

References

External links


Retrieved from "http://www.thelemapedia.org/index.php/Equinox_%28astrology%29"

This page has been accessed 22580 times. This page was last modified 14:45, 3 Mar 2005. Content is available under GNU Free Documentation License 1.2.


[Main Page]
Main Page
Recent changes
Random page
Current events

Edit this page
Discuss this page
Page history
What links here
Related changes

Special pages
Bug reports