Happy Equinox! It's the 1st Day of Autumn in Earth's Northern Hemisphere

Happy Equinox! 

This morning (Sept. 23) at 3:49 a.m. EDT (0749 GMT) marked the official celestial beginning of autumn in the Northern Hemisphere. 

Although beaches have long been closed in many parts of the United States and there's already been a meteorological shift from summer into autumn, today marks a special transition in which the sun crosses the celestial equator, or the projection of Earth's equator onto the sky, from north to south. While the north gears up for chillier days, the south is welcoming springtime.

Cultures around the world have celebrated this celestial shift in different ways. In Japan both equinoxes are national holidays known as Ohigan, in which people honor their deceased ancestors. In Mexico, tourists flock to view the descent of the feathered-snake god Kukulkán along the side of a Mayan pyramid in Chichén Itzá. 

Related: Day and Night Are Perfectly Balanced in Spring Equinox Photo Snapped from Space

These four satellite images of Earth show how the planet's terminator, or the line between night and day, changes with the seasons due to the Earth's tilt. This change also causes the length of the day and the amount of warming sunshine in different parts of the globe to vary with the seasons. The images, which were captured by EUMETSAT's Meteosat-9, show Earth at the winter solstice on Dec. 21, 2010; the vernal equinox on March 20, 2011; the summer solstice on June 21, 2011; and three days before the autumnal equinox on Sept. 20, 2011. (Image credit: Robert Simon/NASA/EUMETSAT)

The word "equinox" means "equal night" in Latin, because this transitional day means the sun is directly over the Earth's equator. That means that any given place on the globe's surface will experience day and night of almost equal length. In most places, day will last longer than night because it doesn't account for twilight, when sunlight refracts as it passes through the atmosphere and illuminates the sky before sunrise or after sunset, according to timeanddate.com.

The seasonal changes are caused by the tilt of Earth's axis, an imaginary rod that goes through Earth's north and south poles. It's tilted about 23.4 degrees relative to the plane of Earth's orbit around the sun. During the equinoxes, the seasonal effect of this tilt is quite apparent at Earth's poles. On the September equinox, the sun finally rises over the horizon at the south pole, which hasn't seen sunrise since the March equinox six months ago. Meanwhile, the north pole braces for the long night until sunrise next year.

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Doris Elin Urrutia
Contributing Writer

Doris is a science journalist and Space.com contributor. She received a B.A. in Sociology and Communications at Fordham University in New York City. Her first work was published in collaboration with London Mining Network, where her love of science writing was born. Her passion for astronomy started as a kid when she helped her sister build a model solar system in the Bronx. She got her first shot at astronomy writing as a Space.com editorial intern and continues to write about all things cosmic for the website. Doris has also written about microscopic plant life for Scientific American’s website and about whale calls for their print magazine. She has also written about ancient humans for Inverse, with stories ranging from how to recreate Pompeii’s cuisine to how to map the Polynesian expansion through genomics. She currently shares her home with two rabbits. Follow her on twitter at @salazar_elin.